Genetics Flashcards
Define:
gene
A nucleic acid sequence that determines some trait of an organism. In eukaryotes, genes are composed of DNA and located on chromosomes.
Many aspects of inheritance were discovered by Gregor Mendel, though the term “gene” had not yet been coined. Instead, Mendel called genes “factors.”
Define:
phenotype
Refers to a physical or observable characteristic of an organism, determined by its genotype.
For example, if a pea plant is homozygous for the Y allele and is yellow in color, “yellow” would be its phenotype.
Define:
genotype
Refers to the actual set of alleles possessed by an organism.
For example, if a pea plant is homozygous for the Y allele and is yellow in color, “YY” would be its genotype.
What term describes the position of a particular gene on a chromosome?
locus (plural: loci)
Each locus falls at the same relative position in a species. This allows the construction of genetic maps.
Define:
allele
A variation of a specific gene, usually denoted by a single letter. Humans always have two alleles at each genetic locus.
For example, the B and b alleles might code for brown and blue eye color, respectively.
Define:
polymorphism
Occurs when a single species displays discrete phenotypic forms, such as Mendel’s green and yellow peas.
At the DNA level, polymorphisms refer to minor variations in the sequence of a gene that occur relatively frequently in a population.
In dogs, the C locus determines the extent to which melanin is expressed. Possible alleles at this locus include C (full expression), Cb (gray fur), and c (albino), among others. What inheritance pattern does this trait exemplify?
This is an example of multiple allelism, in which three or more alleles exist for each a particular trait. Note that a normal individual still cannot possess more than two alleles per locus.
Explain the difference between a homozygous and a heterozygous genotype.
A homozygous genotype includes two copies of the same allele.
A heterozygous individual possesses two different alleles.
In a certain population, the R allele codes for red color and the r allele codes for white color. If 100% of individuals with an Rr genotype appear red, how would we describe the r allele?
The r allele must be recessive.
In complete dominance, heterozygotes always display the dominant phenotype. In this example, that allele would be R. The recessive allele is completely “masked” in such cases.
Explain codominance.
It is an inheritance pattern in which two alleles contribute equally to an individual’s phenotype.
A woman is heterozygous for blood type but displays the type A phenotype. If this woman has a child with an AB man, what is the probability that this child will carry two dominant alleles with regard to blood type?
The probability is 50%.
A B
A AA AB
o Ao Bo
First, note that the A and B alleles are both dominant over O. Heterozygous individuals with type A blood have a genotype of AO, with A being dominant over O. Therefore, the woman in this question must have an AO genotype. The cross described in this question is pictured below. The child has a 50% chance of being either AA or AB (two dominant alleles), leaving a 50% probability of either AO or BO (one dominant and one recessive allele).
Explain incomplete dominance and give an example.
It is an inheritance pattern in which the heterozygous phenotype is a blend of the two homozygous traits.
The most familiar example of incomplete dominance involves flower color. In this pattern, if RR individuals display red coloring and rr individuals are white in color, then Rr flowers would be expected to be pink.
The gene for height in a wild horse species exhibits incomplete dominance, with tall, medium, and short phenotypes. When a tall horse is crossed with the offspring of a tall and a short horse, what potential phenotypes can result?
Offspring from this cross can display either tall or medium phenotypes.
Use T to denote the “tall” allele and t to denote the “short” one. The tall parent must have a genotype of TT. Though the genotype of the second parent is less obvious, it results from the cross of a tall (TT) and a short (tt) horse. The second parent, then, must have a Tt genotype. Crossing a TT and a Tt horse can only result in two phenotypes: the same as those of the parents, tall (TT) and medium (Tt).
Define:
genetic leakage
Occurs when genes from one species travel into the gene pool of another.
What term refers to the set of all genes present in a population?
The gene pool
A diverse gene pool allows a species to more easily adapt to changes in its environment. This quality is referred to as genetic variation.
Explain Mendel’s Law of Segregation.
An organism carries two alleles for each trait, but these alleles “segregate” during the formation of gametes. Thus, a parent organism will only pass one allele per trait to its progeny.
Though Mendel did not know this at the time, segregation of alleles occurs during anaphase of meiosis I.
Explain Mendel’s Law of Independent Assortment.
Mendel hypothesized that the inheritance of one trait will be unaffected by another. In other words, alleles at different loci assort independently.
This law only holds true when genes are not located on the same chromosome.
What is a test cross used to determine?
It is used to find the genotype of an individual with a dominant phenotype. The unknown organism is crossed with a homozygous recessive individual. If any of the offspring are recessive, the unknown parent must be heterozygous.
A test cross would be unnecessary for an organism with a recessive phenotype. Such individuals can only have one genotype: homozygous recessive.
What individuals are involved in a dihybrid cross?
A dihybrid cross involves two separate traits. Specifically, both parents must be dihybrids, or heterozygous for both traits being observed.
Often, a dihybrid cross is preceded by crossing two strains that are pure-breeding (homozygous) for different traits. For example, a cross of AABB and aabb parents will yield 100% AaBb offspring, which are dihybrids and can be further crossed.
What does the ratio “3:1” signify?
Assuming complete dominance, 3:1 reflects the ratio of dominant to recessive phenotypes in the offspring of a monohybrid cross.For example, consider a cross between two heterozygous (Rr) organisms. Of the offspring, ¼ will be RR and ½ will be Rr, combining for a ¾ chance of exhibiting the dominant phenotype. Only the ¼ with the rr genotype will display the recessive phenotype.
What does the ratio “9:3:3:1” signify?
Assuming complete dominance, 9:3:3:1 reflects the ratio of phenotypes obtained in a dihybrid cross.
Of every 16 offspring, 9 will display both dominant phenotypes. 3 will display one (Trait A) but not the other (Trait B), while an additional 3 will display Trait B but not Trait A. 1 individual of 16 will exhibit both recessive phenotypes.
An organism with the genotype GgAA is crossed with a ggAa partner. What fraction of their offspring will have a genotype that matches one of the parents?
50%
GA GA gA gA
gA GgAA GgAA ggAA ggAA
gA GgAA GgAA ggAA ggAA
ga GgAa GgAa ggAa ggAa
ga GgAa GgAa ggAa ggAa
As this Punnett square shows, the offspring have a 50% chance of having either a GgAA or ggAa genotype.
In his famous experiments, Mendel did not consider many complex methods of inheritance. Which of Mendel’s laws is broken in cases that involve linked genes?
Linked genes violate Mendel’s Law of Independent Assortment.
Mendel hypothesized that the inheritance of one trait was unaffected by that of another, or that alleles “assorted independently.” However, genes are inherited as parts of chromosomes, not as individual alleles. If two genes are linked, or located on the same chromosome, they will likely assort into gametes together.
Which process of genetic recombination occurs during prophase I of meiosis?
Crossing over, or the trading of DNA segments between homologous chromosomes, occurs when these chromosomes are paired together in prophase I.
