Genetics exam 1

A/- or A-

"-" indicated that we have no clue what is there due to a lack of evidence

A/A or AA

"/" indicates same chromosome

A/A ; B/B or AA BB

";" indicates different chromosome (Non-homologous)

Discontinuous traits

"either-or" phenotypic differences between alternative alleles

Mutant allele

(1) an allele, or DNA variant, whose frequency is less than 1% in a population; (2) an allele that causes a phenotype seen only rarely in a population.

Huntingtons disease is (A) A haplo-sufficient gene, because the mutant allele is dominant (B) A haplo-insufficient gene, because the mutant allele is dominant (C) Neither, because the mutant allele is not a loss-of-function (If) allele

(C) Neither, because the mutant allele is not a loss-of-function (If) allele

Which genotype(s) below could NOT be a parent of a child with blood type A? (A) IA/IB (B) IA/i (C) IB/i (D) i/i (E) They could all be a parent

(E) They could all be a parent

DNA

(deoxyribonucleic acid) is a double-stranded polymer of nucleotides that carries genetic information. DNA strands are antiparallel (oriented in opposite directions) with 5' to 3' polarity.

RNA

(ribonucleic acid) is a polymer of nucleotides that is transcribed from DNA that is an intermediary in the synthesis of proteins

General molecular principles

- a specific gene determines a specific enzyme, whose activity may affect phenotype - A dominant allele usually determines a normally functioning protein - A recessive allele usually does not encode a functional protein.

haplo-sufficient

1 good copy of the gene (in a diploid) is sufficient for a normal phenotype - loss of 1 copy or a los of function (If) mutation in 1 copy is tolerated - Mutation is recessive

Haplo-insufficient

1 good copy of the gene is not sufficient for a normal phenotype - Loss of 1 copy or a If mutation in 1 copy leads to a mutant phenotype - Mutation is dominant.

Monohybrid cross

1-trait

How to recognize dominant traits in pedigrees

1. Affected children always have at least one affected parent (no hidden individual; no carrier) 2. As a result, dominant traits show a vertical pattern of inheritance 3. Two affected parents can produce unaffected children, if both parents are heterozygotes

How to recognize recessive traits in pedigrees

1. Affected individuals can be the children of two unaffected carriers, particularly as a result of consanguineous matings 2. All the children of two affected parents should be affected 3. Rare recessive traits show a horizontal pattern of inheritance 4. Recessive traits may show a vertical pattern of inheritance if the trait is extremely common in the population

Diakinesis

1. Chromatids thicken and shorten 2. At the end of prophase I, the nuclear membrane breaks down, and the spindle begins to form

Diplotene

1. synaptonemal complex dissolves 2. A tetrad of four chromatids is visible 3. Crossover points appear as chiasmata, holding nonsister chromatids together 4. Meiotic arrest occurs at this time in many species

When flipping a coin two times, what is the probability that the coin lands on heads and then tails

1/2

When rolling a single 6-sided dice, what is the probability of rolling a 4 or a 6?

1/3

When rolling two 6-sided die, what is the probability of rolling two 3s?

1/36

What proportion of the offspring of the monohybrid cross for gene A do you expect to show the fully recessive phenotype?

1/4

Round peas are dominate to wrinkled peas. Yellow peas are dominate to green peas. Pea plants with purple flowers are dominate to pea plants with white flowers. You cross Purple-flower Round Yellow pea plants with White-flower Green Wrinkled pea plants, and then you cross individuals in the first filial (F1) generation together) What proportion of F2 offspring do you expect to show the fully recessive phenotype?

1/64

In humans, how many ova develop from 100 primary oocytes?

100

One oak tree cell with 14 chromosomes undergoes mitosis. How many daughter cells are formed and what is the chromosome number in each cell? 1 daughter cell with 28 chromosomes 2 daughter cells with 28 chromosomes 2 daughter cells with 14 chromosomes 1 daughter cell with 14 chromosomes

2 daughter cells with 14 chromosomes

What type of phenotypic ratio does a monohybrid cross produce?

3:1

One oak tree cell with 14 chromosomes undergoes meiosis. How many cells will result from this process, and what is the chromosome number in each cell? 4 cells, each with 14 chromosomes 2 cells, each with 14 chromosomes 2 cells, each with 7 chromosomes 4 cells, each with 7 chromosomes

4 cells, each with 7 chromosomes

In humans, how many sperm develop from 100 primary spermatocytes?

400

What proportion of the offspring from a cross between 2 dihybrids for genes A and B do you expect to show 1 dominant trait and 1 recessive trait?

6/16

Suppose the intermediate called Colorless precursor 2 in the pathway in Fig 3.16 was blue instead of colorless. What is the phenotypic ratio seen in progeny of the A/a ; B/b X A/a ; B/b dihybrid cross?

9 : 3 : 4

Round peas are dominate to wrinkled peas. Yellow peas are dominate to green peas. You cross Round Yellow with Green Wrinkled, and then you cross individuals in the first filial (F1) generation together. What proportion of the F2 offspring do you expect to show the fully dominant phenotype?

9/16

What type of phenotypic ratio does a dihybrid cross produce?

9:3:3:1

Rare allele

<1% is considered a mutant allele

Assume that a series of compounds has been discovered in Neurospora. Compounds A-F appear to be members of a biosynthetic pathway. Several mutations in converting these compounds have been identified. Mutant strains 1-5 each contain a single mutation. Growth of each strain on minimal medium with one of the compounds A-F added is shown by (+); no growth is shown by (o) Which compound is the furthest upstream in the pathway?

A

Polymorphic

A gene with two or more distinct wild-type alleles in a population

What is the primary determinant of maleness?

A single gene called SRY which is the sex determining region of Y

What is the genotype of each individual in a monohybrid cross for gene A?

A/a

What are alternative forms of a single gene?

Alleles

Allele

An alternative form of a gene.

Base pairs in DNA

C-G A-T

Zygote

Cell formed by the fertilization of the egg by the sperm during sexual reproduction; in humans, eggs and sperm are haploid and zygotes are diploid.

Haploid

Cells, such as gametes of diploids, that contain one set of chromosomes

Metacentric chromosome

Cetromere is in the middle

Telophase

Chromosomes decondense and are enclosed in two nuclei

Leptotene

Chromosomes thicken and become visible, but the chromatids remain invisible. - Centrosomes begin to move toward opposite poles

What do DNA molecule and proteins assemble into?

Chromosomes. Each chromosome contains many genes.

3:1 phenotypic ratio

Complete dominance

What is the correct order of events that describe the central dogma of biology?

DNA transcribed to RNA, RNA translated to protein

Which of the following describes the central dogma of biology? DNA transcribed to protein, protein translated to DNA RNA translated to DNA, DNA transcribed to protein RNA translated to protein, protein transcribed to DNA DNA translated to RNA, RNA transcribed to protein DNA transcribed to RNA, RNA translated to protein

DNA transcribed to RNA, RNA translated to protein

The central Dogma of Biology

DNA-transcription-RNA-translation-protein

Chromosomes

DNA/protein structures that contain genes

What does a 12:3:1 ration in F2 progeny of a dihybrid cross indicate?

Dominant epistasis

Mendel's Law of Independent Assortment

During gamete formation, different pairs of alleles segregate independently of each other

In the above feeding experiment, which compound is the furthest downstream in the pathway?

E

True or False: Most loss-of-function mutations are dominant.

False

Complementarity

G-C and A-T base pairing in DNA through hydrogen bonds

During what phase does most cell growth occur?

G1 and G2 phase

What are the three parts of interphase?

Gap 1 (G1) phase Synthesis (S) phase Gap 2 (G2) phase

Carriers

Heterozygous individuals that display a normal phenotype that have a recessive allele for a trait

Zygotene

Homologous chromosomes enter synapsis - The synaptonemal complex forms

A slash (/) separates genes and their alleles that are on ... (

Homologs

What happens in metaphase I and anaphase I?

Homologs move to opposite poles - Centromeres do not divide and sister chromatids are not separated

Dosage compensation

Human females have two X chromosomes and males have only one In female cells, one X chromosome in inactivated - The inactive X chromosome is condensed into a Barr body

A pure-breeding wild legume with white flowers and long pods is crossed to a pure-breeding wild legume with purple flowers and short pods. The F1 offspring are allowed to self-fertilize, and the F2 generation has 301 long purple, 99 short purple, 612 long pink, 195 short pink, 295 long white, and 98 short white. How are the traits being inherited? Incomplete dominance for flower color, incomplete dominance for pod shape Complete dominance for flower color, complete dominance for pod shape Complete dominance for flower color, incomplete dominance for pod shape Incomplete dominance for flower color, complete dominance for pod shape

Incomplete dominance for flower color, complete dominance for pod shape

Chromosome loss

Lagging chromatid that is not pulled to either spindle pole at mitotic anaphase

What are the genotypes of the parents for a microcephalic child?

M/m both parents give a little m

Karyotype

Micrograph of stained chromosomes arranged in homologous pairs

A semicolon (;) separates genes and their alleles that are on ...

Non-homologous chromosomes

Y-linked

Only in males

Stages of Mitosis

Prophase Prometaphase Metaphase Anaphase Telophase

Round peas are dominate to wrinkled peas. Yellow peas are dominate to green peas. What is the genotype of an individual that is pure-breeding for both dominate phenotypes?

R/R ; Y/Y

Round peas are dominant to wrinkled peas. What is the best answer for the parental genotypes of a cross that gave all round pea progeny?

R/R x -/-

Round peas are dominate to wrinkled peas. Yellow peas are dominate to green peas. If you cross Round Yellow with Green Wrinkled, what is the genotype of the first filial (F1) generation?

R/r ; Y/y

During what phase does chromosomes replicate to form sister chromatids?

S phase

Homogametic sex

Sex with one type of gamete (XX females in humans)

What happens during meiosis II?

Sister chromatids separate and move to opposite poles

Anaphase

Sister chromatids separate and move to opposite poles Centromeres of all chromosomes divide simultaneously Kinetochore microtubules shorten and pull separated sister chromatids to opposite poles

what can cause dramatic effects in the genome?

Small changes

Prometaphase

Spindle forms and sister chromatids attach to microtubules from opposite centrosomes Nuclear envelope breaks down - Microtubules from centrosomes invade the nucleus and connect to kinetochores in centromere of each chromatid - Sister chromatids attach to microtubules from opposite poles - Mitotic spindle forms from three kinds of microtubules (astral, kinetochore, and polar)

Pachytene

Synapsis is complete - crossing-over, genetic exchange between non sister chromatids of a homologous pair, occurs.

What determines the three-dimensional shape of the protein?

The amino acid sequence

What does Meiosis I reduce?

The chromosomes from 2n to n

Cytokinesis

The cytoplasm divides and produces two daughter cells - begins during anaphase but not completed until after telophase - parent cells split into two daughter cells with identical nucei

S phase

The stage of the cell cycle from the birth of a new cell until the onset of chromosome replication, each chromosome doubles to produce identical sister chromatids

Which of the following statements applies to homologous chromosomes? (select one) They contain the same genes in the same order but may have different alleles of some genes They segregate from each other at anaphase of mitosis They are attached to the same centromere They are genetically identical

They contain the same genes in the same order but may have different alleles of some genes

True or False: Loss-of-function mutations in haplo insufficient genes are usually dominant.

True

What is now known as genes?

Units o inheritance

What is the causative gene for microcephaly?

WDR62

Which one of the following questions is best solved by the product rule? What is the probability of rolling a 6 or a 7 using a 9-sided die? What is the probability of rolling a 6 using an 8-sided die? What is the probability of rolling a 6 twice in a row using a 12-sided die?

What is the probability of rolling a 6 twice in a row using a 12-sided die?

Can Nucleotide sequences of DNA be copied?

YES

Can mitosis occur in a cell whose genome is haploid?

Yes

amino acid structure

a carboxyl group, amine group, and R group

Complementation group

a collection of mutations that do not complement each other

Epistasis

a gene interaction in which the effects of an allele at one gene hide the effects of alleles at another gene

Recessive episasis

a gene interaction in which the effects of recessive alleles of one gene hide the effect of alleles at another gene

Monomorphic

a gene with only one wild-type allele in a population

X-linked inheritance

a genetic condition that is associated with mutations in genes on the X chromosome. If present in males, they will be affected because they only carry one X chromosome. However, females, if only carrying the mutation on one gene, will generally go unaffected because they have 2 X chromosomes.

Multi-hybrid crosses

a mating of two hybrids in which two heterozygous loci are considered (AaBb x AaBb)

X chromosome inactivation

a mechanism of dosage compensation in which all X chromosomes in a cellular genome but one are inactivated at an early stage of development through the formation of heterochromatic Barr bodies.

Complementation table

a method of collating data that helps visualize the relationship among a large group of mutants

Prototroph

a microorganism that does not require any organic growth factors

Autotroph

a mutant microorganism that can grow on minimal medium only if it has been supplemented with one or more nutrients not required by wild-type strains.

Heterogeneous trait

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

homologous chromosomes (Homologs)

a pair of chromosomes containing the same linear gene sequence, each derived from one parent

Redundant gene action

a phenomenon where dominant, functional alleles of either one or the other of two genes is required in a pathway

Dominant epistasis

a phenomenon where the effects of a dominant allele at one gene hide the effects of alleles at another gene

Heterogenous trait

a phenotype caused by a mutation in any one of a number of different genes

Locus heterogeneity

a property of a trait where mutations in any one of two or more genes results in the same mutant phenotype

Karotype

a visual description of the complete set of chromosomes in one cell of an organism; usually presented as a photomicrograph with the chromosomes arranged in a standard format showing the number, size, and shape of each chromosome type

Mutant

allele, or DNA variant, whose frequency is less than 1% in a population or an allele that cause a phenotype rarely seen in a population (usually but not always written as a lowercase letter e.g. y)

Modifier genes

alter the phenotypes produced by alleles of other genes - can have major effect or more subtle effects

Alleles

alternative forms of a single gene (made by a mutation in the gene's sequence)

Dominant inheritance

an abnormal gene from one parent that can cause the disease.

recessive lethal allele

an allele that prevents the birth or survival of homozygotes, though heterozygotes carrying that allele survive.

Wild-type

an allele, or DNA variant, whose frequency is more than 1% in a population or an allele that dictates the most frequently observed phenotype in a population (usually but not always written as a capital letter e.g. Y)

Alkaptonuria

an inborn error of metabolism

Reciprocal recessive epistasis

an interaction between alleles of two different genes where the homozygous recessive genotype of each gene prevents the phenotypic expression of (is epistatic to) the dominant allele of the other gene

Biochemical pathway

an orderly series of chemical reactions within a cell in which molecules are converted stepwise into a final product

Oogonia

are diploid germ cells in the ovary of female embryos that undergo one mitotic event, then meiosis I (arrests until after birth), and then at puberty, one primary oocyte per month (ovulation) completes meiosis I (arrests at meiosis II until fertilization!). 1 oocyte only produces 1 haploid mature ovum.

prototrophs

can grow in minimal media without any nutritional supplements

Nonhomologs

cary completely unrelated sets of genes

Diploid

cells carrying two matching sets of chromosomes

Acrocentric chromosome

centromere is near one end

G1 phase

chromosomes are not duplicating or dividing - Length of time varies in different cell types

Prophase

chromosomes condense and become visible - Centrosomes move apart toward opposite poles nucleoli begin to disappear

Non Homologous chromosomes

chromosomes in a single genome that are not homologs—they do not have similar DNA sequences and do not pair during meiosis.

Autosomes

chromosomes not involved in sex determination. The diploid human genome consists of 46 chromosomes: 22 pairs of autosomes and 1 pair of sex chromosomes (the X and Y chromosomes)

Non-homologous chromosome

chromosomes that are not members of the same pair

The two strands of the double helix are what?

complementary and have opposite orientation

Centrioles

core or centrosome, not found in plant cells

What is the final stage of cell division?

cytokinesis

Aneuploidy

describes a cell or an organism whose chromosome sets are not all complete - usually results in multiple abnormalities or lethality - caused by nondisjunction

Monosomic

describes an individual lacking one (1) chromosome from the diploid number for the species (2n -1)

Euploidy

describes cells containing only complete sets of chromosomes

Triploid

describes cells or organisms with three complete sets of chromosomes (3x)

Monoploid

describes cells, nuclei, or organisms that have a single set of unpaired chromosomes. For diploid organisms, monoploid and haploid are synonymous (1x)

Epistasis tests

describes how gene interactions can affect phenotypes

Trisomic

describes individuals having one extra chromosome in addition to the normal diploid set (2n + 1)

cross-fertilize

different plant

9:3:3:1 phenotypic ratio

dihybrid cross/ 2 unlike genes

Spermatogenia

diploid germ cell in the testes that undergo one mitotic event, then meiosis to produce 4 haploid sperm

Spermatogonia

diploid germ cells found only in testis, divide by mitosis for form primary spermatocytes After puberty, maturation begins to form sperm - Primary spermatocytes undergo symmetrical division at meiosis I to produce two secondar spermatocytes - Secondary spermatocytes undergo symmetrical division at meiosis II to produce two spermatids - Spermatids mature to become sperm - Equal numbers of X and Y sperm are produced.

Dominant epistasis I

dominant allele of one gene hides effects of both alleles of another gene - Ratio: 12:3:1

Dominant epistasis II

dominant allele of one gene hides effects of dominant allele of another gene - Ratio: 13:3

S phase

duplication of chromosome into sister chromatids

9:4:3 phenotypic ratio

epistasis of 2 genes in a pathway

mitotic nondisjunction

failure of sister chromatids to separate during anaphase of mitosis

Pure-breeding (lines)

families of organisms that produce offspring with specific parental traits that remain constant from generation to generation.

X-linked

gene or trait that is carried on the X chromosome

Conserved

genes that are shared in different organisms

The molecular explanation for Mendel's pea shape is that the R allele encodes the Starch branching enzyme (Sbe1), but the r allele does not make the enzyme. R is dominant over r, such that R/r individuals make enough branched starches to make round peas. But r/r individuals cannot make branched starches, leading to the wrinkled peas phenotype. Since the loss-of-function allele r is recessive, the Sbe1 gene is ...

haplo-sufficient

Amphidiploid

has two diploid genomes, each from a different parental species

Mutation

heritable alteration in DNA sequence

complete dominance

hybrid resembles one of the two parents

Allopolyploid

hybrids in which chromosome sets come from distinct, but related, species - usually infertile because different chromosome sets cannot easily pair and segregate properly

Sister chromatids

identical copies of a replicated chromosome

2 sister chromatids

identical copies of the same chromosome

Sex Chromosomes

in humans, the X and Y chromosomes, which determine the sec of an individual

1:2:1 phenotypic ratio

incomplete dominance or codominance

Vertical Pattern

indicates a rare dominant trait - Every affected person has at least one affected parent - Mating between affected person and unaffected person is effectively a testcross.

Horizontal pattern

indicates a rare recessive trait - parents of affected individuals are unaffected but are heterozygous (carriers) for the recessive allele

Heterozygote

individual that has two different alleles for a given gene or locus (e.g. Y/y)

Homozygote

individual that has two identical alleles for a given gene or locus (e.g. Y/Y or y/y)

Parental (P) generation

individuals whose progeny in subsequent generations will be studied for specific traits

Monohybrids

individuals with two different alleles for a single trait

What are the substages of prophase I?

leptotene, zygotene, pachytene, diplotene, diakinesis

Protein

linear polymer of amino acids translated from RNA that folds into a particular shape and are required for the structure, function, and regulation of the body's cells, tissues, and organs.

Microcephaly is a recessive disease, what is the genotype of the child?

m/m

Continuous (quantitative) traits

many genes interact like human height or skin color

Consanguineous mating

mating between genetic relatives sharing a recent common ancestor

Which type(s) of cell division reduce(s) the chromosome number by half? Note: Sister chromatids are identical, so they count as one chromosome meiosis I and meiosis II mitosis and meiosis I meiosis II meiosis I mitosis mitosis and meiosis II

meiosis I

Complementation test

method of discovering whether two mutations are in the same or separate genes. Two mutant strains with the same mutant phenotype are crossed if the progeny areas wild type, the strains had mutations in different genes; if the progeny are a mutant, the strains had mutations in the same gene.

Centrosome

microtubule organizing center near the nuclear envelope

Which type(s) of cell division can be classified as equational (the parent cell has the same number of chromosomes as each daughter cell?) Note: Sister chromatids are identical, so they count as one chromosome meiosis I and meiosis II mitosis and meiosis I meiosis II meiosis I mitosis mitosis and meiosis II

mitosis and meiosis II

Restrictive conditions

mutant allele has defective functions

Permissive condition

mutant allele has wild-type functions

Auxotrophs

mutants that cannot grow without supplements being supplied

x-linked recessive

mutation never passes from father to son. However, daughters of affected males are carriers. 1/2 of sons of carriers will inherit the trait.

Conditional lethal

mutations are lethal only under some conditions - Permissive condition - Restrictive condition

Heterogenous traits

mutations in different genes can cause the same phenotype

Phenotype

observable characteristic (e.g. yellow or green peas)

Redundancy

only one dominant allele of either of two genes is necessary to produce phenotype - Ratio: 15:1

Pedigree

orderly diagram of a family's relevant genetic features, extending through as many generations as possible.

Genotype

pair of alleles present in an individual (e.g. Y/Y or Y/y)

.Pleiotropy

phenomenon in which a single gene determines a number of distinct and seemingly unrelated characteristics.

Phenocopy

phenotype arising from an environmental agent that mimics the effect of a mutant gene - not heritable - can be deleterious or beneficial

Cochicine treatment

prevents spindle formation and results in doubling of chromosome numbers

Product rule

probability of 2 independent events occurring TOGETHER = PRODUCT (multiplication) of their individual probabilities

Sum rule

probability of either 2 mutually exclusive events occurring = sum (addition) of their individual probabilities.

Translation

process in which the codons carried by RNA direct the synthesis of polypeptides from amino acids according to the genetic code

Mitosis

process of division that produces daughter cells that are genetically identical to each other and to the parent cell

Branched-line diagrams

progeny phenotypes for each gene are shown in different columns.

Allele frequency

proportion of all copies of a gene in a population that are of a given allele type - Most common allele is usually the wild-type allele

Round peas are dominate to wrinkled peas. Yellow peas are dominate to green peas. What is the genotype of an individual that is pure-breeding for both recessive phenotypes?

r/r ; y/y

2:1 phenotypic ratio

recessive lethal allele

In four-o'clocks, the allele for red flowers in incompletely dominant to the allele for white flowers, so heterozygotes have pink flowers. If you specifically want to produce pink flowers, which of these crosses would be most efficient?

red x white

Expressively

refers to the degree or intensity with which a particular genotype is expressed in a phenotype

CFTR Protein

regulates the passage of chloride ions across the cell membrane. Heterozygous individuals produce enough CFTR for normal lung function.

Incomplete dominance

relationship between two alleles of a gene where the heterozygote has a phenotype intermediate between that of the two homozygotes - genotypic ratio = phenotypic ratio - 1:2:1 - hybrid resembles neither parent

Codominance

relationship between two alleles of a gene where the heterozygote has the trait of both homozygotes - Hybrid shows traits from both parents

Pax6 gene

required for eye development in insects, mice, and humans

Self fertilize

same plant

Heterogametic sex

sex with two different kinds of gametes (XY males in humans, ZW females in birds)

Homologs

similar chromosomes - one comes from one parent and the other comes from the other parent

RNA

single strand complementary to DNA strand on the right

Gametes

specialized cells (eggs or sperm) that carry genes between generations

Genes

specific segment of DNA in a discrete region of a chromosome that serves as a unit of function by encoding a particular RNA or protein.

Metaphase

stage of mitosis or meiosis during which the chromosomes are aligned along the equatorial plate of the cell

G2 Phase

stage of the cell cycle from the completion of chromosome replication until the onset of cell division

Nucleotide

subunit of the DNA (or RNA) macromolecule - - A, G, C, or T (U for RNA). Composed of - Phosphate group - Deoxyribose sugar - Nitrogenous base (Adenine, Cytosine, Guanine, or Thymine)

G2 phase

synthesis of proteins required for mitosis

What does the 9:3:3:1 ratio suggest?

that 2 genes both influence something

Transcription

the conversion of DNA-encoded information to its RNA-encoded equivalent

Expressivity

the degree or intensity with which a particular genotype is expressed in a phenotype - can be variable or unvarying

Genome

the entire collection of chromosomes in each cell of an organism Human genome: - 24 kinds of chromosomes - 3x10^9 base pairs - around 27,000 genes

Nondisjunction

the failure in chromosome segregation during cell division, when either chromatids or homologs do not seperate properly

law of independent assortment

the law that states that genes separate independently of one another in meiosis - viewable in dihybrid crosses

Dosage compensation

the mechanism that equalizes the levels of X-linked gene expression independent of the number of copies of the X chromosome; in mammals, the dosage compensation mechanism is X chromosome inactivation.

Progeny ratio

the outcome of Mendel's law of segregation

Penetrance

the percentage of individuals with a particular genotype that show the expected phenotype - can be complete or incomplete

Complementation

the process in which heterozygosity for loss-of-function mutant recessive alleles for two different genes produces a normal phenotype

Meiosis

the process of two consecutive cell divisions in the progenitors of gametes. In the first division, pairs of homologous chromosomes (sister chromatids) segregate into two different daughter cells; in the second division, the sister chromatids of each homolog segregate into two different daughter cells. A diploid (2n) cell produces four haploid (1n) gametes by meiosis.

F1 (first filial) generation

the progeny of the parental generation in a controlled series of crosses

Genetics

the science of heredity of biological information.

G1 phase

the stage of the cell cycle from the birth of a new cell until the onset of chromosome replication at S phase

Mendel's law of segregation

the two alleles for each trait separate during gamete formation and the two gametes, one from each parent, unite at random at fertilization

Sex chromosome aneuploidy

tolerated due to X-chromosome inactivation

Dominant

trait appears in the F1 progeny

Recessive

trait is hidden in the F1 progeny

X-linked dominant

trait seen in every generation. Affected male will produce affected daughters and unaffected sons

Dominant trait

trait that appears in the F1 hybrids (heterozygotes) resulting from a mating between pure-breeding parental strains showing antagonistic phenotypes

Recessive trait

trait that remains hidden in F1 hybrids (heterozygotes) resulting from a mating between pure-breeding parental strains showing antagonistic phenotypes

Multifactorial traits

traits determined by several different genes, or by the interaction of genes with the environment

sister chromatids

two identical copies of a chromosomes that exist immediately after DAN replication. Sister chromatids are identical, so they carry the same alleles for all genes.

9:7 phenotypic ratio

two unlinked genes operate in a pathway

autosomal monosomy

usually lethal

Recessive inheritance

when both genes in a pair must be abnormal to cause a disease

reciprocal recessive epistasis

when homozygous, recessive allele of each gene masks the dominant allele of the other gene - ratio: 9:7

Recessive Epistasis

when homozygous, recessive allele of one gene masks both alleles of another gene - ratio: 9:3:4

Dominance series

when the dominance relations of all possible pairs of alleles are arranged in a linear order