Genetics (BIO 352) Final Exam URI
Centromeres, chromosomes, chromatids, tetrads
# of centromeres = # of chromosomes, 1 chromosome = 2 sister chromatids, 1 tetrad = 2 homologous chromosomes
Inversion loop
(KNOW HOW TO DRAW) loop used by chromosomes to pair up when one has variations, including inversions or deletions
Mendelian Conditions
1. Single gene controlled 2. 2 allelic alternatives (dominant/recessive) 3. Non-independent assortment
Rho dependent transcription termination
rho binds to transcript at rho loading site, persuing RNA polymerase to form hair pine, pausing RNA polymerase activity and allowing rho to catch up and release the transcript
Independent assortment
segregating genes for 2 different traits assort independently of one another and are not linked; for meiotic recombination, AaBb independently assortment would yield 1:1:1:1 AB:Ab:aB:ab
Promoters
similar to a promoter, initiate transcription
Locus
site on chromosome where particular genes reside
rRNA
structural component of ribosomes
Phosphodiester backbone
sugar-phosphate backbone, linkages that make up the backbone of ½ of DNA's shape
Transcription
synthesis of RNA directed by DNA; produces mRNA, rRNA, tRNA; making an RNA copy of a single gene
Translation
synthesis of polypeptide directed by mRNA; involves rRNA, tRNA, occurs on ribosomes
Primase
synthesizes primers that are necessary for initiation of the replication process
karyotype
the number and visual appearance of the chromosomes in the cell nuclei of an organism or species; 2n = 46 for humans
ZW system of sex determination
females are ZW, males are ZZ; birds, reptiles
Role of DNA
replicate, store information, express information, and allow variation by mutation
Nondisjunction
autosome OR sex chromosome, 1 chromosome or entire genome; the failure of chromosomes to separate and segregate into daughter cells at division
Prophase I stages
1) Leptonema → chromosomes begin to condense 2) zygonema → bivalents form (spaced out tetrads) 3) pachynema → tetrads 4) diplonema → crossing over occurs at chaismata (RECOMBINATION) 5) diakinesis → spindle fibers attach
Limitations of 2-point linkage analysis
1) limited data generated per cross 2) maximum recombination frequency detectable is 50% 3) double crossovers not detectable (0% recombination frequency)
Conservative model
1 daughter cell inherits all parental strands while the other has all newly synthesized strands
Dominant epistasis
12:3:1
Double Dominant epistasis
15:1
Bacterial termination
2 replication forks approach each other at the terminus region; leaves 2 daughter cells entangled to separate, or else no cell division can occur
Deoxyribose
5 carbon sugar, has one less oxygen than ribose; 5 and 3 end significant in DNA's structure
DNA polymerase III
5' → 3' polymerase activity and 3' → 5' exonuclease activity, very high processivity (30,000 base pairs/minute) and the enzyme responsible for replication
Recessive epistasis
9:3:4
Double recessive epistasis
9:7
Sex determination is drosophila
= # X chromosomes / # autosome sets; >= 1 - female, >.5 <1 - intersex, <= .5 - male
Recombination frequency
= # recombinant progeny / total progeny; same as x; 1 mU = 1 cm = 1% frequency of recombination
Chi-Squared (x^2)
= the sum of [(observed-expected)^2 / expected] degrees of freedom = n-1, n=# of phenotypic classes PROBABILITY: >= .05 - fails to reject null, < .05 - rejects null
Chargaff's rule
A = T, C = G, A+G/C+T = 1
Lethal Alleles
AA:Aa kill → dominant lethal, aa kill → recessive lethal
Sex determination
AB - heterogametic, AA - homogametic
Central dogma
DNA (returns to itself by replication, mutation) → through transcription → mRNA, rRNA, tRNA } on ribosome → through translation → PROTEIN
Kornberg Enzyme
DNA polymerase I
Rho independent transcription termination
G-C rich inverted repeat form hairpin loop, pausing RNA polymerase and giving DNA time to renature and kick off the RNA polymerase
DNA denaturing processes
Gradient centrifugation procedures or heat, although they can renature when cooled
Eukaryotic forms of RNA polymerase
I (rRNA), II (mRNA), III (tRNA)
Protenor system of sex determination
females are XX (hermaphrodites), males are X; grasshoppers, roaches, C. elegans
Pedigree
O - female - XX; □ - male - XY; empty symbol - unaffected; filled in symbol - affected; dot in center of symbol - carrier; a line between a O and □ - union; lines and symbols stemming from a union - children
Processing
OCCURS ONLY IN EUKARYOTES: 1. Transcription yields pre-mRNA 2. 5' guanine cap is added 3. 3' cleavage for poly A 3' tail 4. Splicing removes introns, ligates exons together
Neurospora
an organism's whose system is the model for centromere mapping because it is uniquely compromised of haploid cells; able to reproduce sexually as well as asexually
Lygaeus system of sex determination
females are XX, males are XY; mammals
Turner's syndrome
XO chromosomes, no barr bodies; scientifically classified as male
Klinefelter's syndrome
XXY chromosomes, 1 barr body; scientifically classified as a male
Eukaryotic DNA polymerase
a (alpha): essential to replication, has low processivity and functions in synthesizing primers during initiation; δ (delta): 3' → 5' exonuclease activity, switches with alpha for elongation
Colchicine
a chemical that can stimulate the production of polyploids
Robertsonian translocation
aka centric fusion; involves breaks at extreme ends of short arms of 2 non-homologous arocentric chromosomes
Dispersive model
all completely random strands made up of parental as well as newly synthesized material
Sex-linked (X-linked) dominant
all females from affected males have trait, not all males from affected females have trait; more females affected than males; NO carriers or skipping of generations
Pseudoautosomal region
allows X and Y chromosomes to pair up like homologs despite being different sizes
Autosomal dominant
almost always appear in every generation, regardless of sex; affect individuals have affected parent
Allele
alternate forms of gene that can exist at a single locus
Barr bodies
an X chromosome inactivated in mammals; if an X chromosome is inactivated, it is retained in that form even after mitosis; barr bodies = total X's - 1
polyploids
autopolyploids - same genome; allopolyploids - closely related, can result from interspecific matings
Lagging strand
because DNA polymerase III can only synthesize in the 5' → 3' direction and DNA is antiparallel, the lagging strand is synthesized in pieces and then sealed together
Female chromosomal determination
can be XX, XXX, XXXX, ... as long as no Y
Male chromosomal determination
can be XY, XXY, XXX...Y as long as there is a Y
mRNA
carries DNA sequence info to the ribosomes
Linkage with recombination
cis: ½-x/2 AB: x/2 Ab : x/2 aB : ½-x/2 ab; trans: ½-x/2 Ab : x/2 AB : x/2 ab : ½-x/2 aB; for both, x = recombination frequency
Leading strand
continuous replication by DNA polymerase III in the 5' → 3' direction
Types of linkage (repulsed/coupled)
coupled/cis = AB and ab linked; repulsed/trans = Ab and aB linked
Autosomal recessive
cross of 2 carriers can produce affected (homozygous) offspring, regardless of sex; if both parents are affected, all children all
Semi-conservative model
daughter cells inherit 1 parental strand and 1 newly synthesized strand each, the actual model of inheritance
Hyperchromic effect
denatured DNA absorbs light more than helical DNA because base-stacking in DNA helix prevents purines and pyrimidines from fully absorbing light
Arthur Kornberg
discovered the four necessary compounds for replication: dNTPs (A, T, G, C), DNA polymerase, a DNA template, and MG^2+
Telomeres
ends of linear chromosomes consist of long stretches of short repeating sequences that preserve the integrity and stability of chromosomes
Haploid-diploid system of sex determination
females are 2n, males are n; ants, bees, wasps
Okazaki fragments
fragments of DNA that each begin with a primer and then are "glued" together on the lagging strand
Pseudoautosomal mode of inheritance
gene that shows autosomal-like inheritance but are known to be on the X/Y chromosome
Meiosis
genetically interphase, prophase I, metaphase I, anaphase I, telophase I, prophase II, metaphase II, anaphase II, telophase II; due to variation, daughter cells are genetically different; produces haploid (n) gametes; centromeres duplicate M2
Euploid
haploid - n, diploid - 2n, polyploid - 3n, 4n, ... (only even #'s are fertile)
Y chromosome
has SRY gene, codes for testis-determining factor (TDF) protein that might code for male genitalia
Incomplete inheritance
heterozygous genotype has blended phenotype (RR - red, rr - white, Rr - pink)
Codominance
heterozygous possess both dominant and recessive phenotype (I^a I^a,o - A blood type, I^b I^b,o - B blood type, I^a I^b - AB blood type, I^o I^o - O blood type)
Hydrogen bonds
hold together the base pairs that give DNA its helical shape
Testcross
homozygous recessive individual (tester) x suspected heterozygote to determine genotype
telomerase
insert telomeres into the gap where RNA primers are removed
Mitosis
interphase, prophase, metaphase, anaphase, telophase; daughter cells genetically the same, produces diploid (2n) cells, centromeres duplicate M1
Ligase
joins together gaps that are formed during the replication process, especially the fragments of the lagging strand, needs ATP to function
DNA polymerase I
requires template and primer; synthesis (finding and inserting appropriate base pairs) in the 5' → 3' direction; exonuclease activity (error correcting, proofreading) in 3' → 5' AND 5' → 3' direction
Major groove
largest space between two strands of DNA, where the DNA-binding proteins can interact with DNA
Linkage
linked genes are genes too close to one another so crossing over occurs more rarely
RNA polymerase
main enzyme of transcription, still in 5' → 3' direction
Protein or DNA
major question of early experiments for discovering the genetic material
Dosage compensation
males with one X have on functional copy of genes, whereas females with XX have one X randomly inactivated (inactivated X becomes a barr body); this occurs only in mammals, in drosophila, X chromosomes are up-regulated in males (work 2x), in C. elegans, C chromosomes are down-regulated in hermaphrodites (½)
Classification of chromosomes
metacentric = centromere in middle, submetacentric = centromere near middle but not exact, arocentric = near end, telocentric = at end; p arm is the shorter arm, q arm is the longer arm
Eukaryotic mRNA
monocistronic - codes for only 1 polypeptide
DNA absorbance values
more C-G rich DNA molecules will have higher absorbance, higher melting points because of the more H-bonds
Helix
most DNA exists as a double-stranded _____, but some can be triple stranded while others can be single stranded (Chargaff's rule would no longer apply)
B-DNA
most biologically significant form of DNA, less compact than A-DNA (both are right handed) but more compact that C, D, E-DNA
Mitochondrial/maternal inheritance
mother's phenotype is inherited by ALL offspring
Eukaryotic termination
multiple origins of replication allow genomes to be replicated over hours; individual Dna subunits for replication called replicons are clusters that replicate synchronously
Consensus sequence
not all promoters are identical but similar, make up these sequences
Nucleotide
nucleoside + phosphate group
DNA structure
nucleotides are linked by phosphodiester bonds between the C4 phosphate and the C3 OH group
First division nondisjunction
occurs during segregation during meiotic anaphase I, results in 2 trisomic, 2 monosomic gametes
Second division nondisjunction
occurs during segregation during meiotic anaphase II, results in 2 normal, 1 trisomic, and 1 monosomic gametes
TATA box
one type of promoter, a region of repeating TATAA sequence
Types of inversion
paracentric: arm ratio is unchanged, excludes the centromere; pericentric: arm ratio changed, includes the centromere
Nucleoside
pentose sugar (deoxyribose or ribose) + nitrogen base (A,C,G,U/T)
Gene
physical and functional unit of heredity
Prokaryotic mRNA
polycistronic - codes for more than 1 polypeptide
Product law
probability 2 independent events occurring simultaneously = the product of their individual probabilities, ex. AaBb x AaBb = AABb → ¼ x 2/4 = 2/16
tRNA
provides linkage between mRNA and amino acids; transfers amino acids to ribosomes
Nitrogen bases
pyrimidines = 1 ring = C, U/T; purines = 2 rings = A, G; C-G is a triple bond while A-U/T is only a double bond
Y-linked or holandric
rarer due to fewer genes being on the Y chromosome, father always passes to son, females unaffected
ATP, CTP, GTP, UTP
raw materials for transcription
Gyrase
reduces the coiling that increases during the unwinding process
Minor groove
the smaller space between the two strands of DNA
2-point linkage analysis
to determine genetic proportions of frequencies using testcross
Sex-linked (X-linked) recessive
trait never passed from father to son; females can be carriers; sons of affected mothers affected, daughters of affected fathers are carriers
Transcription: eukaryotes v prokaryotes
transcription and translation are coupled and occur simultaneously in bacteria, whereas only transcription occurs in the nucleus of eukaryotic cells and translation occurs in the mitochondria
Aneuploids
trisomy = 2n + 1, monosomy = 2n - 1, tetrasomy = 2n + 2, nullsomy = 2n - 2
Helicase
unwinds the DNA helix so that other enzymes can get in to replicate the strands
RNA vs DNA
uracil (U) not thymine (T), ribose not deoxyribose
Nonreciprocal Translocation
variation in structural arrangement; ABCDEFG + HIJKLM → CDEFG + ABHIJKLM (non-homologous chromosomes)
Reciprocal Translocation
variation in structural arrangement; ABCDEFG + HIJKLM → HIJCDEFG + ABKLM (non-homologous chromosomes)
Duplication
variation in structural arrangement; ABCDEFG → ABCBCDEFG
Deletion
variation in structural arrangement; ABCDEFG → ABCEFG
Inversion
variation in structural arrangement; ABCDEFG → ADCBEFG
Recombination
when genes gross over in meiosis, leads to genetic variation and creates recombinant types (as opposed to parental types)
Epistasis
where one gene hides or masks another
Absolute linkage
yields 1:1 of cis or trans linkage type (AB/ab would yield 1:1 AB:ab, etc.)
Centromere mapping
½ x [(#asci with second division segregation)/total # of asci] x 100
