• Home
  • Textbooks
  • Biology Concepts and Applications
  • Observing Patterns in Inherited Traits

Biology Concepts and Applications

Cecie Starr

Chapter 10

Observing Patterns in Inherited Traits - all with Video Answers

Educators

+ 3 more educators

Chapter Questions

02:13

Problem 1

A certain recessive allele $c$ is responsible for albinism, an inability to produce or deposit melanin, a brownishblack pigment, in body tissues. Humans and a number of other organisms can have this phenotype. Figure 10.18 shows two stunning examples. In cases of albinism, what are the possible genotypes of the father, the mother, and their children?
a. Both parents have normal phenotypes; some of their children are albino and others are unaffected.
b. Both parents are albino and have albino children.
c. The woman is unaffected, the man is albino, and they have one albino child and three unaffected children.

Christina Sorrentino
Christina Sorrentino
Numerade Educator
03:32

Problem 2

One gene has alleles $A$ and $a$. Another has alleles $B$ and $b$. For each genotype, what type(s) of gametes will form? Assume that independent assortment occurs.
a. $A A B B$
b. $A a B B$
c. $A a b b$
d. $A a B b$

Jennifer Hudspeth
Jennifer Hudspeth
Numerade Educator
03:38

Problem 3

Refer to Problem 2. What will be the genotypes of offspring from the following matings? Indicate the frequencies of each genotype among them.
a. $A A B B \times a a B B$
b. $A a B B \times A A B b$
c. $A a B b \times a a b b$
d. $A a B b \times$ AaBb

Shivani Beall
Shivani Beall
Numerade Educator
02:38

Problem 4

Certain dominant alleles are so essential for normal development that an individual who is homozygous recessive for a mutant recessive form can't survive. Such recessive, lethal alleles can be perpetuated in the population by heterozygotes. Consider the Manx allele $\left(M^{L}\right)$ in cats. Homozygous cats $\left(M^{L} M^{L}\right)$ die when they are still embryos inside the mother cat. In heterozygotes $\left(M^{L} M\right),$ the spine develops abnormally. The cats end up with no tail (Figure 10.19 ). Two $M^{L} M$ cats mate. What is the probability that any one of their surviving kittens will be heterozygous?

Jennifer Hudspeth
Jennifer Hudspeth
Numerade Educator
01:19

Problem 5

In one experiment, Mendel crossed a pea plant that bred true for green pods with one that bred true for yellow pods. All the $F_{1}$ plants had green pods. Which form of the trait (green or yellow pods) is recessive? Explain how you arrived at your conclusion.

Shivani Beall
Shivani Beall
Numerade Educator
07:03

Problem 6

Return to Problem 2. Assume you now study a third gene having alleles $C$ and $c .$ For each genotype listed, what type(s) of gametes will be produced?
a. $A A B B C C$
c. $A a B B C c$
b. $A a B B c c$
d. $A a B b C c$

Jennifer Hudspeth
Jennifer Hudspeth
Numerade Educator
02:47

Problem 7

Mendel crossed a true-breeding tall, purple-flowered pea plant with a true-breeding dwarf, white-flowered plant. All $\mathrm{F}_{1}$ plants were tall and had purple flowers. If an $\mathrm{F}_{1}$ plant self-fertilizes, then what is the probability that a randomly selected $\mathrm{F}_{2}$ offspring will be heterozygous for the genes specifying height and flower color?

Christina Sorrentino
Christina Sorrentino
Numerade Educator
03:22

Problem 8

DNA fingerprinting is a method of identifying individuals by locating unique base sequences in their DNA molecules (Section 15.4 ). Before researchers refined the method, attorneys often relied on the ABO bloodtyping system to settle disputes over paternity. Suppose that you, as a geneticist, are asked to testify during a paternity case in which the mother has type A blood, the child has type $\mathrm{O}$ blood, and the alleged father has type $\mathrm{B}$ blood. How would you respond to the following statements?
a. Attorney of the alleged father: "The mother's blood is type $A,$ so the child's type $O$ blood must have come from the father. My client has type B blood; he could not be the father."
b. Mother's attorney: "Because further tests prove this man is heterozygous, he must be the father."

EP
Emily Pack
Numerade Educator
02:28

Problem 9

Suppose you identify a new gene in mice. One of its alleles specifies white fur. A second allele specifies brown fur. You want to determine whether the relationship between the two alleles is one of simple dominance or incomplete dominance. What sorts of genetic crosses would give you the answer? On what types of observations would you base your conclusions?

Alexander Cheng
Alexander Cheng
Numerade Educator
02:56

Problem 10

Your sister gives you a purebred Labrador retriever, a female named Dandelion. Suppose you decide to breed Dandelion and sell puppies to help pay for your college tuition. Then you discover that two of her four brothers and sisters show hip dysplasia, a heritable disorder arising from a number of gene interactions. If Dandelion mates with a male Labrador known to be free of the harmful alleles, can you guarantee to a buyer that her puppies will not develop the disorder? Explain your answer.

Christina Sorrentino
Christina Sorrentino
Numerade Educator
03:13

Problem 11

A dominant allele $W$ confers black fur on guinea pigs. A guinea pig that is homozygous recessive $(ww)$ has white fur. Fred would like to know whether his pet black-furred guinea pig is homozygous dominant $(WW)$ or heterozygous $(W w) .$ How might he determine his pet's genotype?

Caroline Jones
Caroline Jones
Numerade Educator
06:39

Problem 12

12. Red-flowering snapdragons are homozygous for allele
$R^{1}$. White-flowering snapdragons are homozygous for a different allele $\left(R^{2}\right)$. Heterozygous plants $\left(R^{1} R^{2}\right)$ bear pink flowers. What phenotypes should appear among first-generation offspring of the crosses listed? What are the expected proportions for each phenotype?
a. $R^{1} R^{1} \times R^{1} R^{2}$
b. $R^{1} R^{1} \times R^{2} R^{2}$
c. $R^{1} R^{2} \times R^{1} R^{2}$
d. $R^{1} R^{2} \times R^{2} R^{2}$
(In cases of incomplete dominance, alleles are usually designated by superscript numerals, as shown here, not by the uppercase letters for dominance and lowercase letters for recessiveness.

Carlene Jimenez
Carlene Jimenez
Numerade Educator
06:14

Problem 13

Two pairs of genes affect comb type in chickens (Figure
10.12 ). When both genes are recessive, a chicken has a single comb. A dominant allele of one gene, $P,$ gives rise to a pea comb. Yet a dominant allele of the other $(R)$ gives rise to a rose comb. An epistatic interaction occurs when a chicken has at least one of both dominants, $P_{-} R_{-}$ which gives rise to a walnut comb.
Predict the ratios resulting from a cross between two walnut-combed chickens that are heterozygous for both genes $(P p R r)$

Ronald Prasad
Ronald Prasad
Numerade Educator
02:31

Problem 14

As Section 3.6 explains, a single mutant allele gives rise to an abnormal form of hemoglobin (Hb $S$ instead of $\left.H b^{A}\right) .$ Homozygotes $(H b S H b S)$ develop sickle-cell anemia. Heterozygotes $\left(H b^{A} H b S\right)$ show few obvious symptoms. Suppose a woman's mother is homozygous for the $H b^{A}$ allele. She marries a male who is heterozygous for the allele, and they plan to have children. For each of her pregnancies, state the probability that this couple will have a child who is:
a. homozygous for the $H b^{S}$ allele
b. homozygous for the $H b^{A}$ allele
c. heterozygous $H b^{A} H b^{S}$

Lucas Finney
Lucas Finney
Numerade Educator