Genetics Flashcard Round-Up

Gal3p

- Transducer found in cytoplasm - Binds galactose and moves into nucleus to bind GAL4/ GAL80

Effects of Epistasis

- distinct phenotypic classes are produced - assort independently of one another during gamete formation - either allele (+ or -) may be present without consequence to the phenotype - all P1 involve homozygous outcomes: A-B-, A-, aaB-, aabb

Remodeling of nucleosome core particle

- exchange of histone variants

Erasers

- histone and lysine demethylases

Transcription and translation

- occurs in the nucleus where the mRNA takes a copy of DNA - occurs in the cytoplasm with the help of ribosomes - purpose is to produce proteins throughout the body ; DNA codes for that

To execute a successful mapping cross, three criteria must me met:

- the genotype of the organism producing the crossover gametes must be heterozygous at all loci under consideration - genotypes of all gametes can be accurately determined by observing the phenotypes of the resulting offspring - sufficient number of offspring must be produced

For linked genes A, B, and C, the map distance A-B is 5 map units and the map distance B-C is 25 map units. If there are 10 double crossover events out of 1000 offspring, what is the interference?

0.2 ( The coefficient of coincidence is 0.01/0.0125 = 0.8, so the interference is 1 - 0.8 = 0.2.)

Part C - Experimental prediction: Comparing autosomal and sex-linked inheritance You now know that inheritance of eye color in fruit flies is sex-linked: The gene encoding eye color is located on the X chromosome, and there is no corresponding gene on the Y chromosome. How would the inheritance pattern differ if the gene for eye color were instead located on an autosome (a non-sex chromosome)? Recall that for autosomes, both chromosomes of a homologous pair carry the same genes in the same locations. Suppose that a geneticist crossed a large number of white-eyed females with red-eyed males. Consider two separate cases: Case 1: Eye color exhibits sex-linked inheritance. Case 2: Eye color exhibits autosomal (non-sex-linked) inheritance. (Note: In this case, assume that the red-eyed males are homozygous.)

1 Eye color exhibits sex linked inheritance -100 Fm osp,100 red eyes + 0 white - 0 male osp 0 red eyes+ 100 white -100 female Osp 100 red eyes+ 0white -100Male osp 100 red eyes+0 white

Assume that the genes from the previous example are located along the chromosome in the order X, Y, and Z. What is the probability of recombination between genes X and Z?

30% Recombination frequencies between linked genes along a chromosome are additive, so the recombination frequency between genes X and Z is 25 + 5 = 30.

If two genes on the same chromosome exhibit complete linkage, what is the expected F2 phenotypic ratio from a selfed heterozygote with the genotype a+b+ ⁄⁄ ab?

3:1 (Each parent produces two types of gametes, a+b+ and ab, giving the simple Mendelian ratio of 3 a+b+ : 1 ab.)

Kleinfelter's Syndrome

47 XXY, nondisjunction during miosis long legs, short trunk gynecomastia Hypogonadism Tall height

Excision repair

A DNA-repair process where enzymes remove a damaged portion of DNA, synthesize a replacement section in place, and attach it to the neighboring DNA segments

high frequency recombination

A HFR strain, caused by the presence of a chromosomally integrated F factor.

R plasmids

A bacterial plasmid carrying genes that confer resistance to certain antibiotics.

Missense mutation

A base-pair substitution that results in a codon that codes for a different amino acid.

chromosome theory of inheritance

A basic principle in biology stating that genes are located on chromosomes and that the behavior of chromosomes during meiosis accounts for inheritance patterns.

Endoplasmic Reticulum

A cell structure that forms a maze of passageways in which proteins and other materials are carried from one part of the cell to another.

Mutation

A change in a gene or chromosome.

Chromosomal mutation

A change in the chromosome structure, resulting in new gene combinations.

deletion

A change to a chromosome in which a fragment of the chromosome is removed.

traits

A characteristic that an organism can pass on to its offspring through its genes.

punnett square

A chart that shows all the possible combinations of alleles that can result from a genetic cross

Mutagens

A chemical or physical agent that interacts with DNA and causes a mutation.

BrdU

A chemical that identifies newly-divided cells

Aneuploidy

A chromosomal aberration in which one or more chromosomes are present in extra copies or are deficient in number.

monosomic

A chromosomal condition in which a particular cell has only one copy of a chromosome, instead of the normal two.

Turner syndrome

A chromosomal disorder in females in which either an X chromosome is missing or part of one X chromosome is deleted

Klinefelter syndrome

A chromosomal disorder in which males have an extra X chromosome, making them XXY instead of XY.

triploid

A chromosomal mutation where an organism has three sets of chromosomes (3n) instead of two (2n)

deoxyribonuclease (DNase)

A class of enzymes that breaks down DNA into oligonucleotide fragments by introducing single-stranded or double-stranded breaks into the double helix.

yeast artificial chromosome (YAC)

A cloning vector that has telomeres and a centromere that can accommodate large DNA inserts and uses the eukaryote yeast as a host cell.

sliding clamp loader

A component of the DNA polymerase III holoenzyme consisting of five subunits that attach a circular protein complex to the polymerase in an ATP-dependent reaction.

monohybrid cross

A cross between two individuals, concentrating on only one definable trait

dihybrid cross

A cross between two individuals, concentrating on two definable traits

nucleoid

A dense region of DNA in a prokaryotic cell.

pedigree

A diagram that shows the occurrence of a genetic trait in several generations of a family.

spermatogonium

A diploid cell that can undergo mitosis to form more spermatogonium, and can also be triggered to undergo meiosis to form sperm.

biotechnology

A form of technology that uses living organisms, usually genes, to modify products, to make or modify plants and animals, or to develop other microorganisms for specific purposes.

conditional knockout

A gene that can be selectively deactivated either in specific tissues and/or at a specific stage of development.

tumor suppressor genes

A gene whose protein product inhibits cell division, thereby preventing the uncontrolled cell growth that contributes to cancer.

reporter gene

A genetic marker included in recombinant DNA to indicate the presence of the recombinant DNA in a host cell.

Actin

A globular protein that links into chains, two of which twist helically about each other, forming microfilaments in muscle and other contractile elements in cells.

Action spectrum

A graph that profiles the relative effectiveness of different wavelengths of radiation in driving a particular process.

r-determinant

A group of genes for antibiotic resistance carried on R factors

resistance transfer factor (RTF)

A group of genes for replication and conjugation on the R factor

Polyadenylation signal sequence

A hexanucleotide sequence of mRNA, usually AAUAAA, that identifies the location of 3' pre-mRNA cleavage and polyadenylation

Cosmic rays

A highly energetic atomic nucleus or other particle traveling through space at a speed approaching that of light.

insulin

A hormone produced by the pancreas or taken as a medication by many diabetics

PKU

A human metabolic disease caused by a mutation in a gene coding for a phenylalanine processing enzyme (phenylalanine hydroxylase), which leads to accumulation of phenylalanine and mental retardation if not treated; inherited as an autosomal recessive phenotype.

southern blotting

A hybridization technique that enables researchers to determine the presence of certain nucleotide sequences in a sample of DNA.

cytoplasm

A jellylike fluid inside the cell in which the organelles are suspended

genome-wide association studies

A large-scale analysis of the genomes of many people having a certain phenotype or disease, with the aim of finding genetic markers that correlate with that phenotype or disease.

DNA ligase

A linking enzyme essential for DNA replication; catalyzes the covalent bonding of the 3' end of a new DNA fragment to the 5' end of a growing chain.

Chromatin remodeling

A mechanism for epigenetic gene regulation by the alteration of chromatin structure.

blue-white screening

A method of selecting the desired recombinant bacteria (out of millions of cells) that contain an inserted gene from foreign DNA.

DNA microarray

A microarray of immobilized single-stranded DNA fragments of known nucleotide sequence that is used especially in the identification and sequencing of DNA samples and in the analysis of gene expression (as in a cell or tissue).

folded fiber model

A model of eukaryotic chromosome organization in which each sister chromatid consists of a single chromatin fiber composed of double-stranded DNA and proteins wound like a tightly coiled skein of yarn

spectral karyotyping

A molecular cytogenetic technique that allows the visualization of all the chromosomes at once using different colored markers for each chromosome

Silent mutation

A mutation that changes a single nucleotide, but does not change the amino acid created.

Nonsense mutation

A mutation that changes an amino acid codon to one of the three stop codons, resulting in a shorter and usually nonfunctional protein.

Null mutation

A mutation that results in complete absence of function for the gene

Negative control

A negative control is a control group in an experiment that uses a treatment that isn't expected to produce results.

prophase 2

A new spindle forms around the chromosomes

dissociation (Ds)

A nonautonomous transposable element named by Barbara McClintock for its ability to break chromosome 9 of maize but only in the presence of another element called Activator (Ac).

telophase 2

A nuclear membrane forms around the chromosomes in each of the 4 new cells.

SWI/SNF

A nucleosome remodeling complex. A group of proteins that associate to move nucleosomes away from promoter sequences to facilitate transcription; a coactivator.

Apyrimidinic site

A nucleotide residue in a DNA molecule from which a prymide base has been lost or removed

nucleus

A part of the cell containing DNA and RNA and responsible for growth and reproduction

alternate segregation

A pattern of chromosome segregation that can occur following reciprocal balanced translocation that leads to the production of viable gametes.

carrier

A person whose genotype includes a gene that is not expressed in the phenotype.

prophage

A phage genome that has been inserted into a specific site on the bacterial chromosome.

temperate phage

A phage that is capable of reproducing by either the lytic or lysogenic cycle.

virulent phage

A phage that reproduces only by a lytic cycle.

F factor

A piece of DNA that can exist as a bacterial plasmid. The F factor carries genes for making sex pili and other structures needed for conjugation, as well as a site where DNA replication can start. F stands for fertility.

Ti plasmid

A plasmid of a tumor-inducing bacterium that integrates a segment of its DNA into the host chromosome of a plant; frequently used as a carrier for genetic engineering in plants.

Polynucleotides

A polymer consisting of many nucleotide monomers in a chain; nucleotides can be those of DNA or RNA.

Positive control

A positive control is a control group in an experiment that uses a treatment that is known to produce results.

Sanger sequencing

A procedure in which chemical termination of daughter strands help in determining the DNA sequence.

Electrophoresis

A process where DNA fragments are separated according to size using electrical charges

Ubiquitin

A protein that attaches itself to faulty or misfolded proteins and thus targets them for destruction by proteasomes

motor proteins

A protein that interacts with cytoskeletal elements and other cell components, producing movement of the whole cell or parts of the cell.

Base analogs

A purine or pyrimidine that differs in chemical structure from those normally found in DNA or RNA

Nonhomologous end joining

A quick-and-dirty mechanism for repairing double-strand breaks in DNA that involves quickly bringing together, trimming, and rejoining the two broken ends; results in a loss of information at the site of repair.

Transcription factors

A regulatory protein that binds to DNA and affects transcription of specific genes.

transcription factor

A regulatory protein that binds to DNA and affects transcription of specific genes.

gene

A segment of DNA on a chromosome that codes for a specific trait

plasma membrane

A selectively-permeable phospholipid bilayer forming the boundary of the cells

General transcription factors

A set of proteins that bind to the promoter of a gene whose combined action is necessary for transcription.

genomic library

A set of thousands of DNA segments from a genome, each carried by a plasmid, phage, or other cloning vector.

Triplet code

A set of three-nucleotide-long words that specify the amino acids for polypeptide chains.

single nucleotide polymorphism (SNP)

A single base-pair site in a genome where nucleotide variation is found in at least 1% of the population.

Apurinic site

A site in DNA that is missing a purine base

plasmid

A small ring of DNA that carries accessory genes separate from those of the bacterial chromosome

kinetochore

A specialized region on the centromere that links each sister chromatid to the mitotic spindle.

recognition sequence

A specific sequence of nucleotides at which a restriction enzyme cleaves a DNA molecule

restriction site

A specific sequence on a DNA strand that is recognized as a cut siteby a restriction enzyme.

inducer

A specific small molecule that inactivates the repressor in an operon.

Alpha helix

A spiral shape constituting one form of the secondary structure of proteins, arising from a specific hydrogen-bonding structure.

centrosome

A structure in animal cells containing centrioles from which the spindle fibers develop.

polymerase chain reaction (PCR)

A technique for amplifying DNA in vitro by incubating with special primers, DNA polymerase molecules, and nucleotides.

chronic villus sampling (CVS)

A technique for diagnosing genetic and congenital defects in a fetus by removing and analyzing a sample of the fetal portion of the placenta

genetic engineering

A technology that includes the process of manipulating or altering the genetic material of a cell resulting in desirable functions or outcomes that would not occur naturally.

Transport proteins

A transmembrane protein that helps a certain substance or class of closely related substances to cross the membrane.

Zinc finger motif

A type of DNA-binding motif in regulatory proteins that incorporates zinc atoms in its structure.

mRNA

A type of RNA, synthesized from DNA, that attaches to ribosomes in the cytoplasm and specifies the primary structure of a protein.

epistasis

A type of gene interaction in which one gene alters the phenotypic effects of another gene that is independently inherited.

Base pair substitution

A type of point mutation; the replacement of one nucleotide and its partner in the complementary DNA strand by another pair of nucleotides.

Base substitution

A type of point mutation; the replacement of one nucleotide and its partner in the complementary DNA strand by another pair of nucleotides.

Beta pleated sheet

A type of protein secondary structure; results from hydrogen bonding between polypeptide regions running antiparallel to each other.

palindrome

A word or an expression that is spelled the same backward and forward

26. Trisomy 21, or Down syndrome, occurs when there is a normal diploid chromosomal complement but one (extra) chromosome 21. Although fertility is reduced in both sexes, females have higher fertility rates than males. Van Dyke et al. (1995; Down Syndrome Research and Practice 3(2): 65-69) summarize data involving children born of Down syndrome individuals. Assume that children are born to a female with Down syndrome and a normal 46-chromosome male. What proportion of the offspring would be expected to have Down syndrome? A. One-half of the offspring would be expected to have Down syndrome. B. All the children would be expected to have Down syndrome. C. Two-thirds of the offspring would be expected to have Down syndrome. D. None of the offspring would be expected to have Down syndrome. E. One-third of the offspring would be expected to have Down syndrome.

A. One-half of the offspring would be expected to have Down syndrome.

22. In Drosophila, an individual female fly was observed to be of the XXY chromosome complement (normal autosomal complement) and to have white eyes as contrasted with the normal red eye color of wild type. The female's father had red eyes, and the mother had white eyes. Knowing that white eyes are X-linked and recessive, in what parent and at what stage did nondisjunction occur to produce this XXY, white-eyed female fly? Select all that apply. A. meiosis I in the mother B. meiosis II in the mother C. meiosis I in the father E. meiosis II in the father

A. meiosis I in the mother B. meiosis II in the mother

7. Name the general category into which double-stranded circular extrachromosomal DNA elements such as F factors, ColE1, and R would fall. A. plasmid B. partial diploid C. plaque D. capsid E. r-determinant

A. plasmid

19. The phenomenon in which one crossover decreases the likelihood of crossovers in nearby regions is called A. positive interference. B. chiasma. C. mitotic recombination. D. negative interference. E. reciprocal genetic exchange.

A. positive interference.

7. The genes for mahogany eyes and ebony body are approximately 25 map units apart on chromosome 3 in Drosophila. Assume that a mahogany-eyed female was mated to an ebony-bodied male and that the resulting F1 phenotypically wild-type females were mated to mahogany, ebony males to obtain an F2 generation. A.) Which of the following phenotypes would be expected in the F2 offspring? B.) If 1000 F2 offspring are obtained, how many flies of each phenotype are expected? __wild type : __ mahogeny : __ ebony : __ mahogeny, ebony (Remember the two genes are 25 mu apart on the same chromosome. In order to determine how many offspring of each type are produced, you must determine if the F1 females carries both mutations on one chromosome, and wildtype alleles on the other or if she carries one mutation and one wildtype allele on each chromosome.) Enter your answer as the number of flies of each phenotype separated by a colon.

A.) All Phenotypes: - wild type - mahogeny-eyed - ebony-bodied - mahogeny-eyed, ebony-bodied B.) Ratios are: 125 Wild type :375 Mahogeny :375 Ebony :125 Ebony/Mahogeny

18. Assume that the genes for tan body and bare wings are 15 map units apart on chromosome 2 in Drosophila. A tan-bodied, bare-winged female was mated to a wild-type male and that the resulting F1 phenotypically wild-type females were mated to tan-bodied, bare-winged males to obtain an F2 generation. A.) What phenotypes would be expected in the F2 offspring? B.) If 1000 F2 offspring are obtained, how many flies of each phenotype are expected? ___ wild-type : ____ tan : ___ bare : ____ tan, bare (Remember the two genes are 15 mu apart on the same chromosome. In order to determine how many offspring of each type are produced, you must determine if the F1 females carries both mutations on one chromosome, and wildtype alleles on the other or if she carries one mutation and one wildtype allele on each chromosome.) Enter your answer as the number of flies of each phenotype separated by a colon.

A.) All Phenotypes: - wild-type - tan body - bare wings - tan body, bare wings B.) Ratios are: 425 Wild type: 75 Tan: 75 Bare: 425 Tan/Bare

1. In Drosophila, assume that the gene for scute bristles (s) is located at map position 0.0 and that the gene for ruby eyes (r) is at position 15.0. Both genes are located on the X chromosome and are recessive to their wild-type alleles. A.) A cross is made between scute-bristled females and ruby-eyed males. Phenotypically wild F1 females were then mated to homozygous double mutant males, and 1000 offspring were produced. What phenotypes are expected in these offspring? B.) How many of each phenotype are expected if 1000 offspring were obtained? __ wild type: __ scute : __ ruby : __ scute, ruby (Remember the two genes are 15 mu apart on the same chromosome. In order to determine how many offspring of each type are produced, you must determine if the F1 females carries both mutations on one chromosome, and wildtype alleles on the other or if she carries one mutation and one wildtype allele on each chromosome.) Enter your answer as the number of flies of each phenotype separated by a colon.

A.) All phenotypes: - Wild type females - Wild type males - Scute-bristled females - Scute-bristled males - Ruby-eyed females - Ruby-eyed males - Scute-bristled, ruby-eyed females - Scute-bristled, ruby-eyed males B.) Ratios are: 75 Wild Type: 425 Scute: 425 Ruby: 75 Scute/Ruby

6. Assume that investigators crossed a strain of flies carrying the dominant eye mutation Lobe on the second chromosome with a strain homozygous for the second chromosome recessive mutations smooth abdomen and straw body. The F1 Lobe females were then backcrossed with homozygous smooth abdomen, straw body males, and a F2 generation was obtained (table). A.) Which gene is in the middle? A. straw body B. smooth abdomen C. Lobe B.) What is the coefficient of coincidence?

A.) C. Lobe B.) 0

22. In the fruit fly, Drosophila melanogaster, a spineless (no wing bristles) female fly is mated to a male that is claret (dark eyes) and hairless (no thoracic bristles). Phenotypically wild-type F1 female progeny were mated to fully homozygous (mutant) males, and 1000 progeny were obtained (see table). A.) Which gene is in the middle? A. spineless B. claret C. hairless B.) With respect to the three genes mentioned in the problem, what are the genotypes of the homozygous parents used in making the phenotypically wild F1 heterozygote? Choose two answers, one for each parent. A. cl h+ sp / cl h+ sp B. cl+ h+ sp+ / cl+ h+ sp+ C. cl+ h+ sp / cl+ h+ sp D. cl h sp+ / cl h sp+ E. cl+ h sp / cl+ h sp F. cl h+ sp+ / cl h+ sp+ G. cl+ h sp+ / cl+ h sp+ H. cl h sp / cl h sp C.) What is the map distance between claret and hairless? D.) What is the map distance between hairless and spineless? E.) What is the map distance between claret and spineless? F.) What is the coefficient of coincidence?

A.) C. hairless B.) Answers: C. cl+ h+ sp / cl+ h+ sp D. cl h sp+ / cl h sp+ C.) 30 map units D.) 10 map units E.) 40 map units F.) Coefficient of Confidence = 1

human papilloma virus

Abbreviated HPV and also known as plantar warts; a virus that can infect the bottom of the foot and resembles small black dots, usually in clustered groups.

genome scanning

Allows analysis of DNA for dozens or hundreds of disease alleles

Activation domain

Allows for binding of several transcription factors and other important regulatory proteins

Replication slippage

Also known as slipped-strand mispairing, is a form of mutation that leads to either a trinucleotide or dinucleotide expansion or contraction during DNA replication. A source of spontaneous mutation

reverse transcription PCR

Amplifies sequences corresponding to RNA. Reverse transcriptase is used to convert RNA into complementary DNA, which can then be amplified by the usual polymerase chain reaction

null allele

An allele whose effect is the absence either of normal gene product at the molecular level or of normal function at the phenotypic level.

alternative lengthening of telomeres (ALT)

An alternative pathway that some cancer cells use to replace lost telomere ends by using DNA recombination.

bacterial artificial chromosome (BAC)

An artificial version of a bacterial chromosome that can carry inserts of 100, 000 to 500, 000 base pairs.

DNA helicase

An enzyme that unwinds the DNA double helix during DNA replication

SOS repair system

An error-prone process whereby a bypass polymerase replicates past DNA damage at a stalled replicating fork by inserting nonspecific bases

Intragenic mutation

An existing gene can be randomly modified by changes in its DNA sequence, through various types of error that occur mainly in the process of DNA replication

Avian Influenza

An infectious disease of birds with some strains capable of crossing the species barrier and causing severe illness in humans that come in contact with bird droppings or fluids

Human Genome Project

An international collaborative effort to map and sequence the DNA of the entire human genome.

Hemoglobin

An iron-containing protein in red blood cells that reversibly binds oxygen.

secondary oocyte

An oocyte in which the first meiotic division is completed. The second meiotic division usually stops short of completion unless fertilization occurs.

heterozygous

An organism that has two different alleles for a trait

homozygous

An organism that has two identical alleles for a trait

Phenotype

An organism's physical appearance, or visible traits.

phenotype

An organism's physical appearance, or visible traits.

Myoglobin

An oxygen-storing, pigmented protein in muscle cells.

transgenic animals

Animals that contain genes transferred from other animals, usually from a different species

5-azacytidine

Anti-leukemic drug that is inserted in DNA as a cytosine analog and binds irreversibly to cytosine methyltransferase, depleting this enzyme and causing demethylation of DNA which promotes tumor cell differentiation. Used to treat myelodysplastic syndrome.

1. A recessive gene for red-green color blindness is located on the X chromosome in humans. Assume that a woman with normal vision (her father is color blind) marries a color-blind male. What is the likelihood that this couple's first son will be color blind? A. 75% B. 50% C. 25% D. 0% E. 100%

B. 50%

10. Assume that you are told that a particular organism, Drosophila, has the XO chromosome complement. You are also told that the autosomal complement is a normal 2n. You know that in humans the XO complement is female determining. Would you be correct in assuming that the Drosophila sex for XO is also female? Choose the answer that includes the correct explanation. A. Yes, because sex determination in humans and insects is essentially the same. B. No, the chromosomal basis for sex determination in Drosophila based on the balance between the number of X chromosomes and haploid sets of autosomes. C. No, sex determination in Drosophila is dependent on the presence or absence of the Y chromosome. D. Yes, the presence of an X chromosome determines a female in both organisms. E. No, it takes two X chromosomes to produce a female in humans and a Y chromosome to produce a male in Drosophila.

B. No, the chromosomal basis for sex determination in Drosophila based on the balance between the number of X chromosomes and haploid sets of autosomes.

4. The condition that exists when an organism gains or loses one or more chromosomes but not a complete haploid set is known as ________. A. polyploidy B. aneuploidy C. euploidy D. triploidy E. trisomy

B. aneuploidy

7. To which of the following does the term heteroplasmy refer? A. a circumstance that is homologous to incomplete dominance B. cells with a variable mixture of normal and abnormal organelles C. conditions in which the germ plasm is a mixture of dominant and recessive genes D. various stages of development of mitochondria and chloroplasts E. heterozygous individuals with more than one gene pair involved

B. cells with a variable mixture of normal and abnormal organelles

8. In Drosophila, an individual female fly was observed to be of the XXY chromosome complement (normal autosomal complement) and to have white eyes as contrasted with the normal red eye color of wild type. The female's mother and father had red eyes. The mother, however, was heterozygous for the gene for white eyes. Knowing that white eyes are X-linked and recessive, in which parent and at what stage did nondisjunction occur to produce this XXY, white-eyed female fly? Select all that apply. A. meiosis I in the mother B. meiosis II in the mother C. meiosis I in the father D. meiosis II in the father

B. meiosis II in the mother

17. Approximately one in 5000 humans either have a mitochondrial DNA disorder or are at risk for developing such a disorder. What future approach involving nuclear transplantation might be available to treat mtDNA-based human disorders? A. nuclear activation B. mitochondrial swapping C. mitochondrial activation D. mitochondrial suppression E. nuclear disintegration

B. mitochondrial swapping

13. Direction of shell coiling in Lymnaea peregra is strongly and most directly influenced by_______. A. the phenotype of the mother B. the genotype of the mother C. the genotype of the father D. the phenotype of the father E. the genotype of the embryo itself

B. the genotype of the mother

13. A genomic condition that may be responsible for some forms of fragile X syndrome, as well as Huntington disease, involves ________. A. plasmids inserted into the FMR-1 gene B. various lengths of trinucleotide repeats C. multiple breakpoints fairly evenly dispersed along the X chromosome D. single translocations in the X chromosome E. multiple inversions in the X chromosome

B. various lengths of trinucleotide repeats

Part D - The effect of a fourth gene on fur color In the same mouse species, a fourth unlinked gene (gene P/p) also affects fur color. For mice that are either homozygous dominant (PP) or heterozygous (Pp), the organism's fur color is dictated by the other three genes (A/a, B/b, and C/c). For mice that are homozygous recessive (pp), large patches of the organism's fur are white. This condition is called piebaldism. In a cross between two mice that are heterozygous for agouti, black, color, and piebaldism, what is the probability that offspring will have solid black fur along with large patches of white fur?

Because each gene segregates independently, you need to determine the probability of each genotype independently and then multiply the four probabilities together. The probability of offspring with solid color (aa) is 1/4; the probability of offspring with black fur (BBor Bb) is 3/4; the probability of colored fur (CCor Cc) is 3/4; and the probability of piebald, or white patches (pp), is 1/4. The combined probability is1/4 x 3/4 x 3/4 x 1/4 = 9/256.

Part B - Lethal alleles and epistasis In addition to A and a, the "agouti" gene has a third allele, AY . Here is some information about the inheritance of the AY allele. The AY allele is dominant to both A and a. The homozygous genotype (AYAY ) results in lethality before birth. The heterozygous genotypes (AYA or AYa) result in yellow fur color, regardless of which alleles are present for the B/b gene. (This effect exhibited by the AY allele is known as epistasis--when the expression of one gene masks the expression of a second gene.) In a mating of mice with the genotypes AYaBb x AYaBb , what is the probability that a live-born offspring will have yellow fur?

Because the presence of the AY allele is epistatic to (masks expression of) the B/b gene, the B/b gene does not need to be taken into consideration in this problem. For the AYa x AYa cross, 1/4 of the offspring would have the AYAY genotype, which is lethal before birth. For the live-born offspring, 2/3 would be AYa, and thus have yellow fur.

In mice, agouti fur is a dominant trait resulting in individual hairs having a light band of pigment on an otherwise dark hair shaft. A mouse with agouti fur is shown here, along with a mouse with solid color fur, which is the recessive phenotype (A = agouti; a = solid color). A separate gene, which is not linked to the agouti gene, can result in either a dominant black pigment or a recessive brown pigment (B = black; b = brown). A litter of mice from the mating of two agouti black parents includes offspring with the following fur colors: solid color, black solid color, brown (sometimes called chocolate) agouti black agouti brown (sometimes called cinnamon) What would be the expected frequency of agouti brown offspring in the litter?

Because the two traits are determined by unlinked genes, they assort independently. As a result, you need to use the multiplication rule to calculate the probability of agouti brown offspring (A_ bb) from AaBb parents. The probability of A_offspring is 3/4, and the probability of bb offspring is 1/4. The combined probability is therefore 3/4 x 1/4 = 3/16.

A=Autosomal recessive B X-linked Recessive

Begin a pedigree analysis by determining the inheritance mode of the condition. Is the condition recessive or dominant? Dominant conditions require that an affected individual have at least one affected parent. An affected offspring of two unaffected parents indicates a recessive condition. (This is the case for both conditions A and B.) Is the condition autosomal or X-linked? An affected female offspring of two unaffected parents indicates an autosomal recessive condition. (This is the case for condition A.) If the condition were X-linked, the male parent would be affected. To distinguish between rare X-linked and autosomal recessive conditions, choose the simpler mode for the observed pattern—that is, the mode that requires fewer unrelated individuals to carry a rare allele. In this example, the autosomal recessive mode would require two unrelated horses (II-1 and II-5) to carry a rare recessive allele for condition B, whereas the X-linked recessive mode requires only one. Therefore, the X-linked recessive mode is a better choice for condition B.

Shelterin complex

Binds to the end of the telomere Involved in formation of heterochromatin and T-loop (TRF2)

homozygous recessive

Both alleles (factors) for a trait are the same and recessive (aa)

Hybridization

Breeding technique that involves crossing dissimilar individuals to bring together the best traits of both organisms

In bacteriophages and bacteria, the DNA is almost always organized into circular (closed loops) chromosomes. Phage λ is an exception, maintaining its DNA in a linear chromosome within the viral particle. However, as soon as this DNA is injected into a host cell, it circularizes before replication begins. What advantage exists in replicating circular DNA molecules compared to linear molecules, characteristic of eukaryotic chromosomes?

By having a circular chromosome, there are no free ends to present the problem of linear chromosomes, namely, complete replication of terminal sequences.

12. One form of hemophilia is caused by a sex-linked recessive gene. Assume that a man with hemophilia marries a phenotypically normal woman whose father had hemophilia. What is the probability that their first son will have hemophilia? A. 1/16 B. 1/8 C. 1/2 D. 1/4 E. 3/4

C. 1/2

5. Trisomy 21, or Down syndrome, occurs when there is a normal diploid chromosomal complement but one (extra) chromosome 21. While there is reduced fertility in both sexes, females have higher fertility than males. Van Dyke et al. (1995; Down Syndrome Research and Practice 3(2):6569) summarize data involving children born of Down syndrome individuals. Given the fact that conceptuses with 48 chromosomes (four #21 chromosomes) are not likely to survive early development, what percentage of surviving offspring would be expected to have Down syndrome if both parents have Down syndrome? A. None of the surviving offspring would be expected to have Down syndrome. B. All the children would be expected to have Down syndrome. C. Two-thirds of the surviving offspring would be expected to have Down syndrome. D. One-half of the surviving offspring would be expected to have Down syndrome. E. One-third of the surviving offspring would be expected to have Down syndrome.

C. Two-thirds of the surviving offspring would be expected to have Down syndrome.

14. Through the study of mitochondrial disorders, scientists have suggested a link between the decline of mitochondrial function and aging. What process appears to be involved in this suspected phenomenon? A. recombination among mtDNAs of different mitochondria B. recombination of mtDNA and nuclear DNA C. accumulation of mutations in the mtDNA D. decline of mutations in the nuclear genome E. accumulation of sporadic mutations in the nuclear genome

C. accumulation of mutations in the mtDNA

18. Name two forms of recombination in bacteria. A. auxotrophic and prototrophic B. lytic and lysogenic C. conjugation and transduction D. insertion and replication E. mixed and generalized

C. conjugation and transduction

16. Forms of inheritance that do not follow typical Mendelian patterns and that appear to be more influenced by the parent contributing the most cytoplasm to the embryo are grouped under the general heading of ________. A. neo-Mendelian inheritance B. sex-linked inheritance C. extrachromosomal inheritance D. dominance and/or recessiveness E. suppressive inheritance

C. extrachromosomal inheritance

13. Assume that a cross is made between AaBb and aabb plants and that the offspring fall into approximately equal numbers of the following groups: AaBb, Aabb, aaBb, aabb. These results are consistent with the following circumstance: A. hemizygosity. B. incomplete dominance. C. independent assortment. D. alternation of generations. E. complete linkage.

C. independent assortment.

6. The clearing made by bacteriophages in a "lawn" of bacteria on an agar plate is called a ________. A. prophage B. host range C. plaque D. clear zone E. lysogenic zone

C. plaque

14. A bacteriophage that is capable of entering either a lytic or lysogenic cycle is called a(n) ________. A. virulent bacteriophage B. episome C. temperate bacteriophage D. plasmid E. plaque-forming unit

C. temperate bacteriophage

coefficent of coincidence

C= observed DCO/expected DCO

Loss of function mutation

Causes the complete or partial absence of normal function.

meiosis

Cell division that produces reproductive cells in sexually reproducing organisms

centrioles

Cell organelle that aids in cell division in animal cells only

metaphase 2

Centromeres of chromosomes line up randomly at the equator of each cell.

DNA repair

Collective term for the enzymatic processes that correct deleterious changes affecting the continuity or sequence of a DNA molecule.

X-gal

Compound that causes marked bacteria to turn blue.

13. One form of hemophilia is caused by a sex-linked recessive gene. Assume that a man with hemophilia marries a phenotypically normal woman whose father had hemophilia. What is the probability that they will have a daughter with hemophilia? (Note: In this problem, you must include the probability of having a daughter in your computation of the final probability.) A. 1/16 B. 3/4 C. 1/2 D. 1/4 E. 1/8

D. 1/4

10. What is the expression pattern of dominant-negative mutations in petite strains of yeast? A. Expression of mutant mitochondria resembles expression of wild-type mitochondria. B. Expression of wild-type mitochondria is enhanced. C. Mitochondrial membranes become hyperpolarized. D. The function of wild-type mitochondria is suppressed. E. Mitochondria show enhanced capacity of oxidative phosphorylation.

D. The function of wild-type mitochondria is suppressed.

23. What term is applied when two genes fail to assort independently, that is, they tend to segregate together during gamete formation? A. discontinuous inheritance B. dominance and/or recessiveness C. Mendelian inheritance D. linkage E. tetrad analysis

D. linkage

3. Assume that a cross is made between AaBb and aabb plants and that the offspring occur in the following numbers: 106 AaBb, 48 Aabb, 52 aaBb, 94 aabb. These results are consistent with the following circumstance: A. sex-linked inheritance with 30% crossing over. B. linkage with 50% crossing over. C. independent assortment. D. linkage with approximately 33 map units between the two gene loci. E. 100% recombination.

D. linkage with approximately 33 map units between the two gene loci.

1. Bacteriophages engage in two interactive cycles with bacteria. What are these cycles? A. heteroduplex and homoduplex B. insertion and replication C. auxotrophic and prototrophic D. lytic and lysogenic E. negative and positive

D. lytic and lysogenic

2. Temperate phages are those that can enter either the ________ or ________ cycle. A. complementing; competing B. former; nonformer C. functional; nonfunctional D. lytic; lysogenic E. virulent; avirulent

D. lytic and lysogenic

12. One explanation for organelle inheritance is that ________. A. chloroplasts, for example, are completely dependent on the nuclear genome for components B. mitochondria and chloroplasts lack DNA and are therefore dependent on the maternal cytoplasmic contributions C. organelles such as mitochondria are always wild type D. mitochondria and chloroplasts have DNA that is subject to mutation E. None of the answers listed are correct.

D. mitochondria and chloroplasts have DNA that is subject to mutation

Random mutations

DNA changes through rare mistakes as the chromosome replicates

bacterial transduction

DNA transferred from one bacterium to other via virus

DNA replication

DNA unzips into two parts and splits with the cell In it's new home each side of the DNA strand attack to matching nucleotides to create 2 exact copies It is important in puberty and other times of growth as it is the reproducing of your cells

Unscheduled DNA synthesis

Damage to DNA requires cell to manufacture new DNA to compensate for loss or damage

Polygenic

Describes a characteristic that is influenced by many genes

acrocentric

Describes a chromosome whose centromere is placed very close to, but not at, one end.

Phenotypic variation

Differences in appearance or function that are passed from generation to generation

alleles

Different forms of a gene

Erwin Chargaff

Discovered that DNA composition varies, but the amount of adenine is always the same as thymine and the amount of cytosine is always the same as guanine.

Cytokinesis

Division of the cytoplasm during cell division

9. The sex of birds, some insects, and other organisms is determined by a ZW chromosomal arrangement in which the males have like sex chromosomes (ZZ) and females are ZW (similar to XY in humans). Assume that a recessive lethal allele on the Z chromosome causes death of an embryo in birds. What sex ratio would result in the offspring if a cross were made between a male heterozygous for the lethal allele and a normal female? A. 1:1 male to female B. 3:1 male to female C. 4:1 male to female D. 1:2 male to female E. 2:1 male to female

E. 2:1 male to female

2. The condition known as cri-du-chat syndrome in humans has a genetic constitution designated as ________. A. heteroplasmy B. triploidy C. 45, X D. trisomy E. 46, 5p-

E. 46, 5p-

21. Klinefelter syndrome in humans, which leads to underdeveloped testes and sterility, is caused by which chromosomal condition? A. triploidy B. 47, 21+ C. 47, XYY D. 45, X E. 47, XXY

E. 47, XXY

The Protenor mode of sex determination is the ________. A. scheme based on F plasmids inserted into the FMR-1 gene B. scheme based on single translocations in the X chromosome C. XO/YY scheme D. hermaphroditic scheme E. XX/XO scheme

E. XX/XO scheme

14. Based on the classic experiments of Creighton and McClintock with maize, crossing over involves a physical exchange between chromatids. What particular chromosomal characteristic allowed their experiments to succeed? A. three chromosomes with identical structure B. a missing chromosome C. colored bands along the lengths of a chromosome D. an extra chromosome E. a chromosome with a unique cytological marker

E. a chromosome with a unique cytological marker

32. Although the most frequent forms of Down syndrome are caused by a random error, nondisjunction of chromosome 21, Down syndrome occasionally runs in families. The cause of this form of familial Down syndrome is ________. A. a maternal age effect B. an inversion involving chromosome 21 C. too many X chromosomes D. a chromosomal aberration involving chromosome 1 E. a translocation between chromosome 21 and a member of the D chromosome group

E. a translocation between chromosome 21 and a member of the D chromosome group

17. Assume that a man who carries an X-linked gene has children. Assuming normal meiosis and random combination of gametes, the man would pass this gene to ________. A. all of his children B. all of his sons C. half of his sons D. half of his daughters E. all of his daughters

E. all of his daughters

9. Which of the following organelles are involved in the general category of organelle heredity? A. lysosomes and peroxisomes B. factors and episomes C. golgi and rough endoplasmic reticulum D. golgi and nuclei E. mitochondria and chloroplasts

E. mitochondria and chloroplasts

15. The maternal effect in Lymnaea is such that the genotype of the egg determines the direction of shell coiling regardless of the genotype of the offspring. Apparently, the cause of this spectacular maternal effect results from ________. A. genophores present in the egg cytoplasm B. allelic substitution as demonstrated from RNA injection experiments C. the F factor exerting its influence on the centrosome D. colicins "poisoning" one of the cleavage centers E. orientation of the spindle apparatus in early cleavage

E. orientation of the spindle apparatus in early cleavage

X rays

Electromagnetic radiation having a very short wavelength; can penetrate substances such as skin and muscle.

restriction enzymes

Enzyme that cuts DNA at a specific sequence of nucleotides

Photoreactivation repair

Enzymes called photolyases use light energy to break the extra bonds in a pyrimidine dimer Enables UV-damaged fungi to recover from exposure to sunlight Humans do not have this type of repair

DNA polymerases

Enzymes that add complementary nucleotides to each of the original strands

16. T/F Normally in humans, all the sons of a male showing a sex-linked phenotype will inherit the trait.

False

17. T/F An individual with Patau syndrome would be called a triploid.

False

17. T/F The cross GE/ge×ge/ge produces the following progeny: GE/ge 404; ge/ge 396; gE/ge 97; Ge/ge 103. From these data one can conclude that the G and E loci assort independently.

False

19. T/F To produce recombinants in bacteria, one crossover is better than two.

False

2. T/F Dosage compensation is accomplished in humans by inactivation of the Y chromosome.

False

2. T/F Exchanges occur between homologous chromosomes, but never between sister chromatids.

False

20. T/F In Drosophila, the female is the heterogametic sex.

False

21. T/F Familial Down syndrome can be caused by a translocation between chromosomes 1 and 14.

False

21. T/F Linkage (viewed from results of typical crosses) always occurs when two loci are on the same chromosome.

False

24. T/F Individuals with familial Down syndrome are trisomic and have 47 chromosomes.

False

28. T/F Inversions suppress crossing over by providing a chemical imbalance because of breakpoints within certain genes.

False

30. T/F Assume that an organism has a haploid chromosome number of 7. There would be 14 chromosomes in a monoploid individual of that species.

False

31. T/F An autotriploid may arise when three sperm cells are involved in fertilization of a single egg.

False

7. T/F In general, inversion and translocation heterozygotes are as fertile as organisms whose chromosomes are in the standard arrangement.

False

7. T/F In humans, the male is the homogametic sex.

False

8. T/F Lysogeny is a process that occurs during transformation and conjugation.

False

8. T/F Translocations may be pericentric or paracentric.

False

9. T/F Inversions and translocations are without evolutionary significance.

False

9. T/F Restriction fragment length polymorphisms (RFLPs), microsatellites, and single-nucleotide polymorphisms (SNPs) were used by Morgan and Sturtevant to discover linkage in Drosophila.

False

Crossing over during prophase I of meiosis occurs between alleles on sister chromatids

False (Crossing over during meiosis occurs between alleles on nonsister chromatids. )

To construct a mapping cross of linked genes, it is important that the genotypes of some of the gametes produced by the heterozygote can be deduced by examining the phenotypes of the progeny. True False

False (To construct a mapping cross of linked genes, it is important that the genotypes of all of the gametes produced by the heterozygote can be deduced by examining the phenotypes of the progeny, taking into consideration that the homozygote produced only recessive gametes. Gametes and their genotypes can never be observed directly.)

ABO blood groups

Genetically determined classes of human blood that are based on the presence or absence of carbohydrates A and B on the surface of red blood cells. The ABO blood group phenotypes, also called blood types, are A, B, AB, and O.

gardasil

HPV vaccine

Eye color in Drosophila is an X-linked trait. White eyes is recessive to red eyes. If a Drosophila male has white eyes, which of the following must also be true? -All his male siblings from the same parents must also have white eyes. -His mother had at least one white allele. -Some of his female siblings from the same mating must also have white eyes. -His father must also have had white eyes.

His mother had at least one white allele. (Because this male had white eyes, he must have inherited a white allele from his mother.)

meiosis 1

Homologous chromosomes separate

A human female with Turner syndrome (47,X) also expresses the X-linked trait hemophilia, as did her father. Which of her parents underwent nondisjunction during meiosis, giving rise to the gamete responsible for the syndrome?

If the father had hemophilia, it is likely that the Turner syndrome individual inherited theX chromosome from the father and no sex chromosome from the mother. If nondisjunction occurred in the mother, during either meiosis I or meiosis II, an egg with no X chromosome can be the result.

Would an experiment similar to that performed by Hershey and Chase work if the basic design were applied to the phenomenon of transformation? Explain why or why not.

In an in vitro experiment like that of Avery et al., in theory, the general design would be appropriate: in that some substance, if labeled, would show up in the progeny of transformed bacteria. However, since the amount of transforming DNA is extremely small compared with the genomic DNA of the recipient bacterium and its progeny, it would be technically difficult to assay for the labeled nucleic acid. In addition, it would be necessary to know that the small stretch of DNA that caused the genetic transformation was actually labeled.

Preimplantation Genetic Diagnosis (PGD)

In assisted reproductive technology, the determination of genetic abnormalities in the embryo before it is transferred to the uterus

Mendel's 9:3:3:1 dihybrid ratio

In every F1 x F1 fertilization event, each zygote has an equal probability of receiving one of the four combinations from each parent.; an ideal ratio based on probability events involving segregation, independent assortment, and random fertilization.

Which of the following statements about three linked genes that are spaced very close together along a chromosome is most likely to be true? -Interference will be a significant factor in the number of crossovers observed. -Interference and the number of hidden double crossovers will significantly affect the number of crossovers observed. -The number of hidden double crossovers will be very large. -Interference is not likely to affect the number of crossovers observed.

Interference will be a significant factor in the number of crossovers observed. ( Interference effects are more likely when crossovers are confined to a small region.)

Catabolism

Metabolic pathways that break down molecules, releasing energy.

mtDNA

Mitochondrial DNA. Evolve rapidly. Maternally inherited only so trace the maternal line of inheritance through time

Somatic mosaicism

Mutation arises from mitotic errors after fertilization and propagates through multiple tissues or organs

Suppressor mutation

Mutation that hides or suppresses the effect of another mutation at a site that is distinct from the site of the original mutation

Frameshift mutation

Mutation that involves the insertion or deletion of a nucleotide in the DNA sequence

Somatic mutations

Mutations that occur in body cells, aren't passed to offspring, and don't affect the gametes

Gene mutations

Mutations that produce changes in a single gene

X linked mutations

Mutations within genes located on the X chromosome

Trinucleotide repeat sequences

Normal individuals may have fewer than 30 repeats. Over 20 disorders exhibit over 200 repeats Fragile-X syndrome Huntington Disease (HD) Myotonic dystrophy (MD)

H substance

One or two terminal sugars are added O blood types (ii) only have the H substance protruding from red blood cells

Intergenic mutation

One that is in a non-coding region These mutations are thus likely to be neutral, but there are many exceptions as there are a great many functional non-coding regions in the genome

Transversion

Purine to pyrimidine Pyrimidine to purine

Ribonucleotides

RNA nucleotides

In the absence of the repressor-operator interaction, _________ transcribes the structural genes, and the enzymes necessary for lactose metabolism are produced.

RNA polymerase

Transposable element

Segment of DNA that can move spontaneously within or between chromosomes.

interrupted mating technique

Separates conjugating bacteria so that only recipient cells are observed; demonstrated that certain genes are transferred and recombined sooner than others

segregation

Separation of alleles during gamete formation

DNA markers

Sequence variations among individuals in a specific region of DNA that are detected by molecular analysis of the DNA and can be used in genetic analysis.

Core promoters

Sequences within the promoter essential for transcription initiation

After salivary gland cells from Drosophila are isolated and cultured in the presence of radioactive thymidylic acid, autoradiography is performed, revealing polytene chromosomes. Predict the distribution of the grains along the chromosomes.

Since polytene chromosomes are formed by multiple rounds of DNA replication without strand separation, you would expect grains along the entire length of each polytene chromosome.

German measles results from an infection of the rubella virus, which can cause a multitude of health problems in newborns. What conclusions can you reach from a viral nucleic acid analysis that reveals an A + G/U + C ratio of 1.13?

Since uracil is present rather than thymine, the genetic material is RNA. Assuming that the value of 1.13 is statistically different from 1.00, purines outnumber pyrimidines; therefore, the nucleic acid is single stranded. Overall, one can conclude that rubella is a single-stranded RNA virus.

origin of replication

Site where the replication of a DNA molecule begins, consisting of a specific sequence of nucleotides.

microtubules and microfilaments

Small, thin proteins that help support and give structure to a cell. A cells cytoskeleton.

DNA storage

Store the isolated DNA in TE buffer

Alkylating agents

Synthetic chemicals containing alkyl groups that attack DNA, causing strand breaks

CVNs could be associated with

T1 diabetes, cardiovascular disease

TBP

TATA binding protein

TAFs

TBP associated factors

BRE

TFIIB recognition element

Fluorescence in situ hybridization (FISH)

Technique used to detect a given nucleotide sequence within intact cells on a microscope slide

Ames test

Test in which special strains of bacteria are used to evaluate the potential of chemicals to cause cancer.

DNA methylation

The addition of methyl groups to bases of DNA after DNA synthesis; may serve as a long-term control of gene expression.

Postranscriptional modification

The additions of a cap and tail to an RNA molecule, and RNA splicing so that the mRNA is ready for translation

Haploinsufficiency

The appearance of a mutant phenotype in an individual cell or organism that is heterozygous for a normally recessive trait

Mismatch repair

The cellular process that uses specific enzymes to remove and replace incorrectly paired nucleotides.

For linked genes A, B, and C, the fraction of single crossovers for genes A and B is 0.1, the fraction of single crossovers for genes B and C is 0.3, and the fraction of double crossovers is 0.03. Which of the following statements is true? -The distances between A and B and B and C are approximately equal. -Interference has affected the number of double crossovers. -The distance between A and B is greater than the distance between B and C. -The distance between A and B is less than the distance between B and C.

The distance between A and B is less than the distance between B and C. (The frequency of crossover events decreases as the distance between genes decreases. )

chance deviation

The effect of random events on frequency of genotypes and phenotypes

quaternary structure

The fourth level of protein structure; the shape resulting from the association of two or more polypeptide subunits.

Monogenic

The hereditary passing on of traits determined by a single gene

ij x kL A_XBXb x A_XBy IV-3 Show diseas IV4=? 1 ProBBlt IV4 in Condt A=1/36 2----------------------------B=1/2

The new information allows you to be certain about two requirements that previously could only be assigned probabilities: You now know that individual III-4 has the genotype X B X b , meaning that she received an X b chromosome from II-4. You also now know that individual IV-4 is a male, meaning that he received a Y chromosome from III-5. This new information changes the probability calculations because you know that these two requirements have been met (thus, they have a probability of one -- certainty). The only requirement that is unchanged is that of III-4 passing on an X b chromosome to IV-4 -- the probability is still 1/2.

log phase

The period of exponential growth of bacterial population.

fusion protein

The protein product of a gene created by the fusion of two distinct genes or portions of genes.

Absorption spectrum

The range of a pigment's ability to absorb various wavelengths of light.

What is the effect of a rare double crossover (a) within a chromosome segment that is heterozygous for a pericentric inversion; and (b) within a segment that is heterozygous for a paracentric inversion?

The rare double crossovers within the boundaries of a paracentric or pericentric inversion produce only minor departures from the standard chromosomal arrangement as long as the crossovers involve the same two chromatids.

cell cycle

The regular sequence of growth and division that cells undergo

Deamination

The removal of an amino group from an organism, particularly from an amino acid

prometaphase

The second stage of mitosis, in which the nuclear envelope fragments and the spindle microtubules attach to the kinetochores of the chromosomes.

gene amplification

The selective synthesis of DNA, which results in multiple copies of a single gene, thereby enhancing expression.

cytosol

The semifluid portion of the cytoplasm.

Starch gel electrophoresis

The separation of a mixture of electrically charged molecules in an electric field.

Transcription start site

The site at which the first RNA nucleotide is added; also known as the +1 site.

Minor groove

The smaller of two unequal grooves on the outside of a DNA duplex.

When two plants belonging to the same genus but different species are crossed, the F1 hybrid is more viable and has more ornate flowers. Unfortunately, this hybrid is sterile and can only be propagated by vegetative cuttings. Explain the sterility of the hybrid and what would have to occur for the sterility of this hybrid to be reversed.

The sterility of interspecific hybrids is often caused by a high proportion of univalents in meiosis I. As such, viable gametes are rare and the likelihood of two such gametes "meeting" is remote. Even if partial homology of chromosomes allows some pairing, sterility is usually the rule. The horticulturist may attempt to reverse the sterility by treating the sterile hybrid with colchicine. Such a treatment, if successful, may double the chromosome number, and each chromosome would then have a homolog with which to pair during meiosis.

bivalent

The structure formed by the pair of homologous chromosomes during crossing over. Also called a tetrad because it consists of four chromatids.

nutrigenomics

The study of how nutrition interacts with specific genes to influence a person's health

s phase

The synthesis phase of the cell cycle; the portion of interphase during which DNA is replicated.

middle lamella

The thin film between the cell walls of adjacent plant cells.

Exon shuffling

The variation in the patterns by which RNA may produce diverse sets of exons from a single gene.

Transmission

The way a microbial organism moves from one host to another

11. T/F Positive interference occurs when a crossover in one region of a chromosome reduces crossovers in nearby regions.

True

12. T/F A symbiotic relationship between a phage and a bacterium apparently occurs in the process of lysogeny.

True

12. T/F In Drosophila melanogaster (2n = 8), a fly with seven chromosomes could be called a haplo-IV.

True

14. T/F An individual with Turner Syndrome has no Barr bodies.

True

14. T/F Gene duplications provide an explanation for the origin of gene families.

True

17. T/F Viral mutations and variants are often categorized by changes in host range and/or plaque morphology.

True

18. T/F A pericentric inversion includes the centromere.

True

18. T/F An individual with Klinefelter syndrome generally has one Barr body.

True

19. T/F Chorionic villus sampling (CVS) is sometimes preferred to amniocentesis because results can be provided earlier in the pregnancy.

True

2. T/F It appears as if the direction of shell coiling in Lymnaea peregra is influenced by the orientation of the first cleavage division.

True

20. T/F An expected meiotic pairing configuration in a triploid would be a trivalent.

True

22. T/F Familial Down syndrome is caused by a translocation involving chromosome 21.

True

23. T/F rDNA in eukaryotes is typically redundant.

True

24. T/F Normally in humans, all the sons of a female homozygous for a sex-linked recessive gene will inherit that trait.

True

25. T/F A position effect occurs when a gene's expression is altered by virtue of a change in its position. One might expect position effects to occur with inversions and translocations.

True

27. T/F Assume that a species has a diploid chromosome number of 24. The term applied to an individual with 36 chromosomes would be triploid.

True

29. T/F The chromosomal aberration that causes cri du chat syndrome can be referred to as a segmental deletion.

True

3. T/F An example of organelle heredity involves pigmentation in Mirabilis jalapa.

True

3. T/F Assume that an organism has a diploid chromosome number of 14. There would be 28 chromosomes in a tetraploid.

True

3. T/F Cotransduction of genes is an indication that the genes are linked.

True

4. T/F An Hfr cell can initiate chromosome transfer from one E. coli to another.

True

4. T/F If two gene loci are on nonhomologous chromosomes, genes at these loci are expected to assort independently.

True

5. T/F A typical XX human female has one Barr body per cell.

True

6. T/F A paracentric inversion is one whose breakpoints do not flank the centromere.

True

6. T/F It is safe to say that a maternal effect is caused by the genotype, not the phenotype, of the parent producing the egg.

True

8. T/F Direction of shell coiling in Lymnaea peregra is influenced by a maternal effect.

True

8. T/F The cross GE/ge×ge/ge produces the following progeny: GE/ge 404; ge/ge 396; gE/ge 97; Ge/ge 103. From these data one can conclude that there are 20 map units between the G and E loci.

True

9. T/F Lysogeny is most likely associated with transduction.

True

In a gene mapping cross, the term Frac NCO refers to the fraction of gametes that have the same genotypes as the parental gametes. True False

True ( Frac NCO refers to the fraction of gametes that have not undergone crossing over and thus their genotypes reflect those of the parental gametes)

For X-linked traits in Drosophila, the male phenotype is determined by the maternally inherited allele.

True (Males inherit only one X chromosome. That chromosome is contributed by the female parent.)

UGG

Tryptophan (Trp)

Double stranded break repair

Two major pathways, non-homologous end joining and homologous recombination, are used to repair double-stranded breaks in DNA (that is, when an entire chromosome splits into two pieces).

Pics from 8 ii4a=Aa, 4b=XBXb ii5c-A_, 5d-XBY II7e-A_, 7f-XBY ii8g-AA, 8h-XBXB III4i-A_, 4J-XBX_ III5k-A_ , 5I-XBY

Use these rules when assigning genotypes for X-linked recessive conditions: Males have only one allele for every X-linked gene. Affected males have the recessive allele, and non-affected males have the dominant (wild-type) allele. Unaffected females with affected sons are heterozygous (carriers). Unaffected females with affected fathers are heterozygous. All sons of affected females will be affected. All daughters of affected females will be heterozygous. Use these rules when assigning genotypes for autosomal recessive conditions: Unaffected parents with an affected offspring are both heterozygous. Unaffected offspring of one affected parent will be heterozygous. Unaffected offspring of two heterozygous parents may be homozygous dominant or heterozygous.

Northern blot analysis

Used to determine whether gene is actively being expressed in given cell or tissue Used to study patterns of gene expression in embryonic tissues, cancer, and genetic disorders

RNA viruses

Usually single stranded, may be double stranded, may be segmented into separate RNA pieces

Single nucleotide polymorphisms

Variation in a DNA sequence occurring when a single nucleotide in a genome is altered

tobacco mosaic virus (TMV)

Virus that affects many species of plants e.g. tomatoes Symptoms: a mosaic pattern on the leaves - parts of the leaves become discoloured The discolouration prevents the plant from photosynthesising as well, thus the virus affects growth

Single cell sequencing

We can now sequence the genome from a single cell Involves isolating DNA from single cell and executing whole genome amplification Produces sufficient DNA to be sequenced

Short interspersed elements

What are SINEs

Complementation

When 1 of 2 viruses that infect the cell has a mutation that results in a nonfunctional protein. The nonmutated virus complements the mutated one by making functional protein that serves both viruses.

complementation

When 1 of 2 viruses that infect the cell has a mutation that results in a nonfunctional protein. The nonmutated virus complements the mutated one by making functional protein that serves both viruses.

Part A - Experimental technique: Reciprocal crosses When Gregor Mendel conducted his genetic experiments with pea plants, he observed that a trait's inheritance pattern was the same regardless of whether the trait was inherited from the maternal or paternal parent. Mendel made these observations by carrying out reciprocal crosses: For example, he first crossed a female plant homozygous for yellow seeds with a male plant homozygous for green seeds, and then crossed a female plant homozygous for green seeds with a male plant homozygous for yellow seeds. Unlike Mendel, however, Morgan obtained very different results when he carried out reciprocal crosses involving eye color in his fruit flies. The diagram below shows Morgan's reciprocal cross: He first crossed a homozygous red-eyed female with a white-eyed male, and then crossed a homozygous white-eyed female with a red-eyed male.

When Morgan crossed a homozygous red-eyed female with a white-eyed male, all of the offspring had red eyes. However, in the reciprocal cross (homozygous white-eyed female with a red-eyed male), all of the females had red eyes while all of the males had white eyes.

Part B - Experimental results: The F2 generation In one of Morgan's experiments, he crossed his newly discovered white-eyed male with a red-eyed female. (Note that all of the females at that time were homozygous for red eyes because the allele for white eyes had not yet propagated through Morgan's flies.) All of the F1 flies produced by this cross (both males and females) had red eyes.

When a homozygous red-eyed female was crossed with the white-eyed male (w+w+ × wY), the resulting F1 females were w+w and the F1 males were w+ Y. Crossing the F1 males and F1 females would yield these results: All the F2 females would have red eyes, although some would be homozygous (w+w+ ) and others would be heterozygous (w+w). Half the F2 males would have red eyes (w+ Y), and half would have white eyes (wY).

Autosomal mutations

Within genes located on the autosomes

the egg surface is equally receptive to ________ sperm

X and Y

A new phenotype results from

a change in functional activity of the cellular product specified by that gene.

phosphodiester bond

a chemical bond of the kind joining successive sugar molecules in a polynucleotide.

nucleolar organizer region

a chromosomal region containing the genes for rRNA; most often found in physical association with the nucleolus

inversion

a chromosome rearrangement in which a segment of a chromosome is reversed end to end

shugoshin

a class of proteins involved in maintaining cohesion of the centromeres of sister chromatids during mitosis and meiosis.

Enhancer RNA

a class of relatively short non-coding RNA molecules (50-2000 nucleotides) transcribed from the DNA sequence of enhancer regions.

plaque

a clearing in a bacterial lawn resulting from lysis by phages

CRISPR

a collection of DNA sequences that tells Cas9 exactly where to cut

agricultural biotechnology

a collection of scientific techniques, including genetic engineering, that are used to create, improve,or modify plants, animals, and microorganisms.

5-methyl cytosine

a component of DNA that has been modified by addition of a methyl group

dimer

a compound whose molecules are composed of two identical monomers

Temperature sensitive mutation

a conditional mutation that produces a mutant phenotype at one temperature range and a wild-type phenotype at another

clon

a culture of cells derived from a single cell

translesion synthesis

a damage-tolerance mechanism in eukaryotes that uses bypass polymerases to replicate DNA past a site of damage

segmental deletion

a deletion of a small, terminal portion of a chromosome

inversion heterozygote

a diploid individual that carries one normal chromosome and a homologous chromosome with an inversion

Fragile X Syndrome

a disorder produced by injury to a gene on the X chromosome, producing mild to moderate mental retardation

Autism Spectrum Disorder (ASD)

a disorder that appears in childhood and is marked by significant deficiencies in communication and social interaction, and by rigidly fixated interests and repetitive behaviors

dispersive replication

a disproved model of DNA synthesis suggesting more or less random interspersion of parental and new segments in daughter DNA molecules

Chromosome territory

a distinct, nonoverlapping area where each chromosome is located within the cell nucleus of eukaryotic cells

Autotriploids

a failure of all chromosomes to segregate during meiotic divisions can produce a diploid gamete

Genomic stability

a feature of every organism to preserve and faithfully transmit the genetic material from generation to generation or from one somatic cell to another

D-DNA

a form of DNA

trinucleotide repeats

a form of mutation associated with the expansion in copy number of a nucleotide triplet in or near a gene

Beta globin gene

a gene belonging to a family of closely related genes that encode a globin polypeptide that is part of hemoglobin

MLG1

a gene encoding 2/3 extracellular mixed-Llnked glucanases

hemizygous

a gene present on the X chromosome that is expressed in males in both the recessive and dominant condition

MT2A gen

a gene that encodes the protein Metallothionein-2

Phenylketonuria

a genetic disorder in which the essential digestive enzyme phenylalanine hydroxylase is missing

Sickle cell anemia

a genetic disorder that causes abnormal hemoglobin, resulting in some red blood cells assuming an abnormal sickle shape

sickle cell anemia

a genetic disorder that causes abnormal hemoglobin, resulting in some red blood cells assuming an abnormal sickle shape

Ribosomal proteins

a group of proteins that along with rRNA molecules make up the ribosomes of prokaryotes and eukaryotes

ribosomal proteins

a group of proteins that along with rRNA molecules make up the ribosomes of prokaryotes and eukaryotes

gene editing

a highly precise type of genetic engineering in which DNA is inserted, deleted or replaced in the genome of an organism using engineered nucleases

agarose gel

a jelly-like slab used to separate molecules on the basis of molecular weight

DNA ligase

a linking enzyme essential for DNA replication; catalyzes the covalent bonding of the 3' end of a new DNA fragment to the 5' end of a growing chain.

X-inactive specific transcript (XIST)

a locus in the X chromosome inactivation center that controls inactivation of the X chromosome in mammalian females

spermatozoa

a mature sperm cell

genic balance theory

a mechanism explaining sex-determination in Drosophila

Chromatin remodeling

a mechanism for epigenetic gene regulation by the alteration of chromatin structure.

Intrinsic termination

a mechanism in prokaryotes that involves the formation of a G-C rich hairpin loop followed by 6 or more U's in a RNA and results in the termination of transcription and release of the RNA transcript.

RNA sequencing

a method of analyzing large sets of RNAs that involves making cDNAs and sequencing them

prototroph

a microorganism that does not require any organic growth factors

auxotroph

a microorganism that requires an organic growth factor

nucleoside monophosphate (NMP)

a monomer of the growing nucleic acids; hydrolysis of two phosphates from NTP produces a NMP and a pyrophosphate plus released energy

recognition complex (ORC)

a multi-subunit DNA binding complex (6 subunits) that binds in all eukaryotes and archaea in an ATP-dependent manner to origins of replication

Mediator

a multiprotein complex that functions as a transcriptional coactivator in all eukaryotes

Nutritional mutation

a mutation affecting a synthetic pathway for a vital compound, such as an amino acid or vitamin; microorganisms with a nutritional mutation must be grown on medium that supplies the missing nutrient.

heterogeneous trait

a mutation at any one of a number of genes can give rise to the same phenotype

neutral mutation

a mutation that has no effect on survival or reproduction

loss-of-function mutation

a mutation that in turn makes the gene non functional

incomplete dominance

a pattern of inheritance in which two alleles, inherited from the parents, are neither dominant nor recessive. The resulting offspring have a phenotype that is a blending of the parental traits.

X inactivation center (Xic)

a region on the X chromosome where inactivation begins

Trans acting factors

a regulatory protein that binds to a regulatory element in the DNA and exerts a trans effect

trans acting factors

a regulatory protein that binds to a regulatory element in the DNA and exerts a trans effect

promoter region

a regulatory region a short distance upstream from the 5' end of a transcription start site that acts as the binding site for RNA polymerase. A region of DNA to which RNA polymerase binds in order to initiate transcription.

EcoRI

a restriction enzyme that specifically cuts DNA with sequence GAATTC and creates sticky ends

International Human Epigenome Consortium

a scientific organization, founded in 2010, that helps to coordinate global efforts in the field of Epigenomics

cistron

a section of a DNA or RNA molecule that codes for a specific polypeptide in protein synthesis

bacterial transformation

ability of bacteria to alter their genetic makeup by uptaking foreign DNA from another bacterial cell and incorporating it into their own

Epimutation

abnormal transcriptional repression of active genes and/or abnormal activation of usually repressed genes caused by errors in epigenetic gene repression

guanosine triphosphate (GTP)

an energy transfer molecule similar to ATP that releases free energy with the hydrolysis of its terminal phosphate group

RNA replicase

an enzyme that can produce RNA from an RNA template

beta-galactosidase

an enzyme that catalyzes the conversion of lactose into monosaccharides

DNA Polymerase V

an enzyme that catalyzes the formation of the DNA molecule.

diploid organism

an organism that has two copies of its genome it each cell. The paired genomes are said to be homologous.

cellular reproduction

an original cell divides and produces two identical daughter cells

all sons recieve this from their mother

an x; the mothers are homozygous

DNA fingerprinting

analysis of sections of DNA that have little or no known function, but vary widely from one individual to another, in order to identify individuals

Kinetochores

anchor on the sister chromatid that attaches to the fiber that pulls the sister chromatids apart.

The most accurate maps are constructed from experiments in which genes

are relatively close together

Bacterial mRNAs

are transcribed and translated simultaneously.

Haplotype

area of linked genetic variations in the human genome

fragile sites

areas on chromosomes that develop distinctive breaks or gaps when cells are cultured

how to determine gene order

arrangement of alleles observed DCO phenotypes

prereplication complex (pre-RC)

assembles at replication origins

chi square x^2 analysis

assesses how closely the observed frequencies fit the pattern of the expected frequencies and is referred to as a "goodness-of-fit" test

single-stranded binding proteins (SSBs)

bind to each side of the DNA ladder keeping it from bonding back together during DNA replication

Immunoglobulins

bind with specific antigens in the antigen-antibody response

cAMP-CAP complex

binding of cAMP to CAP. binds to CAP site. increases rate of transcription.

double cross overs

can occur between two homologs counteracting each other - can lead to us underestitmating the distance between genes

Regulatory mechanisms

can operate at various stages after transcription

regulatory mechanisms

can operate at various stages after transcription

Uncontrolled cellular proliferation

cancer is unchecked cell division

variation by mutation

capacity to serve as a source of variation among individuals

Chromosome conformation capture

captures interactions between one locus and all other genomic loci. It involves a second ligation step, to create self-circularized DNA fragments, which are used to perform inverse PCR

loss of function mutation

causes a complete or partial loss of function

gain of function mutation

causes the appearance of a new trait or function or causes the appearance of a trait in inappropriate tissue or at an inappropriate time

diploid number

cell condition in which two of each type of chromosome are present

mitosis

cell division in which the nucleus divides into nuclei containing the same number of chromosomes

Pre-initiation complex

cluster of transcription factors and other proteins that recruit RNA polymerase II for transcription of a DNA template

Chromatin

clusters of DNA, RNA, and proteins in the nucleus of a cell

Polyploidy

condition in which an organism has extra sets of chromosomes

mosaicism

condition in which regions of tissue within a single individual have different chromosome constitutions; some areas of the body express only the maternally derived alleles, and others express only the paternally derived alleles.

F+ cells

conjugation E. coli, sex factor (F: fertility) Cells serving as donors of parts of their chromosomes.

Wolffian and Mullerian ducts

connect the gonads to the body wall

sibship line

connects all siblings

DNA topoisomerases

create a nick in the helix to relieve supercoils created during replication

genetically modified organisms

crops that carry new traits that have been inserted through advanced genetic engineering methods

testcross

cross between an organism with an unknown genotype and an organism with a recessive phenotype

Hybridization

crossing dissimilar individuals to bring together the best of both organisms

intragenic recombination

crossing over within a gene

subcloning

cutting of DNA into smaller fragments in order to separately clone subsections of the sequence

Ribosome

cytoplasmic organelles at which proteins are synthesized

lod score method

demonstrates linkage with genes of great distance apart

dNTPs

deoxynucleotide triphosphates

D-DNA

deoxyribose DNA

Position effect

dependence of the expression of a gene on the gene's location in the genome

position effect

dependence of the expression of a gene on the gene's location in the genome

Core promoter elements

determine the accurate initiation of transcription by RNA Polymerase II

Triplet binding assay

determines specific codon assignments in which ribosomes bind to a single codon of three nucleotides, and the complementary amino acid-charged tRNA will be able to bind .

epigenesis

development resulting from ongoing, bidirectional exchanges between heredity and all levels of the environment

restriction map

diagram that shows the lengths of fragments between restriction sites in the strand of DNA

forked-line method

diagram using product law of probabilities to predict genotypic and phenotypic frequencies

ddNTP

dideoxyribonucleoside triphosphate lack a hydroxyl group (OH) at 2' and 3'

copy number variation (CNV)

difference among individual organisms in the number of copies of any large DNA sequence (larger than 1000 bp).

genetic variation

differences among individuals in the composition of their genes or other DNA segments

sexual dimorphism

differences in physical characteristics between males and females of the same species.

Isoaccepting tRNAs

different tRNAs that accept the same amino acid but have different anticodons

alleles

different versions of a gene

secondary spermatocytes

differentiate into spermatids (immature gametes)

kinases

digest fibrin clots

Jacob and Monod

discovered how DNA controls protein synthesis in a cell

Alzheimer disease

disease of structural changes in the brain resulting in an irreversible deterioration that progresses from forgetfulness and disorientation to loss of all intellectual functions, total disability, and death

Sickle cell trait

disorder in which individuals show signs of mild anemia only when they are seriously deprived of oxygen; occurs in individuals who have one dominant allele for normal blood cells and one recessive sickle-cell allele

heteromorphic chromosomes

dissimilar, such as XY in mammals that characterize one sex or the other in a wide range of species "sex chromosomes"

Codominant inheritance is characterized by

distinct expression of the gene products of both alleles

Karyokinesis

division of the nucleus

in drosophila the y chromosome ______ play a role in sex determination

doesn't

uppercase letter

dominant allele

segregation

during the formation of gametes, the paired unit factors segregate randomly so that each gamete gets one or the other with equal likelihood.

hyperchromic shift

during unwinding, the viscosity of DNA decreases and UV absorption increases

Epimutations

dysfunctional epigenetic changes

result of meiosis

each haploid cell receives 1 member of each homologous pairs of chromosomes

nucleoside triphosphate

each nucleotide that is added to a growing DNA strand

Unambiguous

each possible codon can code for one amino acid only

tetranucleotide hypothesis

early theory of DNA structure proposing that the molecule is composed of repeating units, each consisting of the four nucleotides represented by adenine, thymine, cytosine, and guanine

mitochondrial swapping

egg from mother with defect egg from normal female - insertion of nucleus from donor

Reporter genes

encode proteins that are easy to detect and assay

lacZ

encodes B-galactosidase

why is mtDNA important?

encodes for ribosomal polypeptides essential to oxidative respiration

col plasmid

encodes one or more proteins that are highly toxic to bacterial strains that do not harbor the same plasmid

TERT gene

encodes telomerase revere transcirptase which is for telomeres in DNA replication

mutations can be advantageous...

enhancing their fitness

glycolytic pathway

enzymatically converts glucose through several steps (9)into pyruvic acid and provides a small amount of ATP

Pol alpha enzyme

enzyme complex found in eukaryotes that is involved in initiation of DNA replication

tryptophan synthetase

enzyme encoded by the trp genes; made up of 5 different proteins

Testis Determining Factor (TDF)

enzyme produced by "switch" on Male chromosome that leads to the development of gender

RNA polymerase

enzyme similar to DNA polymerase that binds to DNA and separates the DNA strands during transcription

Polynucleotide phosphorylase

enzyme that catalyzes production of synthetic mRNAs

ribonuclease (RNase).

enzyme that degrades RNA

DNA Polymerase II

enzyme that proofreads the daughter strand of replicated DNA and corrects any base pairing errors

studies of monosomic and trisomic disorders help to increase understanding of

genetic balance essential for normal develipment

Transfection

genetic engineering, or transformation, of mammalian cell lines

negative control

genetic expression occurs unless it is shut off by some form of a regulator molecule

homologs carry

genetic info for more than one trait

genotype

genetic makeup of an organism

gene knockout

genetic manipulation in which one or more of an organism's genes are prevented from being expressed

the process of ______ _______ in bacteria provided the basis for the development of ________ ________ methodology

genetic recombination chromosome mapping

clones

genetically identical cells or individuals.

hot spots

genome regions where there are mutations at high frequency.

GWAS

genome wide association studies

CIMP

genomic instability phenotype with a high amount of promoter methylation

polytene chromosomes

giant chromosomes consisting of many identical chromatids lying in parallel register

single-crystal X-ray analysis

gives higher resolution and greater structural detail

Tubulin

globular protein subunit forming the hollow cylinder of microtubules

HDACs

histone deacetylases are enzymes that catalyze the removal of acetyl functional groups from the lysine residues of both histone and nonhistone proteins.

HDACs

histone deacetylases remove acetyl groups from histones

H-NS proteins

histone-like nucleoid-structuring bacterial protein play a role in the formation of nucleoid structure and affect gene expression under certain conditions

HU proteins

histone-like protein acts similarly to a histone by inducing negative supercoiling into circular DNA with the assistance of topoisomerase

eukaryotic proteins

histones and non-histones

cohesin

holds sister chromatids together

in diploid organisms chromosomes exist in

homologous pairs

gene interaction

interaction between genes at different loci that affect the same characteristic

adaptation hypothesis

interaction of bacteriophage and bacterium is essential to acquisition of immunity to phage

interphase

interval between divisions

cyclic adenosine monophosphate (cAMP)

intracellular second messenger that mediates hormone action

Kearns-Sayre Syndrome (KSS)

involves paralysis of the eye muscles, degeneration of the retina, heart disease, hearing loss, diabetes, and kidney failure.

Fingerprinting

involves the enzymatic digestion of the protein into peptide fragments

in situ molecular hybridization

involves the molecular hybridization between an isolated fraction of radioactively labeled DNA or RNA probes and the DNA contained in the chromosomes of a cytological preparation

mutant allele

is a variant that arises when a gene undergoes a mutation, or change.

lactose metabolism

lactose in environment causes E coli to express the genes involved in the absorption and metabolism of lactose

Discontinuous DNA synthesis

lagging strand is in the wrong direction poly to attach to the DNA and replicates the other direction once it reaches where DNA has already been replicated, it detaches.

DNA libraries

large collections of known DNA sequences

Termination factor, rho

large hexameric protein that physically interacts with the growing RNA transcript to terminate transcription

autopolyploids are ___ than diploids

larger

hypomethylation

leads to a decrease of methylation of DNA meaning more genes are activated thus activation of oncogenes

adjacent segregation

leads to unbalanced gametes duplicated and deleted for regions of the chromosome

Z-DNA

left handed helix

Euchromatin

less condensed form of eukaryotic chromatin that is available for transcription.

Bacteriophage lambda

linear dsDNA genome

linked genes are arranged in a _____ along the chromosome and that a variable frequency of exchange occurs between any two genes during gamete formation.

linear sequence

complete linkage

linkage between genes that are located close together on the same chromosome with no crossing over between them

Assume that a cross is made between AaBb and aabb plants and that the offspring occur in the following numbers: 106 AaBb, 48 Aabb, 52 aaBb, 94 aabb. These results are consistent with ________.

linkage with approximately 33 map units between the two gene loci

lncRNAs

long, non-coding RNAs, few functions

Looped domains

loops of supercoiled DNA that serve to compact the chromosomes

denaturation

loss of normal shape of a protein due to heat or other factor

dosage compensation

mechanism in which X chromosome inactivation equalizes gene expression between males and females.

cell cycle checkpoints

mechanisms that monitor the preparedness of a eukaryotic cell to advance through the various cell cycle stages

minimal medium

medium containing only inorganic salts, a carbon source, and water

MRNA

messenger RNA; type of RNA that carries instructions from DNA in the nucleus to the ribosome

mRNA

messenger RNA; type of RNA that carries instructions from DNA in the nucleus to the ribosome

G1 gap

metabolic activity and vigorous growth (interphase)

transacetylase

metabolizes certain disaccharides other than lactose

gene targeting

method for altering the sequence of a specific gene by introducing the modified version on a vector

semiconservative replication

method of DNA replication in which parental strands separate, act as templates, and produce molecules of DNA with one parental DNA strand and one new DNA strand

plaque assay

method used to measure the number of viral particles present in a sample

decoy model

mimics effector targets to trap the pathogen into a recognition event

TFIIB, TFIID, TFIIE, TFIIF, TFIIH

minimal PIC includes RNA polymerase II and six general transcription factors:

these structures contain their own genetic info

mitochondria and chloroplasts

Transposable sequences

mobile and can potentially move to different locations within the genome

transposable elements

mobile pieces of DNA that can copy themselves into entirely new areas of the chromosomes

transformation

modification of a cell or bacterium by the uptake and incorporation of exogenous DNA

Histone code

modification of histone proteins, such as the addition or removal of phosphate groups, methyl groups, or acetyl groups, that encode information affecting how genes are expressed

repressor molecule

molecule involved in gene regulation by binding to DNA and preventing gene transcription.

sequencing by synthesis

monitors identify which of 4 nucleotides is being added to complementary strand

Nucleotide

monomer of nucleic acids made up of a 5-carbon sugar, a phosphate group, and a nitrogenous base

galactose

monosaccharide, milk sugar

loss of a chromosome

monosomy

Epigenetic modifications can silence multiple genes, making them ___________ in transforming normal cells into malignant cells than sequential mutations of single genes.

more effective

multigene trait

more than 1 gene specifying a given phenotype

Copy number variants

mutations that either create extra copies of a gene on one chromosome or result in the deletion of genes

cell division cycle mutations

mutations that exert an effect at one or another stage of the cell cycle

nutritional mutations

mutations that prevent synthesis of nutrient molecules

embryonic lethals

mutations with phenotypes causing death at the embryonic or larval stage

Noncoding RNA

ncRNA - forms an extensive and sophisticated genome regulatory network

Mullerian inhibiting substance

necessary for the degeneration of the Mullerian ducts

flies that are double mutants and thus homozygous for both brown and scarlet lack would have

neither of the pigments; they have both functional enzymes

In aerobically cultured yeast, a petite mutant is isolated. To determine the type of mutation causing this phenotype, the petite and wild-type strains are crossed. Such a cross has three potential outcomes.

neutral, segregational, suppressive

mitosis does not produce these

new recombinant chromatids

embyronic stem cells

not specialized and are the easiest cells to manipulate

maternal effect

nuclear genotype of mom affects phenotype of progeny through substances present in egg

N-DNA

nucleic DNA

Repetitive DNA

nucleotide sequences, usually noncoding, that are present in many copies in a eukaryotic genome. The repeated units may be short and arranged tandemly (in series) or long and dispersed in the genome.

episomes

plasmids that can integrate into the genome

Diplococcus pneumonia

played a central role in demonstrating that genetic material consists of DNA.

Kozak sequence

plays a role in the initiation of translation (mRNA binding to ribosomes). A mutation three bases upstream of the start codon is assoicated with thalasemmia.

end-replication problem

polymerase cannot replicate the 5' (beginning) end of the new strand because that's where the primer was. DNA strands lose 50-200 bases per replication

allopolyploidy

polyploidy resulting from contribution of chromosomes from two or more species

termination region

portion of gene that regulates the cessation of the transcription

nucleolus organizer region (NOR)

portions of DNA that encode rRNA

locus

position of a gene on a chromosome

Hermaphroditic

possessing both the male and the female reproductive organs

Hemizygosity

possession of a single allele at a locus. Males of organisms with XX-XY sex determination are hemizygous for X-linked loci because their cells possess a single X chromosome.

chaperonins

protein molecules that assist the proper folding of other proteins

sequence maps

provide the finest level of mapping detail because they pinpoint the nucleotide sequence of genes on a chromosome

the alignment of each tetrad prior to the first anaphase is _________

random

sister chromatid exchanges

recombination events between sister chromatids in mitosis

Degeneracy

redundancy of the genetic code; that is, most amino acids are encoded by several codons

Proofreading

refer to the error-correcting processes

Epigenetic

referring to the effects of environmental forces on the expression of an individual's, or a species', genetic inheritance.

lysogenized

refers to bacterial cells that contain phage nucleic acid

secondary sex ratio

reflects the proportion of each sex that is born

primary sex ratio

reflects the proportion of males to females conceived in a population

Enhancer model

region of DNA that can be bound by proteins (activators) to increase the likelihood that transcription of a particular gene will occur

Promoters

region of DNA that indicates to an enzyme where to bind to make RNA

male-specific region of the Y (MSY)

region of Y chromosome that does not synapse with X

Cis-acting DNA elements

regions of non-coding DNA which regulate the transcription of neighboring genes.

Alternative splicing

regulated process during gene expression that results in a single gene coding for multiple proteins

alternative splicing

regulated process during gene expression that results in a single gene coding for multiple proteins

Gene regulation in bacteria can also occur through the interactions of ______ molecules with specific regions of a nascent mRNA, after ______ has been initiated.

regulatory transcription

cis acting site

regulatory region located on the same strand as the gene cluster

outcomes from a hypothesis

reject or fail to reject

LOD score analysis

relies on probability calculations to demonstrate linkage between two genes in organisms in which linkage analysis relies primarily on pedigrees

DNA Pol I

removes RNA nucleotides of primer from 5' end and replaces them with DNA nucleotides

DNA polymerase I

removes RNA nucleotides of primer from 5' end and replaces them with DNA nucleotides

If all lactose is metabolized, none is available to bind to the ______, which is again free to bind to operator DNA and to repress transcription.

repressor

Silencers

repressor proteins that may bind to DNA sequences and inhibit the start of transcription

Gal80p

repressor; binds GAL4p and blocks activation

storage of information

requires the molecule to act as a repository of genetic information that may or may not be expressed by the cell in which it resides

small noncoding RNAs

sRNAs

ENCODE project

search for functions performed by noncoding DNA

metaphase

second phase of mitosis, during which the chromosomes line up across the center of the cell

The binding of these regulatory molecules alters the _____ structure of the mRNA, leading to premature transcription termination or repression of ________.

secondary translation

Cloverleaf model of tRNA

secondary structure, series of paired stems and unpaired loops

Hfr characteristics

specific nature of recombination nonrandom gene transfer pattern

Promoter

specific region of a gene where RNA polymerase can bind and begin transcription

kinetochore fibers

spindle fibers that extend from centrosome to centromere

in flowering plants this stage is the predominant phase

sporophyte

male

square

sex unkown

square rotated 45 degrees

7-methylguanosine (m7G) cap

ssential for mRNA translation and cell viability from yeast to mammals

TFIIA

stabilizes binding of TFIIB and TBP to the promoter

blastocyst

stage of early development in mammals that consists of a hollow ball of cells

template DNA

stand of original DNA that transcription occurs on

AUG

start codon

primers

starting point for DNA synthesis, short structures of nucleotides

Meselson-Stahl Experiment

states that DNA replication was semiconservative

Gilbert and Muller-Hill

that the IPTG-binding, or repressor, protein binds only to DNA containing the lac region and does not bind to lac DNA containing an operator-constitutive OC mutation.

G bands

the chromosomal banding pattern that is observed when the chromosomes have been treated with the chemical dye Giemsa

One gene one protein hypothesis

the genetic info contained in one gene of a DNA molecule isused to make one molecule of mRNA by transcription; the genetic info in that mRNA molecule is then used to make one protein by translation

Bacteriophage T2

the genetic material in phage T2 is DNA, not protein.

Wobble hypothesis

the hypothesis that some tRNA molecules can pair with more than one mRNA codon, tolerating some variations in the third base, as long as the first and second bases are correctly matched

One gene one polypeptide chain hypothesis

the idea that genes act through the production of enzymes, with each gene responsible for producing a single enzyme that in turn affects a single step in a metabolic pathway

1:1 sex ratio

the idea that there is a 1 XY: 1 XX result of offspring

Template binding

the initial step in prokaryotic gene transcription

haploid number

the number of homologous pairs in a diploid cell.

sex ratio

the number of males per 100 females in the population.

Linking number

the number of times that two strands of a closed, circular DNA duplex cross over each other

Antiparallel

the opposite arrangement of the sugar-phosphate backbones in a DNA double helix.

translocation

the process in which a segment of a chromosome breaks off and attaches to another chromosome.

Spermatogenesis

the production of sperm cells

Oogenesis

the production, growth, and maturation of an egg, or ovum

RNAP II binds to

the promoter

Lyon hypothesis

the proposal that dosage compensation in mammalian females is accomplished by partially and randomly inactivating one of the two X chromosomes

Fibroin

the protein of silk fibers

Release factor

the protein that binds to the stop codon during termination of translation

independent assortment

the random distribution of the pairs of genes on different chromosomes to the gametes

extension

the reaction temperature is between 65 and 75 DNA polymerase uses primers to synthesize new DNA strands

dicentric bridge

the region between the two centromeres in a dicentric chromosome

expression platform

the region of a riboswitch that changes conformation in response to a ligand molecule binding to the aptamer.

aptamer

the region of a riboswitch that serves as a receptor for a ligand; binding of the ligand to the aptamer triggers conformational changes in the expression platform that influence gene expression.

Branch point

the representation on a phylogenetic tree of the divergence of two or more taxa from a common ancestor

Y chromosome

the sex chromosome found only in males. When paired with an X chromosome from the mother, it produces a male child.

sex-determining region Y (SRY)

the sex-determining region of the Y chromosome, found near the chromosome's pseudoautosomal boundary. Accumulated evidence indicates that this gene's product is the testis-determining factor (TDF)

Transcription start site

the site at which the first RNA nucleotide is added; also known as the +1 site.

Protein targeting

the sorting and transportation of proteins from the site of synthesis on ribosomes to compartments in the cell where they are needed

Two genes that are separated by 10 map units show a recombination percentage of 10%. -True -False

true (One map unit is equal to 1% recombination between two genes; 10 map units would be equal to 10% recombination between the genes.)

Genome transplantation

true test of the functionality of a synthetic genome

dideoxynucleotide

type of nucleotide used during DNA sequencing to terminate synthesis

mutant strains

unable to grow unless supplemented with specific substances (vitamins or amino acids)

chlamydomonas

unicellular green algae

unique genes

unique to one strain of a species

Replicon

unit of replication, consisting of DNA from the origin of replication to the point at which replication on either side of the origin ends.

CpG island

unmethylated CG dinucleotides found in clusters near gene promoters.

Eukaryotic DNA

unwinds in multiple areas as DNA is replicated

Regulation of transcription in eukaryotes

upstream control elements (UCEs), core promoter w/ bindings sites for transcription complex, and a TATA box

subunit vaccines

use antigenic fragments to stimulate an immune response

FMR1

x-linked gene most commonly causing intellectual disabilities in males

Short tandem repeats

(STR) simple sequence DNA containing multiple tandemly repeated units of two to five nucleotides. variations in STRs act as genetic markers in STR analysis, used to prepare genetic profiles

recombination

(genetics) a combining of genes or characters different from what they were in the parents

haploid

(genetics) an organism or cell having only one complete set of chromosomes

PCR

(polymerase chain reaction) multiple copies of a specific segment of DNA

Avery, MacLeod, and McCarty's conclusion

"The evidence presented supports the belief that a nucleic acid of the desoxyribose*

FISH

"maps" the genetic material in a person's cells. This test can be used to visualize specific genes or portions of genes.

CAAT box

(GGCCAATCT) essential eukaryotic promoter sequence involved in binding transcription factors

Alteration of the DNA path

- DNA pulled of nucleosome

Leber's Hereditary Optic Neuropathy (LHON)

- Defect in *NADH dehydrogenase* (complex I of the electron transport chain) - causes *progressive loss of central vision and blindness* - Though inherited through *mitochondrial DNA*, for unknown reasons *affects males more* than females.

have a severe impact on that organism

- mtDNA does not have the structural protection from mutations - DNA repair mechanisms for mtDNA are limited - mitochondria concentrate highly mutagenic reactive oxygen species (ROS) generated by cell respiration.

Alteration of DNA histone contacts

- sliding exposes DNA

bZIP motif

- the BASIC segment and leucine zipper

Readers

- tudor domain, MBT, chromodomain

Environmental agents for epigenetic change

-- nutrition, exposure to chemicals, and physical factors, such as temperature

time mapping

-Chromosome of Hfr strain transferred linearly -Gene order and distance between genes can be predicted -Served as basis for first genetic map of E. coli

DTC genetic testing

-Direct to consumer genetic tests are NOT regulated by the FDA -Consumers usually do not have enough knowledge about genetics to understand the results -Genetic counselors may not be provided

limitations of PCR

-is prone to error, which in turn causes mutations in the PCR fragments that are made. -the specificity of the fragments can mutate to the template DNA, due to nonspecific binding of primers -prior information on the sequence is necessary in order to generate the primers.

mRNA localization

-mRNA is transported along microtubules to the cytoplasm to be translated -RNA binding proteins recognize sequences in 3' UTRs and attach them to the microtubules for transport -the availability of the RNA-binding proteins and the speed of transport are points of regulation

L1 family

-most common LINE -6400 bp long and repeated up to 100,000 times -Retrotransposons

CpG dinucleotide

-most common site for mutation causes -spontaneous deamination of methylated cytosines -mutation hotspot with 8.5 timex greater mutation rate over other dinucleotides -not all CpG duos have the methyl group on Cytosine (making it 5-methylcytosine) ****IF YOU deaminate cytosine= no biggie; efficiently recognized and repaired, you get uracil ****IF YOU deaminate 5-methylcytosine = TROUBLE; not recognized, you get thymine

Tumor supressor genes

-prevent uncontrolled cell growth -repair damaged DNA -control cell anchorage (absent in cancers)

GR gene

-produces protein that binds stress hormone cortisol -allows rapid recovery from stress when active

quantitative real time PCR

-uses fluorescently labeled PCR products -almost immediate results

Whole Exome Sequencing (WES)

-uses similar technology as WGS, but targets only protein-coding regions of DNA that are most likely to have a functional role -these sequencing changes are the cause of many well-known genetic diseases

Probabilities range from ____ to _____.

0 (event is certain not to occur) 1 (event is certain to occur)

transformation process

1. entry of a foreign DNA into recipient cell 2. recombination between foreign DNA and its homologous region in recipient chromosome

mapping bacterial genes

1. interrupted conjugation 2. transformation 3. transduction

why organelle heredity?

1. organelles involved in gene products 2. large amounts of these are made in progeny

Genes X, Y, and Z are linked. Crossover gametes between genes X and Y are observed with a frequency of 25%, and crossover gametes between genes Y and Z are observed with a frequency of 5%. What is the expected frequency of double crossover gametes among these genes?

1.25% The probability of a double crossover is the product of the probabilities of the single crossovers: 0.25 x 0.05 = 0.0125, or 1.25%.

dominant epistasis

12:3:1; when the dominant allele of one gene masks the effects of either allele of the second gene

telophase 1

2 daughter cells are formed, each daughter cell contains only one chromosome of the homologous pair.

t B In a three‑point mapping experiment for the genes y‑w‑ec, the following percentages of events are observed: NCO events: 65% SCO events between y and w: 15% SCO events between y and ec: 17% DCO events: 3% What is the map distance between y and ec?

20 map units ( The map distance between any two genes is the sum of the percentages of all detectable recombination events between them, so 17 + 3 = 20.)

with the human species n =

23

A site, P site, E site

3 binding sites of ribosomes

Initiation, elongation, termination

3 stages of transcription

Splice acceptor

3' end of intron

triploid

3n

Turner Syndrome

45 XO, female hypogonadism, hypothyroid, short, webbed neck

diploid number in humans

46

diploid number of humans

46

Splice donor

5' end of intron

Dispersed core promoters

70% of mammalian genes. Common in plants. Multiple sites spread over 50-200nt - form different length 5' UTRs Lack known elements. Some rich in GU, but others not

how many chloroplast genes are there?

92

recessive epistasis

9:3:4 ratio; when the recessive allele of one gene masks the effects of either allele of the second gene

Typical ratios resulting from epistatic interactions in dihybrid crosses would be ________.

9:3:4, 9:7

Enhancers

A DNA sequence that recognizes certain transcription factors that can stimulate transcription of nearby genes.

A-DNA

A complex molecule containing the genetic information that makes up the chromosomes.

karyotype

A display of the chromosome pairs of a cell arranged by size and shape.

cell plate

A double membrane across the midline of a dividing plant cell, between which the new cell wall forms during cytokinesis.

Keratin

A fiber protein that is the principal component of hair, skin, and nails is:

2-deoxyribose

A five-carbon sugar found in DNA.

Deoxyribose

A five-carbon sugar that is a component of DNA nucleotides

Heterokaryon

A fungal mycelium that contains two or more haploid nuclei per cell.

Hemizygous

A gene present on the X chromosome that is expressed in males in both the recessive and dominant condition

Spliceosome

A large complex made up of proteins and RNA molecules that splices RNA by interacting with the ends of an RNA intron, releasing the intron and joining the two adjacent exons.

cDNA library

A limited gene library using complementary DNA. The library includes only the genes that were transcribed in the cells examined.

Neutral mutation

A mutation that has no effect on the organism

TATA box

A promoter DNA sequence crucial in forming the transcription initiation complex.

Myosin

A protein present in muscle fibers that aids in contraction and makes up the majority of muscle fiber

mitochondrial DNA

A small amount of DNA that is located in the mitochondria of cells. Mitochondrial DNA is inherited only through the mother.

bacteriophage

A virus that infects bacteria

10. Methods for determining the linkage group and genetic map in humans involve which of the following? A. DNA markers B. chiasmatype and classical analyses C. twin spots and tetrad analysis D. zygotene and pachytene DNA synthesis E. tetrad analysis and bromodeoxyuridine

A. DNA markers

15. In humans, the genetic basis for determining the sex "male" is accomplished by the presence of ________. A. a portion of the Y chromosome B. one X chromosome C. sets of autosomes D. high levels of estrogen E. a balance between the number of X chromosomes and the number of haploid

A. a portion of the Y chromosome

23. Glucose-6-phosphate dehydrogenase (G6PD) deficiency is inherited as an X-linked recessive gene in humans. A woman whose father suffered from G6PD marries a normal man. A.) What proportion of their sons is expected to have G6PD? Enter your answer as a fraction. B.) If the husband were not normal, but were G6PD deficient, would you change your answer in part (a)? A. yes B. no

A.) 1/2 B.) B. no

Initiation codon

AUG (methionine)

Open reading frame

AUG followed by a number of codons and a stop codon in the same reading frame

heterozygote

Aa or aA

Wobble hypothesis

Ability of the tRNAs to recognize more than one codon; the codons differ in their third nucleotide.

Electromagnetic spectrum

All of the frequencies or wavelengths of electromagnetic radiation

Epigenetic changes to the nervous system occur in

Alzheimer disease, Parkinson disease, Huntington disease, and in schizophrenia and bipolar disorder.

Alkaptonuria

An autosomal recessive trait with altered metabolism of homogentisic acid. Affected individuals do not produce the enzyme needed to metabolize this acid, and their urine turns black.

Reverse transcriptase

An enzyme encoded by some certain viruses (retroviruses) that uses RNA as a template for DNA synthesis.

Peptidyl transferase

An enzyme in the ribosome responsible for peptide bond formation during translation.

Endonuclease

An enzyme that cleaves its nucleic acid substrate at internal sites in the nucleotide sequence.

Aminoacyl tRNA synthetases

An enzyme that joins each amino acid to the appropriate tRNA.

Exonuclease

An enzyme that removes successive nucleotides from the end of a polynucleotide molecule

Mitochondria

An organelle found in large numbers in most cells, in which the biochemical processes of respiration and energy production occur.

Somatic cells

Any cells in the body other than reproductive cells

centromere

Area where the chromatids of a chromosome are attached

Mendel

Augustinian monk and botanist whose experiments in breeding garden peas led to his eventual recognition as founder of the science of genetics (1822-1884)

19. For an individual with the XXY chromosomal composition, the expected number of Barr bodies in interphase cells is ________. A. variable B. one C. three D. zero E. two

B. one

Nucleosomes

Bead-like structures formed by histones and DNA

Part C - The effect of a third gene on fur color In the same mouse species, a third unlinked gene (gene C/c) also has an epistatic effect on fur color. The presence of the dominant allele C (for color), allows the A/a and B/b genes to be expressed normally. The presence of two recessive alleles (cc), on the other hand, prevents any pigment from being formed, resulting in an albino (white) mouse.

Because the C/c gene is epistatic to both the A/a and B/b genes, any offspring with the cc allele combination will be albino. Otherwise, the A/a and B/b genes are expressed normally. AaBbcc-Albino, AaBBCC-Agouti Black Aabbcc-Albono AAbbCc Agouti Brown aaBbCc-Solid color, Black AABBcc-Albino

NAFLD

Become the most common liver disease in North America. It affects about 30% of the general population, but 70% of the obese.

4. In Drosophila, sex is determined by a balance between the number of haploid sets of autosomes and the number of ________. A. nucleolar organizers B. centromeres C. X chromosomes D. telomeres E. Y chromosomes

C. X chromosomes

15. Recently, a gene located on chromosome 3 in humans, FHIT, has been shown to be associated with the significant human malady known as ________. A. Klinefelter syndrome B. "mad-cow" disease C. cancer D. XYY/XY mosaicism E. Huntington disease

C. cancer

Tautomeric shifts

Can change the bonding structure, allowing noncomplementary base pairing May lead to permanent base-pair changes and mutations

Reactive oxidants

Can produce 100+ different types of chemical modifications

Carcinogens

Cancer causing agents

chloroplasts

Capture energy from sunlight and use it to produce food for the cell

cpDNA

Chloroplast DNA Genes encode products involved in photosynthesis and translation

Closed chromatin

Chromatin in which regulatory DNA is covered by nucleosomes, thus restricting the access of regulatory proteins to the sequences rendering genes in closed chromatin transcriptionally silent.

Open chromatin

Chromatin in which the association of DNA with nucleosomes is relaxed in regions containing regulatory sequences, allowing access by regulatory proteins

prophase 1

Chromosomes become visible; nuclear envelope breaks down; crossing-over occurs.

homologous chromosomes

Chromosomes that have the same sequence of genes and the same structure

Chromatin

Clusters of DNA, RNA, and proteins in the nucleus of a cell

Transcription factors

Collection of proteins that mediate the binding of RNA polymerase and the initiation of transcription.

Initiation of DNA synthesis

Complementary RNA primer is first made to which DNA is added. 5' to 3' direction of synthesis. RNA primer is replaced with DNA under DNA polymerase I

CJD

Creutzfeldt-Jakob disease (Mad Cow disease)

3. The Lygaeus mode of sex determination is the ________. A. XO/YY scheme B. XX/XO scheme C. hermaphroditic scheme D. XY/XX scheme E. scheme based on single translocations in the X chromosome

D. XY/XX scheme

16. Transduction is a form of recombination in bacteria that involves ________. A. physical contact between the bacteria involved B. fertility factors C. 5-bromouracil D. bacteriophages E. plasmids

D. bacteriophages

10. Max Delbrück presented the first evidence that bacteria are capable of spontaneous mutation. What is the name of the test that Delbrück used to demonstrate this phenomenon? A. prototrophic test B. logarithmic test C. lag test D. fluctuation test E. auxotrophic test

D. fluctuation test

5. What relatively recent scientific advancement has made mapping by linkage or classical genetic mapping approaches virtually obsolete? A. negative interference B. the use of synteny C. positive interference D. the genome sequence of a species E. the inclusion of the X and Y chromosome in SNP experiments

D. the genome sequence of a species

Central dogma of genetics

DNA -> RNA -> Protein

Information flow

DNA -> RNA -> Protein

Spacer DNA

DNA between genes without coding function

DBD

DNA binding domain

Topoisomers

DNA conformations that differ with regard to supercoiling

organelle heredity

DNA contained in mitochondria or chloroplasts determines certain phenotypic characteristics of the offspring

double-stranded breaks (DSBs)

DNA damage often arises as a result of normal cellular processes; can also be caused by environmental exposure

Supercoiled DNA

DNA is further twisted to save space

Open configuration

DNA is unmethylated and histones are acetylated Genes can be transcribed

epigenetic modifications alter chromatin structure by several mechanisms:

DNA methylation, reversible covalent modification of histones, and action of short and long RNAs, all without changing the sequence of genomic DNA.

DNMTs

DNA methyltransferases

Recombinant DNA

DNA produced by combining DNA from different sources

CpG islands

DNA regions rich in C residues adjacent to G residues. Especially abundant in promoters, these regions are where methylation of cytosine usually occurs.

Base excision repair

DNA repair that first excises modified bases and then replaces the entire nucleotide

Insulators

DNA sequence elements that prevent inappropriate interactions between adjacent chromatin domains

autonomously replicating sequences (ARSs)

DNA sequence that confers the ability to replicate; contains an origin of replication

Minisatellites

DNA sequences composed of 10 to 1000 base pairs that are scattered throughout the genome

Mutation hot spots

DNA sequences that appear to be highly susceptible to mutation

Noncoding regions

DNA sequences that do not hold instructions to make proteins

Template strand

DNA strand that provides the template for ordering the sequence of nucleotides in an mRNA transcript.

Heterochromatin

DNA that is densely packed around histones. The genes in heterochromatin are generally inaccessible to enzymes and are turned off.

Luria delbruck fluctuation test

Demonstrated mutations are not adaptive but occur spontaneously and randomly

Genetic analysis

Determination of the function of cell RNAs and proteins based on the phenotype of cells in which the gene encoding the RNA or protein is mutated

Restriction Fragment Length Polymorphisms (RFLPs)

Differences in DNA sequence on homologous chromosomes that can result in different patterns of restriction fragment lengths (DNA segments resulting from treatment with restriction enzymes).

robertsonian translocation

Down syndrome with 46 chromosomes

15. Assume that a cross is made between AaBb and aabb plants and that all the offspring are either AaBb or aabb. These results are consistent with the following circumstance: A. codominance. B. hemizygosity. C. incomplete dominance. D. alternation of generations. E. complete linkage.

E. complete linkage.

20. What two terms apply to the fusion of cultured human and mouse cells that produces cell lines that are useful in assigning a gene to a particular human chromosome? A. positive and negative B. single and double C. lod score and pod score D. forward and reverse E. heterokaryon and synkaryon

E. heterokaryon and synkaryon

11. Direction of shell coiling in the snail Lymnaea peregra is conditioned by a form of extrachromosomal inheritance known as ________. A. epistasis B. heteroplasmy C. independent assortment D. sex-linked inheritance E. maternal effect

E. maternal effect

Eukaryotic elongation factors

EF1A, EF1B, EF2

Gamma rays

Electromagnetic waves with the shortest wavelengths and highest frequencies

UV radiation

Energy from the sun that damages DNA structure, increases mutation rate, and causes skin cancer. [D Period DK]

Ionizing radiation

Enough energy to dislodge electrons from atoms, forming ions; capable of causing cancer (gamma, X-rays, UV)

RNA polymerase

Enzyme similar to DNA polymerase that binds to DNA and separates the DNA strands during transcription

Recombinase

Enzyme that catalyzes site-specific recombination

Nondisjunction

Error in meiosis in which homologous chromosomes fail to separate.

Dominant negative mutation

Exerts a dominant effect. A heterozygote produces a nonfunctional altered protein that also prevents the normal gene product from functioning

Long interspersed elements

Expression of these elements leads to genetic instability.

Pyrimidine dimers

Extra bonds formed between thymine or cytosine in DNA (cause of mutations)

recipient cells when mated with HFR cells are _____

F-; remain

1. T/F Poky strains in yeast result from suppressive mutations in chloroplast DNA.

False

10. T/F The term aneuploidy is synonymous with the term segmental deletion.

False

11. T/F The "interrupted mating technique" provides a genetic map in Drosophila.

False

12. T/F Mendel predicted that some genes will be carried in the same chromosome.

False

13. T/F In a bacterial cross in which the donor (Hfr) is a+b+ and the recipient strain (F-) is a-b-, it is expected that recombinant bacteria will all be a+b+.

False

15. T/F A plaque is a substance that causes mutation in bacteria.

False

16. T/F Assume that a species has a diploid chromosome number of 24. The term applied to an individual with 25 chromosomes would be triploid.

False

4. T/F Inheritance of the green and white patches phenotype in Mirabilis jalapa (four o'clocks) is an example of maternal influence.

False

5. T/F Mitochondrial mutations are passed equally to offspring by both males and females.

False

5. T/F R plasmids often contain genes for antibody production.

False

Evidence of a role for methylation in eukaryotic gene expression is based on several observations.

First, an inverse relationship exists between the degree of methylation and the degree of expression. Large transcriptionally inert regions of the genome, such as the inactivated X chromosome in female mammalian cells (see Chapter 7), are often heavily methylated.

FDA

Food and Drug Administration

nucleolus

Found inside the nucleus and produces ribosomes

FMRP

Fragile X Mental Retardation Protein

Somatic cell hybridization

Fusion of somatic cells of different types.

cell cycle order

G1, S, G2, M

GAL gene

GAL (Galanin And GMAP Prepropeptide) is a Protein Coding gene.

Point mutation

Gene mutation involving changes in one or a few nucleotides.

GINA

Genetic Information Nondiscrimination Act

Transposable elements

Genetic element that has the ability to move (transpose) from one site on a chromosome to another.

HBB gene

Hemoglobin beta gene that is mutated to cause sickle cell anemia

H2A

Histamine 2 antagonist

pilli

Hollow tubes used to move cells or exchange DNA between bacteria by conjunction.

anaphase 1

Homologous chromosomes separate

sister chromatids

Identical copies of a chromosome; full sets of these are created during the S subphase of interphase.

western blotting

Identifies antibodies in a patient's serum; confirms HIV infection

An alien organism was investigated. When DNA replication was studied, a unique feature was apparent: No Okazaki fragments were observed. Create a model of DNA that is consistent with this observation.

If the DNA contained parallel strands in the double helix and the polymerase would be able to accommodate such parallel strands, there would be continuous synthesis and no Okazaki fragments. Several other possibilities exist. If the DNA were replicated as single strands, the synthesis could begin at the free ends and there would be no need for Okazaki fragments.

Adaptive mutations

Improve fitness of an organism, increasing its survival

Holliday structure

In DNA recombination, an intermediate stage seen in transmission electron microscope images as an X-shaped structure showing four single-stranded DNA regions.

Bacterial transcription and translation

In a bacterial cell, which lacks a nucleus, mRNA produced by transcription is immeadiately translated without additional processing.

DNA polymerase III

In charge of synthesizing nucleotides onto the leading end in the classic 5' to 3' direction.

Polymerase switching

In eukaryotes, the switch that occurs from DNA synthesis by the polymerase alpha-primase complex to DNA synthesis by the processive replicative polymerase that carries out the bulk of DNA elongation

DNA in human mitochondria encodes 22 different tRNA molecules. However, 32 different tRNA molecules are required for translation of proteins within mitochondria. Explain.

In many cases, molecular components of mitochondria are recruited from the cytoplasm, having been synthesized from nuclear genes.

HTH motif

In proteins, the helix-turn-helix (HTH) is a major structural motif capable of binding DNA

independent assortment

Independent segregation of genes during the formation of gametes

in order for a human disorder to be attributable to genetically altered mitochondria, several criteria must be met

Inheritance must exhibit a maternal rather than a Mendelian pattern. The disorder must reflect a deficiency in the bioenergetic function of the organelle. There must be a mutation in one or more of the mitochondrial genes.

Thalassemia

Inherited defect in ability to produce hemoglobin, leading to hypochromia

Protein domains

Ion channels, membrane-spanning regions, secretion, and export signals

Tautomers

Isomers that can interconvert by exchanging the location of a proton.

Core promoter

Located immediately upstream of the eukaryotic promoter, DNA sequences to which the basal transcription apparatus binds.

prenatal genetic testing

Many genetic disorders are diagnosed prenatally using cytogenetic, biochemical, and recombinant DNA testing Samples are obtained from amniocentesis and chorionic villus sampling (CVS)

unit factors in pairs

Mendel's first postulate: Genetic characteristics are controlled by pairs of unit factors (alleles of genes)

Anabolism

Metabolic pathways that construct molecules, requiring energy.

mitochondrial replacement therapy

Methods that combine the nuclear DNA of a woman carrying a mtDNA mutation with DNA of a sperm and the egg cytoplasm of a healthy donor, allowing her to give birth to a child free from mitochondrial disease.

DNA transposons

Mobile genetic elements that move without making an RNA intermediate.

poly A tail

Modified end of the 3' end of an mRNA molecule consisting of the addition of some 50 to 250 adenine nucleotides.

Xeroderma pigmentosum

Mutated single strand nucleotide excision repair gene, which prevents repair of thymidine dimers.; Dry skin w/ melanoma and other cancers ("children of the night").

Adduct forming agents

Mutation-causing chemicals

Homologous recombination repair

Occurs during the late S or early G2 phase of the cell cycle

Continuous DNA synthesis

Occurs only in the leading strand towards the replication fork

first polar body

One of the products of meiosis I in oogenesis; contains half the chromosomes but little of the cytoplasm.

Termination codon

One of the three codons (UAA, UAG, UGA) that signal the termination of translation of a polypeptide.

sex-determining chromosomes

Only pair of non-homologous chromosomes in an individual XX - female XY - male

metaphase 1

Paired homologous chromosomes line up across the center of the cell

synapsis

Pairing of homologous chromosomes at meiosis

Which of the following statements about gamete formation during meiosis is false? -Complete linkage results in the formation of only parental gametes. -Recombinant gametes contain combinations of alleles not found in the parent cell. -Parental gametes contain the same combinations of linked genes as found in the parent cell. -Parental gametes can be formed only if there is no crossing over during meiosis.

Parental gametes can be formed only if there is no crossing over during meiosis. ( If crossing over occurs, half of the gametes formed are parental and the other half are recombinant.)

Mutagenic

Pertaining to producing a mutation.

Intercalating agents

Planar molecules that mimic base pairs and are able to slip in between the stacked nitrogen bases at the core of the DNA double helix, resulting in insertion or deletion of a single nucleotide pair. A source of induced mutation.

Imprinting disorders

Prader-Willi syndrome Angelman syndrome

Heteroplasmy

Presence of both normal and mutated mtDNA, resulting in variable expression in mitochondrial inherited disease

Translation

Process by which mRNA is decoded and a protein is produced

mRNA splicing

Process that removes introns from pre-mRNAs and joins exons together.

Gain of function mutation

Produces a new trait or causes a trait to appear in inappropriate tissues or at inappropriate times in development

Proximal promoter elements

Promoter sequences other than the core promoter

Protein stability

Proteins an be disrupted by a number of external stress factors including temperature, pH, removal of water, presence of hydrophobic surfaces, presence of metal ions and high shear. The loss of secondary, tertiary or quaternary structure due to exposure to a stress factor is called denaturation.

Elongation factors

Proteins involved in the elongation phase of translation, assisting ribosomes in the synthesis of the growing peptide chain.

gene expression microarrays

Quantify variation in gene expression among individuals performing different behaviors.

telomerase RNA component (TERC)

RNA component of telomerase

RNA homopolymers

RNA molecules containing only one type of ribonucleotide

antiterminator confirmation

RNA polymerase has transcribed the unbound ligand-binding site, and in the default conformation, the expression domain adopts an antiterminator conformation.

Spontaneous mutations

Random change in the DNA due to errors in replication that occur without known cause

DNA glycosylases

Recognize the alterations and cleave the base from the sugar; specific glycosylases for each type of altered base

AP endonuclease

Recognizes apurinic/apyrimidinic site (abasic site) and cleaves behind it to base excise repair

Induced mutations

Refers to those mutations in the DNA resulting from exposure to toxic chemicals or to radiation

Single gene mutations

Relatively small changes in DNA structure that occur within a particular gene

Nucleotide excision repair pathway

Repair lesions that cause distortions in normal shape of DNA (bulky lesions)

Telomeres

Repeated DNA sequences at the ends of eukaryotic chromosomes.

Germ cells

Reproductive cells that give rise to sperm and ovum

Long terminal repeat

Required for integration of retroviruses, their promoter activity may lead to expression of host genes.

Postreplication repair

Responds after damaged DNA has escaped repair and has failed to be completely replicated

Dominant mutation

Results in a mutant phenotype in a diploid organism, even when the wild-type allele is also present

Recessive mutation

Results in a wild-type phenotype when present in a diploid organism and the other allele is wild type

3 major epigenetic mechanisms:

Reversible modification of DNA by addition or removal of methyl groups, chromatin remodeling by the addition or removal of chemical groups to histone proteins, and regulation of gene expression by noncoding RNA molecules

Rho dependent termination

Rho protein recognizes specific DNA sequences and causes a pause in the RNA polymerase

B-DNA

Right-handed helical structure of DNA that exists when water is abundant; the secondary structure described by Watson and Crick and probably the most common DNA structure in cells.

Familial Down syndrome is caused by:

Robertsonian translocation

Interspersed retrotransposons

SINES (Alu), LINES (L1)

allele specific oligonucleotides

Short, single-stranded fragments of DNA used as probes to identify alleles that differ by a single oligonucleotide

Computer-automated high-throughput DNA sequencing

Since early 1990s, DNA sequencing has been done through computer-automated Sanger reaction-based technology Generates large amounts of sequence DNA Enabled rapid progress of Human Genome Project

daughter chromosomes

Sister chromatids that are separated by mitosis

restriction sites

Specific site where a restriction enzyme cuts the DNA

chiasma

The X-shaped, microscopically visible region representing homologous chromatids that have exchanged genetic material through crossing over during meiosis.

transmission genetics

The branch of genetics concerned with the mechanisms by which genes are transferred from parent to offspring.

mRNA stability

The life span of the mRNA and can be used to control gene expression

host range

The limited range of host cells that each type of virus can infect and parasitize.

Depurination

The loss of a purine base from a nucleotide

in vitro fertilization

The most common assisted reproduction procedure, in which a woman's eggs are mixed with sperm in culture dishes (in vitro) and then carefully inserted into a woman's uterus.

Leading strand

The new continuous complementary DNA strand synthesized along the template strand in the mandatory 5' to 3' direction.

wild type allele

The non-mutant form of a gene, encoding the normal genetic function. Generally, but not always a dominant allele.

Mutation rates

The number of new mutant alleles per given number of gametes

Protein folding

The physical process by which a polypeptide folds into its characteristic three-dimensional structure, which is essential to the protein's function.

Beta globin

The polypeptide chain of hemoglobin that is designated beta and that when deficient or defective causes various anemias (as beta-thalassemia or sickle-cell anemia).

Mutation rate

The probability of a gene mutating during or between DNA replications

selective breeding

The process of selecting a few organisms with desired traits to serve as parents of the next generation

Shine dalgarno sequence

The prokaryotic ribosome-binding site on mRNA, found 10 nucleotides 5' to the start codon.

Homogametic sex

The sex (male or female) that produces gametes that are all alike with regard to sex chromosomes. For example, in the XX-XY sex-determining system, the female produces only X-bearing gametes.

Reading frame

The way a cell's mRNA-translating machinery groups the mRNA nucleotides into codons

anneal

To be capable of combining with complementary nucleic acid by a process of heating and cooling

Retrotransposons

Transposable elements that move within a genome by means of an RNA intermediate, a transcript of the retrotransposon DNA.

Patau Syndrome

Trisomy 13

Edwards Syndrome

Trisomy 18

1. T/F Nondisjunction is viewed as a major cause of aneuploidy.

True

11. T/F Doubling the chromosomes of a sterile species hybrid with colchicine or cold shock is a method used to produce a fertile species hybrid (amphidiploid).

True

11. T/F In Drosophila, sex is determined by the ratio of the number of X chromosomes to the number of haploid sets of autosomes.

True

16. T/F The cross GE/ge×ge/ge produces the following progeny: GE/ge 404; ge/ge 396; gE/ge 97; Ge/ge 103. From these data one can conclude that the recombinant progeny are gE/ge and Ge/ge.

True

Stop codons

UAA, UAG, UGA

Photoreactivation enzyme

UV light can fuse two thymine bases together, so an endonuclease enzyme will correct the damage

Free radicals

Unstable molecules that cause biochemical aging, especially wrinkling and sagging of the skin.

biopharming

Use of genetically engineered animals to act as biofactories for producing drugs, vaccines, antibodies, hormones, industrial chemicals such as plastics and detergents, and human body organs.

compensation loop

Where the unpaired region of a normal homolog must "buckle out" after an intercalary deletion.

bar mutation

X-linked trait for bar eyes in drosophila

chiasmata

X-shaped regions where crossing over occurred.

replication fork

Y-shaped region on a replicating DNA molecule where new strands are growing.

Zika

ZIKV infection

heteroduplex

a DNA double helix composed of single strands from two different DNA molecules

cloning vectors

a DNA molecule that can accept foreign DNA, be transferred to a host cell, and get replicated in it

amplicon

a DNA sequence that has been amplified by PCR

dideoxy chain termination method

a DNA sequencing method in which target DNA is denatured and annealed to an oligonucleotide primer, which is then extended by DNA polymerase using a mixture of deoxynucleotide triphosphates (normal dNTPs) and chain-terminating dideoxynucleotide triphosphates (ddNTPs)

expression vectors

a DNA vector, such as a plasmid, that carries a DNA sequence for the expression of an inserted gene into mRNA and protein in a host cell

Methylation

a biochemical process that influences behavior by suppressing gene activity and expression

primary oocyte

a cell that divides to form the polar body and the secondary oocyte

primary spermatocyte

a cell that divides to form two secondary spermatocytes

miRNA

a class of functional RNA that regulates the amount of protein produced by a eukaryotic gene

reciprocal cross

a cross in which the phenotypes of the male and female are reversed compared with a prior cross

Molecular disease

a disease caused by a mutated gene

Nonmutant bacteria are able to repair

a great deal of UV-induced damage

complementation group

a group of mutations that affect the same gene

Agarose gel

a jelly-like slab used to separate molecules on the basis of molecular weight

Spliceosome

a large complex made up of proteins and RNA molecules that splices RNA by interacting with the ends of an RNA intron, releasing the intron and joining the two adjacent exons.

inversion loop

a loop formed by meiotic pairing of homologs in an inversion heterozygote

triphosphates (NTPs)

a molecule containing a nitrogenous base bound to a 5-carbon sugar, with three phosphate groups bound to the sugar. It is an example of a nucleotide.

Nucleoid

a non-membrane-bounded region in a prokaryotic cell where the DNA is concentrated.

sex-limited inheritance

a pattern of inheritance in which phenotypic expression is limited to one sex

Genomic imprinting

a phenomenon in which expression of an allele in offspring depends on whether the allele is inherited from the male or female parent

lycopene

a pigment responsible for the red color of tomatoes and other red-hued vegetables; a phytochemical that may act as an antioxidant in the body.

Protoplasts

a plant or bacterial cell without its cell wall

Polypeptides

a polymer of amino acids joined together by peptide bonds.

Autoradiography

a procedure that locates radioactive substances in a slice of tissue; the radiation exposes a photographic emulsion or a piece of film that covers the tissue

Natural selection

a process in which individuals that have certain inherited traits tend to survive and reproduce at higher rates than other individuals because of those traits.

whole genome sequencing

a process that determines the nucleotide sequence of an entire genome

Initiation factor

a protein required for the correct initiation of translation

Elongation factor

a protein that breaks the high-energy bonds of the molecule GTP to provide energy for ribosome movement and elongation of a growing polypeptide chain.

Bombay phenotype

a rare variant of the ABO antigen system in which affected individuals do not have A or B antigens and thus appear to have blood type O, even though their genotype may carry unexpressed alleles for the A and/or B antigens

Active site

a region on an enzyme that binds to a protein or other substance during a reaction.

Trans-acting factors

a regulatory protein that binds to a regulatory element in the DNA and exerts a trans effect

Utilization site (rut)

a sequence of RNA in bacteria upstream of the terminator region which serves as a binding site for the protein known as rho factor. This sequence is necessary in rho-dependent termination of DNA transcription in bacteria

Collinear

a set of loci in two different species which are located on the same chromosome in each, and are conserved in the same order

chromosomal sex determination

a sex determination system such as that of most mammals, in which the sex of an individual is determined by the combination of sex chromosomes it possesses.

primer

a short segment of DNA that acts as the starting point for a new strand

monomer

a simple compound whose molecules can join together to form polymers

Degenerate

a single amino acid may be coded for by more than one codon

Pleiotropy

a single gene having multiple effects on an individuals phenotype

polycistronic mRNA

a single molecule of messenger RNA that is formed by the transcription of a group of functionally related genes located next to one another along bacterial DNA.

Nonoverlapping

a single nucleotide may not be included in more than one codon

Transcription factory

a small area of the nucleus that contains high concentrations of RNA polymerase and everything else needed for transcription. DNA "travels" to these factories

corepressor

a small molecule that cooperates with a repressor protein to switch an operon off

Initiator tRNA

a special type of transfer ribonucleic acid (RNA) that initiates protein synthesis by binding to the amino acid methionine and delivering it to the small ribosomal subunit.

null hypothesis

a statement or idea that can be falsified, or proved wrong

Nucleosomes

a structural unit of a eukaryotic chromosome, consisting of a length of DNA coiled around a core of histones.

gene drive

a system that biases inheritance patterns independent of selective advantage to alter target populations

fluctuation test

a test used in microbes to establish the random nature of mutation or to measure mutation rates

GloFish

a transgenic strain of zebrafish, contain a red fluorescent protein from sea anemones

Ribozyme

a type of RNA that can act as an enzyme

Lytic cycle

a viral reproductive cycle in which copies of a virus are made within a host cell, which then bursts open, releasing new viruses

lytic cycle

a viral reproductive cycle in which copies of a virus are made within a host cell, which then bursts open, releasing new viruses

lysogenic

a viral reproductive cycle in which the viral DNA is added to the host cell's DNA and is copied along with the host cell's DNA

Bacteriophage

a virus that infects bacteria

filterable agent

a virus; too small to be filtered out like bacteria

(female) the daughter cells resulting from two meiotic divisions get ____ amounts of genetic material and ______ amounts of cytoplasm

a) equal b) unequal

during sexual reproduction _________ gametes then combine at fertilization to reconstitute the ________ complement found in parental cells

a) haploid b) diploid

the first division of oocytes starts in ________ but arrests in _________, meiosis resumes ________

a) the embryo b) prophase 1 c) before ovulation

homozygous recessive genotype

aa

homozygote

aa or Aa

Processivity

ability of a polymerase to remain attached to the template

Gene regulation

ability of an organism to control which genes are transcribed in response to the environment

antiterminator hairpin

absence of tryptophan

Histone modifications

acetylation, methylation, phosphorylation

Gal4p

activator

lysostaphin

acts on the crossbridge of certain staphylococcus species only

recombination frequencies between linked genes are

addative

Histone modification

adding chemical modifications to proteins called histones that are involved in packaging DNA

Acetylation

addition of an acetyl group, CHCO3, to an organic molecule. chromatin less compact so that transcription can occur.

Poly A polymerase

adds poly A tail at the end of RNA

HbA

adult hemoglobin

when is the diploid number reestablished?

after fusion of two gametes at fertilization

In the Meselson-Stahl experiment, which of the three modes of replication could be ruled out after one round of replication? after two rounds?

after one round of replication in the 14N medium, the conservative scheme can be ruled out. After one round of replication in 14N under a dispersive model, the DNA would be of intermediate density, just as it is in the semiconservative model. However, after the next round of replication in 14N medium, the density of the DNA is between the intermediate and "light" densities, thus ruling out the dispersive model.

Eukaryotic release factors

aids stop codons in the termination of translation

complementation group

all mutations present in any single gene

autosomal

all the other genes in the body that are not sex-linked.

Metastable epialleles

alleles that are variably expressed in genetically identical individuals due to epigenetic modifications established during early development and are thought to be particularly vulnerable to environmental influences

amphidiploid

allopolyploid consisting of two combined diploid genomes

Chromosome-banding techniques

allow researchers to distinguish chromosomes of similar sizes with similar centromere positions

cryo-EM

allows detailed 3D reconstruction of phage particles.

complementation analysis

allows the determination of whether two mutations yielding similar phenotypes are on the same gene or on separate genes

alleles

alternative versions of a gene

constitutive enzymes

always present, always produced in equal amounts or at equal rates, regardless of the amount of substrate

Proteins

amino acids

BLAST

an algorithm and program for comparing primary biological sequence information, such as the amino-acid sequences of proteins or the nucleotides of DNA and/or RNA sequences

colchicine

an alkaloid that will inhibit polymerization of microtubules

recessive lethal allele

an allele that negatively affects the survival of a homozygote

temperature-sensitive allele

an allele whose product is functional only at certain temperatures common in: siamese cat, himalayan bunny

synthetic genome

an artificially constructed genome for artificial cells or designer organisms

nucleosome core particle

an eight-protein particle formed by the combination of two molecules each of H2A, H2B, H3, and H4, around which DNA winds for almost two turns.

Polymerase

an enzyme that brings about the formation of a particular polymer, especially DNA or RNA.

Telomerase

an enzyme that catalyzes the lengthening of telomeres in eukaryotic germ cells.

Primase

an enzyme that joins RNA nucleotides to make the primer using the parental DNA strand as a template.

DNA helicase

an enzyme that unwinds the DNA double helix during DNA replication

inducible enzymes

an enzyme whose transcription can be stimulated by an abundance of its substrate (as opposed to repressible enzyme). Usually in catabolism.

equilibrium dialysis

an experimental technique that can be used to determine the affinity of an antibody for antigen and its valency

trihybrid cross

an individual or strain that is heterozygous for three pairs of genes

Autopolyploidy

an individual that has more than two chromosome sets that are all derived from a single species

X-ray diffraction analysis

an instrumental technique used to determine dimensions of a crystal structure by measuring the diffraction patterns caused by x-rays impinging on the crystal

hermaphrodite

an organism that has both male and female reproductive organs

probe

any DNA or RNA sequence that is complementary to some part of the target gene to be identifies in a library

autosomes

any chromosome that is not a sex chromosome

permease

any protein that aids in the movement of a specific type of molecule across a cell membrane

Proximal promoter element

any regulatory sequence in eukaryotic DNA that is located close to (within 200 base pairs) a promoter and binds a specific protein thereby modulating transcription of the associated protein coding gene

Holoenzyme

apoenzyme + cofactor

when a single character is being studied, a ratio that is expressed in 16 parts suggests that two gene pairs

are "interacting" in the expression of the phenotype under consideration.

Long interspersed elements

are a group of non-LTR (long terminal repeat) retrotransposons that are widespread in the genome of many eukaryotes

Coiled chromatin fibers

are compacted into a chromatid (700 nm) to make the chromosome 1400 nm. Packing ratio of 500 to 1.

HAT enzymes

are enzymes that acetylate conserved lysine amino acids on histone proteins by transferring an acetyl group from acetyl-CoA to form ε-N-acetyllysine

initiation of transcription

attachment of RNA polymerase to the promoter RNA polymerase binds to a promoter start (start!)

When more than two haploid sets of chromosomes are present, these may be derived from different species

aullotetraploidy

When more than two haploid sets of chromosomes are present, these may be derived from the same species

autoploidy

these often have one chromosome

bacteria and viruses

partial diploid

bacterial cell that possesses two copies of genes, including one copy on the bacterial chromosome and the other on an extra piece of DNA (usually a plasmid); also called merozygote.

colicins

bacteriocins produced by E. coli

MS2

bacteriophage that produces 4 proteins using overlapping genes

Puff

bands of polytene chromosomes become enlarged at certain times to form swellings

Nucleoside

base + sugar

5-BU

base analog, substituting for thymine in DNA, and can induce DNA mutation in the same way as 2-aminopurine

half of the tetrad, before anaphase 1, will

be pulled to one pole, the other the opposite

Chromomeres

beadlike thickenings that form during prophase

Termination

begins when RNA polymerase binds to a promoter sequence near the beginning of a gene

cell-free protein-synthesizing system

begins with a cell extract, or lysate, containing all the essential factors for protein synthesis: ribosomes, tRNAs, amino acids, and other molecules essential to translation , but with organelles and cell membranes removed

respiratory proteins

bind oxygen at high concentrations; release oxygen at low concentrations

Activators repressors

bind to DNA close to the promoter and either activate or repress the activity of RNA polymerase

Poly A binding proteins

bind to and stabilize poly-A tail *Involved in mRNA stability and translation*

Transcriptional activators

bind to regulatory DNA sequences and stimulate transcription

repression loop

binding of repressor to operators O1 and O3 creates repression loop Prevents access of RNA polymerase to promoter

DnaA

binds to the origin of replication and is responsible for the initial steps in unwinding the helix

autosomal dominant

both M and F are affected; M may transmit to M; each generation has at least one affected parent; and one mutant allele may produce the disease.

BRCA1

breast cancer gene 1

Transcription components

building blocks (three phosphates for energy) template strand, and enzymes (rna polymerase and transcription factors)

Adapter mode

can be ligated to the ends of other DNA or RNA molecules

Cis acting elements

can only influence expression of adjacent genes on the same DNA molecule

Transposable

capable of being interchanged

Exome Aggregation Consortium

cataloged genetic variation from exome sequences

Enzymes

catalysts for chemical reactions in living things

Ribozymes

catalytic RNA molecules that function as enzymes and can splice RNA

RNAPs

catalyze transcription

progenitor cells

cells of the ventricular zone that divide and give rise to cells of the CNS

telocentric

centromere at end

metacentric

centromere in middle

submetacentric

centromere slightly off center

receptor molecule

certain protein molecules in the cell membrane that can receive chemical messages from other cells

chromosome mutation

change in chromosome structure

branch migration

changes amount of hybrid DNA present

Posttranscriptional modification

changes made to pre-mRNA molecules during conversion to mature mRNA. These include the addition of a methylated cap at the 5' end and a poly-A tail at the 3' end, excision of introns, and exon splicing.

isoropylthiogalactoside

chemical analogs of lactose sulfur-containing analog

gratuitous inducers

chemical analogs of lactose which induce transcription

Hormones

chemical messengers that are manufactured by the endocrine glands, travel through the bloodstream, and affect other tissues

Ordered genetic code

chemically similar amino acids often share one or two middle bases (hydrophillic or hydrophobic for example)

Biochemistry

chemistry dealing with chemical compounds and processes in living plants and animals

CVS

chorionic villus sampling

dicentric chromatid

chromatid with two centromeres

sex chromosomes

chromosomes that determine the sex of an individual

female

circle

Pre initiation complex

cluster of transcription factors and other proteins that recruit RNA polymerase II for transcription of a DNA template

Transcription factors

collection of proteins that mediate the binding of RNA polymerase and the initiation of transcription.

northern blotting

combines gel electrophoresis of mRNA followed by hybridization with a probe on a membrane

adenosine triphosphate (ATP)

compound used by cells to store and release energy

consensus sequence

comprises the most commonly encountered nucleotides found at a specific location in DNA or RNA.

Hershey and Chase

concluded that the genetic material of the bacteriophage was DNA, not protein.

trisomy 21

condition in which an individual has three number 21 chromosomes, resulting in Down syndrome

transgenic organisms

contain at least one gene from another species

repressible

contain genes coding for anabolic enzymes; several genes in a series are turned off by the product synthesized by the enzyme

Eukaryotic gene expression

contain introns; one gene per mRNA molecule; transcription in nucleus, translation in cytoplasm; initiation begins at AUG codon preceded by 5' cap (methylated GTP) that binds the ribosome; many modifications while mRNA is in nucleus: introns are removed and exons are spliced together; a 5' cap and poly-A tail is added

balancer chromosomes

contain multiple overlapping inversions as well as a marker mutation that produces a visible dominant phenotype

bacterial genomes

contained in a single circular chromosome

X-degenerative region

contains old Y-linked homologs that are in the process of degenerating

lactose operon

contains three structural genes, each coding for an enzyme that aids in lactose metabolism

lactose (lac) operon

control system that manages the regulation of lactose metabolism. It is composed of three DNA segments, including a regulator, a control locus, and a structural locus.

operon model

controls gene expression in bacteria

Sigma factor

controls the binding of RNA polymerase to the promoter

Phenylalanine hydroxylase

converts phenylalanine to tyrosine

aromatase

converts testosterone to estradiol

Replication

copying process by which a cell duplicates its DNA

rearranging of genetic info in a diploid organism has this effect

could change viability

Peptide bond

covalent bond formed between amino acids

Nirenberg, Matthaei

cracked the genetic code, determined what codons (nitrogen bases) code for what amino acids

progenitor cell

daughter cell of a stem cell whose own daughter cells are restricted to follow specific lineages

inactivated vaccines

dead organisms injected into patient to build immunity

Together, the cell-free system for protein synthesis and the availability of synthetic mRNAs provided a means of

deciphering the ribonucleotide composition of various codons encoding specific amino acids

Translation

decoding of a mRNA message into a polypeptide chain

Parkinson disease

degeneration of neurons in the basal ganglia, occurring in later life and leading to tremors, weakness of muscles, and slowness of movement

terminal deletion

deletion at end of chromosome

intercalary deletion

deletion from the interior of the chromosome

Cri du chat

deletion on chromosome 5

sex chromatin body (Barr body)

densely staining DNA-positive mass seen in the somatic nuclei of mammalian females. Discovered by Murray Barr, this body represents an inactived X chromosome

attenuation

dilution or weakening of virulence of a microorganism, reducing or abolishing pathogenicity

phenotypic expression is not always the _____ reflection of the _________

direct genotype

RNA editing

direct alteration of one or more nucleotides in an mRNA that has already been synthesized

A

dominant; describes a trait that covers over, or dominates, another form of that trait.

structure of mtDNA

double stranded; closed circle

DPE

downstream promoter element

PAE mutations

due to paternal age

DNA gyrase

enzyme that temporarily breaks the strands of DNA, relieving the tension caused by unwinding the two strands of the DNA helix

Biological catalysts

enzymes

replication in mitochondria is dependent on ___ encoded by nuclear DNA.

enzymes

Topoisomerases

enzymes that relieve twists and kinks in a DNA molecule by breaking and rejoining the strands.

A condition in which one gene pair masks the expression of a nonallelic gene pair is called ________.

epistasis

males produce _____ numbers of X and Y bearing sperm

equal

the number of chromosomes in each gamete is ______ to the haploid number

equal to

DNA Polymerase IV

error Prone, last resort polymerase

Nondisjunction

error in meiosis in which homologous chromosomes fail to separate.

General transcription factors

essential for the transcription of all protein-coding genes

ELSI program

ethical, legal, and social implications focuses on privacy, fairness, and other factors in research

_____ cells contain much more DNA, this DNA is complexed with nucleosomes

eukaryotes

_____ chromosomes are linear rather than circular

eukaryotic

Heterochromatin

eukaryotic chromatin that remains highly compacted during interphase and is generally not transcribed.

Probes

evaluate whether treatment effects are evident before treatment occurs

homologous recombination

exchange of genetic information between homologous DNA molecules.

dominant negative mutation

exerts a dominant effect; heterozygote produces a nonfunctional altered protein that also prevents the normal gene product from functioning

Conditional mutations

expressed only under certain environmental conditions

Extrons

expressed sequence of DNA; codes for a protein

triplo X

extra X chromosome in females, tall stature, irregular menstrual cycle, intellectually a little slower than siblings,

regulator quantity

facilitates isolation, they used a regulator quantity (Iq)(Iq) mutant strain that contains about ten times as much repressor as do wild-type E. coli cells.

Because transcription occurs only when the repressor ____ ___ ______ to the operator region, regulation is said to be under negative control.

fail to bind

14/21 translocation

familial down syndrome

DNA Pol IV

family Y DNA pol; bypass replication

Alu family

family of repetitive elements in primate genomes, including the human genome. Modern Alu elements are about 300 base pairs long and are therefore classified as short interspersed nuclear elements (SINEs) among the class of repetitive DNA elements

when the loci of two linked genes are _____, the number of recombinant gametes approaches, but ____ 50 percent

far apart, but does not exceed

Thus, it is evident that if four or five genes are being mapped, even ___ triple and quadruple crossovers can be expected to occur

fewer

synthetic biology

field of biology involved in engineering new functions from living systems

ootid

final product of oogenesis; following a period of maturation, becomes an ovum

prophase

first and longest phase of mitosis, during which the chromosomes become visible and the centrioles separate and take up positions on the opposite sides of the nucleus

F1

first filial generation

vertical gene transfer

flow of genetic information from one generation to the next

riboswitches

folded RNAs that act as switches regulating protein synthesis in response to environmental conditions

G2 gap

follows the S phase where the cell, having replicated its DNA, preps for mitosis

parental inheritance

for each character, an organism inherits one allele from each parent

why are chromosomal aberrations neccessary?

for the evolutionary process

P-DNA

form of DNA; less tightly coiled and more extended and having the phosphate backbone on the outside

heteroduplex DNA molecules

formed during genetic recombination and can be produced in vitro in DNA hybridization

Pseudogenes

former genes that have accumulated mutations over a long time and no longer produce functional proteins

terminator hairpin

forms in presence of tryptophan; ribosome proceeds through sequence

lampbrush chromosomes

found in oocytes of most vertebrae and the spermatocytes of insects. These are large with extensive DNA looping.

Eukaryotic polymerases fundamental requirements for DNA synthesis:

four deoxyribonucleoside triphosphates, a template, and a primer

spermatids

four haploid cells that are formed when a diploid reproductive cell divides meiotically

multiple-copy genes

functional genes present in more than one copy

synkaryon

fused gametic or somatic nuclei of two different species

somatic cell hybridization

fusion of somatic cells of different types.

recombinant gametes

gametes containing new combinations of alleles due to crossing over at prophase 1 of meiosis

H2A.Z

gene expression, chromosome segregation

hypostatic

gene that is masked

repressor gene

gene that prevents a nonallele from being transcribed

The chromosomal theory of inheritance states that

genes are on chromosomes

selectable marker gene

genes carried by plasmids for certain traits, often for antibiotic resistance

structural genes

genes that code for proteins

operons

genes that coordinate the regulation of gene expression

constitutive mutations

genes with these mutations produce enzymes regardless of lactose presence/absence

In the absence of _____ and under inducible conditions, CAP exerts positive control by binding to the CAP site, facilitating __________ binding at the promoter, and thus transcription.

glucose RNA-polymerase

sedimentation equilibrium

gravity is balanced by Brownian movement

the ___ the distance between two genes on a chromosome, the ____ the frequency of crossing over is between them.

greater, higher

GFP

green fluorescent protein

Next generation sequencing

group of automated techniques used for rapid DNA sequencing

Anticodon

group of three bases on a tRNA molecule that are complementary to an mRNA codon

gene families

groups of related genes in an organism's genome.

In sea urchin DNA, which is double stranded, 17.5 percent of the bases were shown to be cytosine (C). What percentages of the other three bases are expected to be present in this DNA?

guanine = 17.5%; adenine and thymine both each = 32.5%

GTP

guanosine triphosphate

gRNA

guide RNA RNA editing

meiosis leads to the formation of gametes; in plants _______ are produced

haploid spores

tetramer

have 2 alpha and 2 beta chains: forms quaternary structure

knock in animals

have a human gene inserted to replace their own counterpart

disruption of any mitochondrial gene by mutation may potentially

have a severe impact on that organism

mitochondrial mutations

have been linked to many disease and the aging process

spindle fibers

help pull apart the cell during replication and are made up of microtubules

Huntington disease

hereditary disorder marked by degenerative changes in the cerebrum leading to abrupt involuntary movements and mental deterioration

carriers

heterozygous individuals who carry the recessive allele but are phenotypically normal

phenotypic expression

how one looks and sometimes acts (partially determined by heredity or genotype but can also be influenced by environment)

heterokaryon

hybrid cell contains two nuclei in a common cytoplasm

secondary protein structure

hydrogen bonding of the peptide backbone causes the amino acids to fold into a repeating pattern

monozygotic twins

identical twins

Substitution editing

identities of individual nucleotide bases are altered; prevalent in mitochondria and chloroplast RNA derived in plants

in what instance would a breakage and rejoining be heritable

if the alteration is in germ cells involved in the formation of a gamete

Triplet codons

in RNA, a three-base "word" that codes for one amino acid

competence

in bacteria, transient state which the cell can bind and internalize exogenous DNA molecules making transformation possible

DNA Polymerase III

in charge of synthesizing nucleotides onto the leading end in the classic 5' to 3' direction.

GC box

in eukaryotes the region in the promoter containing 5' GGGCGG 3' sequence which is a binding site for transcriptional regulatory proteins

proband

in genetics research, the individual displaying the trait or characteristic being studied

reductional division

in meiosis I, homologous chromosomes are separated generating haploid daughter cells

CCL3L1

increase in this gene imparts an HIV suppressive effect during infection = diminish progression to AIDS

as sample size _______ the average deviation from the expected results decreases.

increases

As the distance between the two genes ___, the proportion of recombinant gametes ___ and that of the parental gametes ____

increases increases decreases

chromosome maps

indicate relative location of genes on chromosome

The enzymes responsible for lactose metabolism are thus __________, and lactose serves as the _________.

inducible inducer

Prions

infectious protein particles that do not have a genome

mastitis

inflammation of the breast

autosomal dominant

inheritance pattern of a dominant allele on an autosome; impacts both sexes

Silencers

inhibit transcription

catabolite repression

inhibits cells from using carbon sources other than glucose

G1 cyclins

initiate cell cycle

DNA-based vaccines

inject into muscle tissue, which expresses for a short time

Global hypomethylation may cause genomic ________ and the large-scale chromosomal changes that are a characteristic feature of _______.

instability cancer

thermocyclers

instruments that can be programmed to automatically adjust and cycle through the required temps.

lag phase

intense activity preparing for population growth, but no increase in population

paracentric inversion

inversion that does not include the centromere

pericentric inversion

inversion that includes the centromere

UV light

invisible light that lies beyond violet. Has higher energy and shorter wavelengths than visible light does.

DNA Pol II

involved in DNA repair processes

IIR cells & IIS virulent cells

involved in early DNA experiments

mixed infection experiments

involves infecting the same bacterial culture with 2 distinct mutant phage strains

General recombination

involves large regions of sequence homology between recombining DNA molecules.

E-DNA

is collected from a variety of environmental samples such as soil, seawater, snow or even air rather than directly sampled from an individual organism. As various organisms interact with the environment, DNA is expelled and accumulates in their surroundings.

single cell RNA sequencing

isolate DNA and RNA from the same cells

Spliced

joining together; unite by weaving

neutral petites

lack most of their mitochondrial DNA; when mated with wildtype, the wildtype give their mitochondria so all cells display a normal phenotype.

supressive petites

lack only small segments of mtDNA

acentric chromatid

lacks a centromere

In the presence of _______, the concentration of the enzymes responsible for its metabolism increases rapidly from a few molecules to thousands per cell.

lactose

a zygote receives a ____ number of organelles through the egg,

large

RNA polymerase I

located in the nucleolus and synthesizes rRNA

RNA polymerase III

located in the nucleus and synthesizes tRNA and some rRNA

q arm

long arm of chromosome

Polypeptide chain

long chain of amino acids linked by peptide bonds

Protein structure

long chains of amino acids

LINE sequence

long interspersed retrotransposable elements, respectively, that invade new genomic sites using RNA intermediates.

fMet

mRNA start codon (AUG) codes for N-formylmethionine in proks that stimulates neutrophil chemotaxis

ZZ/ZW

male is homogametic, female is heterogametic

following conception more _______ were than ____ were born

males; females

traits are influenced by

many gene products

bicoid

maternal effect gene dealing with protein concentration in Drosophila during embryogenesis.

cosanguinity

mating between closely related people

inducer molecule

may bind to the repressor protein and alters its conformation (cannot bind to operator)

Svedberg coefficient (S)

measurement of RNA's density, mass and shape

Myoclonic epilepsy with ragged red fibers (MERRF)

mitochondrial disease, mutation in tRNA gene, affects neurons and muscle cells (that require large amounts of ATP), heteroplasmy

single celled organisms use this process to reproduce

mitosis - asexual reproduction also: protozoans, and some fungi, algae

fungi and plants proliferate by ___________ cell division

mitotic

Monoallelic expression MAE

mitotically stable, epigenetically controlled allele-specific expression of autosomal genes, with the initial non-predetermined ('random') choice of the transcriptional activity of the two alleles maintained in a given clonal cell lineage

biopharmeceutical

most successful and widespread application of recombination DNA technology by the biotech industry

chromatin assembly factors (CAFs)

move along with the replication fork and assemble new nucleosomes

Metastatic

moves from site of origin to secondary site in body

Chloroplast Mutations

mt- parent transmits mitochondrial info

Ampliconic region

multicopy testis-specific genes with no X-linked homologs

reciprocal classes

mutant alleles found on a single chromosome while wild type alleles are found on the other homolog

auxotroph

mutant that requires a growth factor

lethal alleles

mutated genes that are capable of causing death.

Frameshift mutation

mutation that shifts the "reading" frame of the genetic message by inserting or deleting a nucleotide

amniocentesis

needle puncture of the amniotic sac to withdraw amniotic fluid for analysis

Binding of a trans-acting element at a cis-acting site can regulate the gene cluster either - or +

negatively (by turning off transcription) or positively (by turning on transcription of genes in the cluster).

noncrossover

no crossing over occurs, most common result in offspring

Short interspersed elements

non-autonomous, non-coding transposable elements that are about 100 to 700 base pairs in length

ncRNAs

non-protein-coding RNAs that play a role in gene expression

complementary gene interaction

nonallelic gene interaction or epistasis where dominant alleles at heterozygous loci may complement each other by masking recessive alleles at respective loci

Introns

noncoding segments of nucleic acid that lie between coding sequences.

NIPGD

noninvasive prenatal genetic diagnosis

linked genes are _____ to undergo independent assortment

not free

insertion/deletion editing

nucleotides are added to or subtracted from the total number of bases

genetic anticipation

number of repeats increases in future generations causing symptoms to be worse

degrees of freedom

number of scores that can vary in the calculation of a statistic

sister chromatid exchanges

occur during mitosis but do not produce new allelic combinations

spontaneous mutations

occur in the absence of a mutagen

tertiary protein structure

occurs when certain attractions are present between alpha helices and pleated sheets

linkage

occurs when different traits are inherited together more often than they would have been by chance along; it is assumed that these traits are linked on the same chromosome

Initiation

occurs when the enzyme RNA polymerase binds to a promoter signals the DNA to unwind enzyme is now ready to make a strand of mRNA with a complementary sequence of bases.

temperature dependent sex determination

occurs when the sex of an individual is determined by the temperature at which eggs develop

prognostic

of or pertaining to prognosis; predictive of something in the future; a forecast or prediction; an omen or portent; sign.

organelle hereditary comes from

often, maternal parent thru ooplasm to offspring causing the results of reciprocal crosses to vary

Commaless

once translation begins, codons are read with no break

nonsister chromatids

one maternal and one paternal chromatid of a homologous pair

homolog

one of a pair of chromosomes having corresponding loci

Guide model

one of the models that is noteworthy, however google does not know what it is and I am too lazy to look in the book again

Alphoid family

one of the most recognized satellite DNA sequences in humans found mainly in centromere regions

chromosome inactivation

one of the x chromosomes stops working in each of the females body cells

Anticodon loop

one of three loops on a tRNA which contains the 3 nucleotides that allow it to align specifically with mRNA. Contains the anticodon

inheritance of traits is controlled by

only one set of genes

the result of complete linkage is

only parental gametes

C banding

only the centromeres are stained

Inducible

operon is turned ON by substrate: catabolic operons - enzymes needed to metabolize a nutrient are produced when needed

transduction studies can determine the _________ genes

order of 2-3 linked

chimeras

organisms that contain cells from two different lineages

Whereas promoters are _____ specific, an enhancer can be inverted, relative to the gene it regulates, _____ a significant effect on its action.

orientation without

oriC

origin of replication in E. coli

Epigenome

overall pattern of chromatin modifications possessed by each individual organism

CDKN2A

p16, blocks G1->S phase Melanoma, pancreatic cancer

harlequin chromosomes

paired human sister chromatids stained to reveal sister chromatid exchanges

P1

parental generation

hereditary deafness

partial or complete loss of hearing discovered at birth

Receptors

parts of the cell membrane that receive the neurotransmitter and initiate or prevent a new electric signal

intersexes

people with an anatomy that appears intermediate between male and female

stationary phase

period of equilibrium; microbial deaths balance production of new cells

diagnostic

pertaining to or establishing a diagnosis

phage vectors

phages that carry pieces of bacterial DNA during transduction

telophase

phase of mitosis in which the distinct individual chromosomes begin to spread out into a tangle of chromatin

linkage ratio

phenotypic ratio of two linked traits resulting from two heterozygous individuals

minor alterations of genetic info can result in

phenotypic variation

this action is essential to genetic recombination

physical contact between cells of two strains

nucleoside diphosphates (NDPs)

pivotal molecules in a plethora of cellular processes

sporophyte stage

plant life cycle stage that begins when an egg is fertilized by a sperm

gametophyte stage

plant life cycle stage that begins when cells in reproductive organs undergo meiosis and produce haploid cells

GM crops

plants that have been genetically altered through biotechnology

polyploidy occurs more in

plants, fish, lizards, amphibians

PGD

preimplantation genetic diagnosis

heteroplasmy

presence of both normal and mutated mtDNA, resulting in variable expression in mitochondrial inherited disease

Scrapie

prion disease in sheep

dihybrid ratios

probability that two of more independent events will occur simultaneously is equal to the product of the probability that each will occur independent.

gene expression

process by which a gene produces its product and the product carries out its function

Genetic expression

process by which information from a gene is used in the synthesis of a functional gene product

RNA splicing

process by which the introns are removed from RNA transcripts and the remaining exons are joined together.

crossing over

process in which homologous chromosomes exchange portions of their chromatids during meiosis.

Transformation

process in which one strain of bacteria is changed by a gene or genes from another strain of bacteria

transformation

process in which one strain of bacteria is changed by a gene or genes from another strain of bacteria

cotransformation

process in which two or more genes are transferred together during cell transformation

5-methylcytosine

produced by DNA methyltransferase after replication

antithrombin

produced by liver, slowly inactivates thrombin

vaccine proteins

produced in plants

bioreactors

production of compounds using engineered biofilms

Spermatogenesis

production of sperm

NIH Roadmap Epigenomic Project

project with the goal of producing a public resource of human epigenomic data to catalyze basic biology and disease-oriented research

Core enzyme

prokaryotic RNA polymerase consisting of α, α, β, and β' but missing σ; this complex performs elongation

Whereas ____ must be immediately upstream of the genes they regulate, the position of an enhancer is _____; it will function the same whether it is upstream, downstream, or within a gene.

promoters not critical

embryonic development depends on

proper timing regulated gene expression levels

Sliding DNA clamp

protein complex that keeps DNA polymerase bound to DNA during replication.

Chromatin remodeling complexes

protein machines that use the energy of ATP hydrolysis to change the position of the DNA wrapped around nucleosomes

Writers

protein methyltransferase, histone acetyltransferase

Histones

protein molecules around which DNA is tightly coiled in chromatin

catabolite activator protein (CAP)

protein that functions in catabolite repression. When bound with cAMP, CAP binds to the promoter of certain operons and stimulates transcription.

Rh antigens

proteins on the surface of red blood cells, antibodies against these proteins agglutinate red blood cells that express the proteins

Chaperones

proteins that assist in protein folding during posttranslational processing

Heat shock proteins

proteins that help maintain integrity of other proteins that would normally be denatured in extreme heat.

cyclins

proteins that regulate the timing of the cell cycle in eukaryotic cells

molecular motors

proteins that use energy to move and perform mechanical work

translocations

rearrangements of chromosomes due to the insertion of genetic material from one chromosome to another.

a

recessive; describes a trait that is covered over, or dominated, by another form of that trait and seems to disappear.

merozygote

recipient cell that is temporarily diploid as result of transfer process

F- cells

recipient cells lacking F factor

Ubiquitin ligases

recognizes specific protein substrates and attach a ubiquitin tag. The proteins are then degraded to an appropriate size and coupled with the major histocompatibility I protein complex in the ER so they can be presented to CD8+ T cells.

rDNA

recombinant DNA

sebelipase alfa

recombinant enzyme purified from the egg whites of transgenic hens

intergenic recombination

recombination between genes

duplication

repeats a segment

genetic recombination in bacteria

replacement of one or more genes in the chromosome of one cell with those from a genetically distinct cell

Polymerase II

replaces RNA primers with DNA

lower case letter

represents recessive allele

infectious heredity

results from a symbiotic or parasitic association with a microorganism

single crossovers

results in genetic recombination. the chromatids involved in this single crossover exchange alleles at a given locus. Results in 2/4 recombinants.

allosteric repressor

reversibly changes shape and cannot bind to operator

Middle repetitive DNA

ribosomal RNA genes

RRNA

ribosomal RNA; type of RNA that makes up part of the ribosome

rRNA

ribosomal RNA; type of RNA that makes up part of the ribosome

intellecutal property

rights dealing with genomics and biotechnology

Oligonucleotides

segments of nucleic acid that are 50 nucleotides or less in length

selfing

self-fertilization in plants

primary protein structure

sequence of amino acids

Variable number tandem repeats

sequences can repeat a few or many times in tandem

palindrome sequence`

sequences of base pairs that read the same but in the opp direction on complementary strands; on MSY

Microsatellites

sequences of repeated base pairs of DNA, usually no more than two to six. If repeated excessively, they are often associated with neurological disorders, such as Huntington's chorea.

Triplets

sequences of three nitrogen bases each in DNA, known as codons in mRNA

endopolyploidy

several rounds of DNA replication without separation of replicate chromosomes

SARS

severe acute respiratory syndrome

SRY gene

sex determining region of the Y chromosome

sry gene

sex determining region of the Y chromosome

terminalization

shifting of the chiasmata from their original position at the centromere toward the chromosome end or telomere.

p arm

short arm of chromosome

Okazaki fragments

short fragments of DNA that are a result of the synthesis of the lagging strand during DNA replication.

SINE sequence

short interspersed retrotransposable elements, respectively, that invade new genomic sites using RNA intermediates.

Satellite DNA

short sequences of DNA that are tandemly repeated as many as 10 million times in the DNA; much of it is located in the telomeres

Signs of Turner Syndrome

short stature, delayed puberty, infertility, heart defects, and certain learning disabilities.

Consensus sequences

short stretches of DNA that appear, with little variation, in many different genes.

Tandem repeats

short, adjacent segments of DNA within a gene that are repeated several times

HbS

sickle cell hemoglobin

Epigenetic mechanisms can replace mutations as a way of _______ individual tumor-suppressor genes or activating oncogenes.

silencing

short tandem repeats

simple sequence DNA containing multiple tandemly repeated units of two to five nucleotides.

SNPs

single nucleotide polymorphisms

anaphase 2

sister chromatids separate

meiosis 2

sister chromatids separate

Ribosomes

site of protein synthesis

ribosomes

site of protein synthesis

origin of replication

site where the replication of a DNA molecule begins, consisting of a specific sequence of nucleotides.

codominance

situation in which both alleles of a gene contribute to the phenotype of the organism

sRNAs

small RNA molecules that regulate translation in trans by base-pairing with sites on mRNAs that can hide or expose the ribosome binding site

plasmids

small circular DNA molecules that replicate separately from the bacterial chromosome

snRNAs

small nuclear RNAs, function in a variety of nuclear processes, including the splicing of pre-mRNA

snRNPs

small nuclear ribonucleoproteins

segregational petites

small percent of mutations are result of nuclear mutations

pseudoautosomal region

small region on the X and Y chromosomes that contains homologous gene sequences

SLC30A8 gene

solute carrier family 30, member 8 gene

White eye color is an X-linked trait in one line of fruit flies. White eyes is recessive to red eyes. If a red-eyed female and a white-eyed male are crossed, _______. some of their male progeny may have white eyes

some of their male progeny may have white eyes (If the female is heterozygous, approximately half of the male progeny will have white eyes.)

random fertilization

source of genetic variation caused by the unlimited number of possible sperm & egg combinations

UGA

stop codon

What is the *leading cause of streptococcal mastitis* in dairy cattle in North America?

streptococcus uberis

polyribosome

string of ribosomes simultaneously translating regions of the same mRNA strand during protein synthesis

Histone tails

strings of amino acids that protrude from the histone proteins in the nucleosome

Polyribosomes

strings of ribosomes that work together to translate a RNA message.

Collagen

structural protein found in the skin and connective tissue

tetrad

structure containing four chromatids that forms during meiosis

gonadal ridges

structure that appears at approximately 5 weeks' gestation and becomes either ovaries or testes

Protein function

structure, enzymes, cell signaling

Epigenics

study of heritable changes in gene expression that are not caused by changes in the DNA sequence

genomics

study of whole genomes, including genes and their functions

Ribose

sugar in RNA

Reverse transcription

synthesis of DNA from an RNA template

reverse transcription

synthesis of DNA from an RNA template

DNA Pol V

synthesize DNA only in 5'->3' direction, can only add new dNTP's to a primer strand, cant initiate otherwise, cleaves off 2 phosphate (pyrophosphate), all primers are 5-8 nucleotides long and primase lies them down

C-DNA

synthesized from a single-stranded RNA

symptoms of Kleinfelter syndrome

tall, low testosterone and reduced muscle mass, facial/body hair, produce little or no sperm

Southern Blot Analysis

technique in which labeled probes are used to detect specific DNA fragments that have been separated by gel electrophoresis

molecular hybridization

technique used to identify specific DNAs in complex mixtures such as libraries

Assisted reproductive technologies

technologies that assist infertile couples to conceive a child

recombinant DNA technology

technology that combines genes from different sources into a single DNA molecule

Melting temperature

temperature at which a membrane transitions from being highly ordered to very fluid

genetic linkage

tendency for genes located close together on the same chromosome to be inherited together

transgenic

term used to refer to an organism that contains genes from other organisms

medulla develops into

testis

Polyadenylation

the addition of multiple adenine nucleotides to the 3' end of a newly synthesized mRNA molecule

maternal influence

the aggregate of all psychological effects mothers have on their children

Haploinsufficiency

the appearance of a mutant phenotype in an individual cell or organism that is heterozygous for a normally recessive trait

sex determination

the biological mechanism that determines whether an organism will develop as a male or female

personal genomics

the branch of genomics focused on sequencing individual genomes

recombiant DNA technology

the combination of DNA from two or more sources into a product

Genome

the complete instructions for making an organism, consisting of all the genetic material in that organism's chromosomes

genome

the complete instructions for making an organism, consisting of all the genetic material in that organism's chromosomes

Senescence

the condition or process of deterioration with age

Euploidy

the correct number of chromosomes in a species

synteny testing

the correlation of the pres/abs of each chromosome with the pres/abs of each gene product

Posttranslational modification

the covalent and generally enzymatic modification of proteins during or after protein synthesis.

expressivity

the degree to which a genotype is expressed in an individual

bacterial conjugation

the direct transfer of genetic material (DNA) from one bacterial cell to another

a given phenotype often varies depending on

the environment the organism is in

adenyl cyclase

the enzyme found inside cells, associated with hormone receptors, that converts ATP to cAMP.

Core enzyme

the enzyme responsible for catalysis in a multipart holoenzyme

telomerase reverse transcriptase (TERT)

the enzyme within telomerase that uses RNA as a template to make DNA

Chain elongation

the formation of peptide bonds between successive amino acid residues

chain elongation

the formation of peptide bonds between successive amino acid residues

One gene one enzyme hypothesis

the function of a gene is to dictate the production of a specific enzyme

transgenes

the genes that have moved between organisms

The coiling pattern of the progeny snails is determined by

the genotype of the parent producing the egg, regardless of the phenotype of that parent.

bipotential gonad

the gonad of the developing embryo that is capable of differentiating along two developmental pathways toward the development of either a testis or the ovary

sperm cells made during spermatogenesis contain

the halpoid number of chromosomes and equal cytoplasm amounts

Transgenerational inheritance

the heritable transmission to future generations of environmentally-caused phenotypes

genetic background

the impact of the collective genome of an organism on the expression of a gene under investigation

The variations in the gene products encoded in the cpDNA of different plants again attest to

the independent evolution that occurred within chloroplasts

extranuclear inheritance

the inheritance of genetic material that is not found within the nucleus

interference (I)

the inhibition of further crossover events by a crossover event in a nearby region of the chromosome, causes this reduction

Major groove

the larger of the two grooves in the DNA double helix

CEN region

the minimal region of the centromere that supports the function of chromosomal segregation

Transcription

the organic process whereby the DNA sequence in a gene is copied into mRNA

Nuclein

the original name given to DNA when it was discovered in the nucleus of cells by Friedrich Miescher in 1869

three point mapping

the parent must be heterozygous for all three genes under consideration

conservative replication

the parental molecule serves as a template for the synthesis of an entirely new molecule

x linkage

the pattern of inheritance resulting from genes located on the X chromosome

penetrance

the percentage of individuals with a particular genotype that actually displays the phenotype associated with the genotype.

positive interference

the phenomenon in which a crossover that occurs in one region of a chromosome decreases the probability that another crossover will occur nearby

gene redundancy

the phenomenon in which an inactive gene is compensated for by another gene with a similar function

negative interference

the phenomenon in which one crossover increases the likelihood of crossovers in nearby regions is called

genetic anticipation

the phenomenon in which the severity of symptoms in genetic disorders increases from generation to generation and the age of onset decreases from generation to generation.

Centromeres

the point on a chromosome by which it is attached to a spindle fiber during cell division.

dominant lethal allele

the presence of just one copy of the allele results in the death of the individual

pre-mRNAs

the primary transcript of a eukaryotic gene prior to processing to produce an mRNA.

sum law

the probability of obtaining any single outcome, where that outcome can be achieved by two or more events, is equal to the sum of the individual probabilities of all such events

Aminoacylation

the process by which a tRNA molecule is bound to its corresponding amino acid

Imprinting

the process by which certain animals form attachments during a critical period very early in life

sexual differentiation

the process by which males and females develop distinct reproductive anatomy

Transdifferentiation

the process by which stem cells from one tissue differentiate into cells of another tissue.

expression of information

the process by which the information encoded in a gene is used to direct the assembly of a protein molecule.

Bidirectional replication

the process in which DNA replication proceeds outward from the origin in opposite directions

disjunction

the separation of chromosomes during the anaphase stage of cell division

leader sequence

the sequence at the 5' end of an mRNA that is not translated into protein

Universal

the set of DNA and RNA sequences that determine the amino acid sequences used in the synthesis of an organism's proteins

Methylome

the set of nucleic acid methylation modifications in an organism's genome or in a particular cell.

heterogametic sex

the sex (male or female) that produces two types of gametes with respect to sex chromosomes. For example, in the XX-XY sex-determining system, the male produces both X-bearing and Y-bearing gametes.

Lagging strand

the strand in replication that is copied 3' to 5' as Okazaki fragments and then joined up.

Coding strand

the strand of DNA that is not used for transcription and is identical in sequence to mRNA, except it contains uracil instead of thymine

Linker DNA

the string between beads of DNA on histones. wrapped around a single histone, called linker histone - may not really have to know..

Epigenetics

the study of environmental influences on gene expression that occur without a DNA change

third generation sequencing

the techniques used are even faster and less expensive than the previous

cooperative binding

the tendency of the protein subunits of hemoglobin to affect each other's oxygen binding such that each bound oxygen molecule increases the likelihood of further oxygen binding.

anaphase

the third phase of mitosis, during which the chromosome pairs separate and move toward opposite poles

Phosphorylation

the transfer of a phosphate group, usually from ATP, to a molecule. Nearly all cellular work depends on ATP energizing other molecules by phosphorylation.

Exon shuffling

the variation in the patterns by which RNA may produce diverse sets of exons from a single gene.

endosymbiotic theory

theory that eukaryotic cells formed from a symbiosis among several different prokaryotic organisms

why would a mutation be diluted for a zygote?

there are many mitochondria that lack the mutation

Focused core promoters

there is either a single transcription start site or a distinct cluster of start sites in a short region of several nucleotides

Ovalbumin gene

this gene has 8 exons and 7 introns

Poly A binding protein

this protein binds to the 3' end of mature RNA, preventing premature degradation

Trinucleotide

three joined nucleotides

multiple alleles

three or more forms of a gene that code for a single trait

Codon

three-nucleotide sequence on messenger RNA that codes for a single amino acid

why does meiosis need to occur?

to increase the level of genetic variation in the next generation

RNA polymerase II

transcribes mRNA

Information flow

transcription DNA to RNA translation RNA to protein = central dogma

when RNA polymerase is blocked

transcription ceases

Transcriptional repressors

transcription factors that turn down/off gene expression levels

postive control

transcription occurs only if a regulator molecule directly stimulates RNA production

TRNA

transfer RNA; type of RNA that carries amino acids to the ribosome

tRNA

transfer RNA; type of RNA that carries amino acids to the ribosome

horizontal gene transfer

transfer of genes between cells of the same generation

Retrotransposons

transposable elements that move within a genome by means of an RNA intermediate, a transcript of the retrotransposon DNA.

siRNA

triggers degradation of other RNA molecules

gain of a chromosome

trisomy

True or false: protein is abundant in the cytoplasm, whereas DNA is not

true

true or false: mutations in mtDNA occur at a rate that is at least tenfold higher than in nuclear DNA

true

trp operon

tryptophan binds to the repressor protein and enables it to repress gene transcription.

Supercoiling

twisting in the opposite direction to the turns of the double helix during the first stage of mitosis.

autosomal recessive

two copies of an abnormal gene must be present in order for the disease or trait to develop

when 1/16ths are seen in the ratios of crosses where the inheritance pattern is unknown it often means

two gene pairs are controlling the observed phenotypes

If crossing over does not occur within the inverted segment of the inversion loop, the homologs will segregate, which results in

two normal and two inverted chromatids that are distributed into gametes.

Dinucleotide

two nucleotides covalently bonded together by a phosphodiester bond

Overlapping genes

two or more genes in which part or all of one gene is embedded in the other

requirement for DCOs

two separate and independent events or exchanges must occur simultaneously

yeast

unicellular fungi

RNA heteropolymers

used calculated frequencies of ribonucleotides and found mRNA triplet compositions

deletion testing

used to provide a rough and quick localization of each mutation Benzer studied

Detergent deoxycholate

useful for disrupting and dissociating protein interactions

DNA Pol III

using parental DNA as a template, synthesizes new DNA strand by adding nucleotides to an RNA primer or a pre-existing DNA strand

attenuated vaccine

vaccine composed of a weakened form of the pathogen that is generally unable to cause disease

single nucleotide polymorphism

variation in a DNA sequence occurring when a single nucleotide in a genome is altered

SNPs

variations in the DNA sequence that occur when a single nucleotide in the genome is altered

the point of origin _______ from strain to strain

varies

hepatitis B virus

virus that causes inflammation of the liver; transmitted through any body fluid, including vaginal secretions, semen, and blood

Hydrophobic

water hating

Hydrophilic

water loving

primordial germ

what kind of cells develop and seed the developing gonads destined to become spermatogonia or oogonia?

Hairpin secondary structure

when the new RNA transcript folds back on itself and is held together by hydrogen bonds

product law

when two independent events occur simultaneously, the probability of the two outcomes occurring in combination is equal to the product of their individual probabilities of occurrence

Monosome

when two subunits are associated with each other in a single ribosome

Dominance/Recessiveness

when two unlike unit factors responsible for a single character are present in a single individual, one unit factor is dominant to the other, which is said to be recessive

threshold effect

whereby normal phenotypic expression occurs anytime a minimal level of gene product is attained

operator region

with which genetic region does the repressor protein interact?

Epigenetic cancer therapy

works by altering cell expression

superfemale

xxx

snRNA

• Found only in the nucleus of eukaryotes and functions to remove introns from mRNA