Deck 9: Patterns of Inheritance

A)16:0:0:0
B)8:4:2:2
C)1:1:1:1
D)9:3:3:1

A)20%
B)25%
C)50%
D)75%

A)The offspring of two different varieties are called hybrids.
B)The parental plants of a cross are the P generation.
C)The hybrid offspring of a cross are the P₁ generation.
D)The hybrid offspring of an F₁ cross are the F₂ generation.

A)a mating between an individual of unknown genotype and an individual homozygous recessive for the trait of interest.
B)a mating between an individual of unknown genotype and an individual heterozygous for the trait of interest.
C)a mating between two individuals heterozygous for the trait of interest.
D)a mating between two individuals of unknown genotype.

A)1/6 × 1/6 = 1/36
B)1/6 + 1/6 = 1/3
C)1/6 + 1/6 = 2/3
D)1/6

A)peas.
B)roses.
C)guinea pigs.
D)fruit flies.

A)1:2:1
B)3:1
C)9:1:1:3
D)9:3:3:1

A)DD and dd
B)dd and dd
C)Dd and Dd
D)Dd and DD

A)the second generation of a self-fertilized plant.
B)a breeding experiment in which the parental varieties have only one trait in common.
C)a breeding experiment in which the parental varieties differ in only one character.
D)a breeding experiment in which the parental varieties have only one prominent trait.

A)heterozygous for the trait and able
B)heterozygous for the trait and unable
C)homozygous for the trait and able
D)homozygous for the trait and unable

A)applies to all forms of life.
B)applies to all sexually reproducing organisms.
C)applies to all asexually reproducing organisms.
D)is invalid.

A)multiple alleles.
B)recessive alleles.
C)a mutation that occurs in the egg, sperm, or zygote.
D)dominant alleles.

A)hybrids.
B)the F₂ generation.
C)monohybrid crosses.
D)true-breeding.

A)chromosomes sort independently of each other during mitosis and meiosis.
B)independent sorting of genes produces polyploid plants under some circumstances.
C)each pair of alleles segregates independently of the other pairs of alleles during gamete formation.
D)genes are sorted concurrently during gamete formation.

A)3 black-eyed:1 orange-eyed
B)0 black-eyed:1 orange-eyed
C)1 black-eyed:3 orange-eyed
D)1 black-eyed:0 orange-eyed

A)Pregnancy is a spontaneous event, and the characteristics of the offspring are determined by the gods.
B)Particles called pangenes, which originate in each part of an organism's body, collect in the sperm or eggs and are passed on to the next generation.
C)Offspring inherit the traits of either the mother or the father, but not both.
D)Heritable traits are influenced by the environment and the behaviors of the parents.

A)The theory of pangenesis incorrectly suggests that reproductive cells receive particles from somatic cells.
B)Contrary to the theory of pangenesis, somatic cells do not influence eggs or sperm.
C)The blending hypothesis does not explain how traits that disappear in one generation can reappear in later generations.
D)The blending hypothesis suggests that all of the traits of the offspring come from either the mother or the father.

A)The genetic makeup of an organism constitutes its genotype.
B)An organism with two different alleles for a single trait is said to be homozygous for that trait.
C)Alleles are alternate forms of a gene.
D)The expressed physical traits of an organism are called its phenotype.

A)the same locus on nonhomologous
B)different loci on homologous
C)different loci on nonhomologous
D)the same locus on homologous

A)incomplete dominance
B)codominance
C)pleiotropy
D)polygenic inheritance

A)genetics.
B)the environment.
C)the environment and individual needs.
D)genetics and the environment.

A)dominant
B)codominant
C)incompletely dominant
D)recessive

A)Results from chorionic villus sampling come faster than those from amniocentesis.
B)Chorionic villus sampling is typically performed later in the pregnancy than amniocentesis.
C)Ultrasound imaging has no known risk.
D)Chorionic villus sampling and amniocentesis are usually reserved for pregnancies with higher than usual risks of complications.

A)do not follow the laws of independent assortment.
B)show incomplete dominance.
C)reflect a pattern of codominance.
D)show pleiotropy.

A)Genetic testing before birth requires the collection of fetal cells.
B)Carrier testing helps determine whether a person carries a potentially harmful disorder.
C)The screening of newborns can catch inherited disorders right after birth.
D)Most human genetic diseases are treatable if caught early.

A)incomplete dominance.
B)codominance.
C)pleiotropy.
D)polygenic inheritance.

A)Persons who are heterozygous for sickle-cell disease are also resistant to malaria.
B)Sickle-cell disease causes white blood cells to be sickle-shaped.
C)All of the symptoms of sickle-cell disease result from the actions of just one allele.
D)About one in 10 African Americans is a carrier of sickle-cell disease.

A)linked; sort independently during meiosis
B)homologous; are inherited together
C)linked; do not sort independently during meiosis
D)codependent; do not sort independently during meiosis

A)incomplete dominance.
B)codominance.
C)pleiotropy.
D)polygenic inheritance.

A)Lethal disorders caused by dominant alleles are usually more severe than lethal disorders caused by recessive alleles.
B)Unlike lethal disorders caused by recessive alleles, lethal disorders caused by dominant alleles usually cause the death of the embryo.
C)Most individuals carrying a lethal dominant allele have the disorder and die before they reproduce, whereas individuals carrying a lethal recessive allele are more likely to be healthy and reproduce.
D)The presence of a lethal dominant allele causes sterility.

A)both affected by the disease.
B)not affected at all by the disease.
C)slightly affected by the disease, showing some but not all of the symptoms.
D)subjected to some environmental toxin that caused the disease in their children.

A)imaging; karyotyping
B)sexing; imaging
C)karyotyping; biochemical testing
D)direct observation; biochemical testing

A)codominance and pleiotropy.
B)multiple alleles, pleiotropy, and blended inheritance.
C)codominance and multiple alleles.
D)multiple alleles and pleiotropy.

A)chromosomes that exhibit mutations are the source of genetic variation.
B)the behavior of chromosomes during meiosis and fertilization accounts for patterns of inheritance.
C)the behavior of chromosomes during mitosis accounts for inheritance patterns.
D)humans have 46 chromosomes.

A)cannot strictly account for the patterns of inheritance of many traits.
B)explain the biological mechanisms behind why certain genes are dominant or recessive.
C)help us understand the global geographic patterns of genetic disease.
D)can predict whether offspring will be male or female with 100% accuracy.

A)incomplete dominance
B)codominance
C)multiple alleles
D)polygenic inheritance

A)albinism
B)hypercholesterolemia
C)skin color
D)ABO blood groups

A)Incomplete dominance supports the blending hypothesis.
B)The four blood types result from various combinations of the three different ABO alleles.
C)ABO blood groups can provide evidence of paternity.
D)The impact of a single gene on more than one character is called pleiotropy.

A)incomplete dominance.
B)codominance.
C)pleiotropy.
D)polygenic inheritance.

A)men acquire two copies of the defective gene during fertilization.
B)men need to inherit only one copy of the recessive allele for the condition to be fully expressed.
C)the sex chromosomes are more active in men than in women.
D)the genes associated with the sex-linked conditions are linked to the Y chromosome, which determines maleness.

A)recombines unlinked; genes
B)recombines linked; alleles
C)combines unlinked; alleles
D)combines linked; genes

A)two Y chromosomes
B)two X chromosomes and one Y chromosome
C)one X chromosome and one Y chromosome
D)one Y chromosome

A)one
B)two
C)three
D)four

A)female bees will produce eggs by meiosis, whereas male bees will produce sperm by mitosis.
B)female bees will produce eggs by mitosis, whereas male bees will produce sperm by meiosis.
C)male and female bees will produce sperm and eggs by meiosis.
D)male and female bees will produce sperm and eggs by mitosis.

A)NnllddMM
B)NNLLDdMm
C)NNllddmm
D)nnLLddMM

A)The gene for color vision is incompletely dominant to the gene for sex determination.
B)The gene for color vision is codominant with the gene for sex determination.
C)The gene for color vision is found on the X chromosome.
D)The gene for color vision is found on the Y chromosome.

A)Male bees don't play a role in the rearing of bee young.
B)Male bees are produced by budding.
C)Male bees develop from unfertilized eggs.
D)The queen bee's mate dies before the male eggs hatch.

A)pleiotropy.
B)codominance.
C)independent assortment.
D)crossing over.

A)the frequencies with which the genes exhibit incomplete dominance over each other
B)the frequencies of mutations in the genes
C)the frequencies with which the genes are inherited from the mother and from the father
D)the frequencies with which the corresponding traits occur together in offspring

A)4%
B)8%
C)25%
D)40%

A)males are haploid.
B)the male's phenotype results entirely from his single X-linked gene.
C)the male chromosome is more fragile than the female chromosome.
D)the male chromosome is more susceptible to mutations.

A)is called a recessive gene.
B)is called a sex-linked gene.
C)will exhibit pleiotropy.
D)will exhibit codominance.

A)the X chromosome is too large to analyze effectively.
B)the X chromosome sometimes exchanges genetic information with the Y chromosome.
C)the X chromosome is obtained from both father and mother.
D)one X chromosome is deactivated in females.

A)3:1
B)1:1:1:1
C)12:1:1:4
D)9:3:3:1

A)XO.
B)XX.
C)XY.
D)YY.

A)A: segregation; B: independent assortment
B)A: independent assortment; B: segregation
C)A: segregation; B: segregation
D)A: independent assortment; B: independent assortment

A)incomplete dominance
B)polygenic inheritance
C)pleiotropy
D)codominance

A)by the X-Y system
B)by the Z-W system
C)by the number of chromosomes
D)by the size of the sex chromosome

A)Genes for two different traits would be inherited together as a pair.
B)Meiosis II would not be required to produce gametes, as meiosis I would be sufficient.
C)A dihybrid cross of heterozygous individuals would yield four different phenotypes.
D)Each sperm and egg would carry more than one allele for a specific gene.

A)round and yellow
B)shriveled and yellow
C)shriveled and green
D)round and green

A)X-Z-Y
B)Y-Z-X
C)Z-X-Y
D)X-Y-Z

A)100%
B)75%
C)50%
D)0%

A)the eggs must have been accidentally switched, since the baby's blood type has to match one of his parents.
B)each parent could have contributed one recessive allele, resulting in type O blood.
C)the eggs must have been accidentally switched, since a type A parent and a type B parent can have any type children except O.
D)it is possible for the baby to have type O blood, since type O is inherited through a dominant allele.

A)a skin cell from a human female
B)an egg from a human female
C)an epithelial cell from a male chicken
D)an eye cell from a female grasshopper

A)PP
B)Pp
C)pp
D)You cannot determine Jake's genotype from this information.

A)purple-flowered plants in the P generation
B)white-flowered plants in the P generation
C)purple-flowered plants in the F₁ generation
D)purple-flowered plants in the F₂ generation

A)A sex-linked gene that controls the expression of the white spot is found on the Y chromosome.
B)A sex-linked gene that controls the expression of the white spot is found on the X chromosome.
C)The genes for the white spot and for polydactyly are linked.
D)The genes for the white spot and for polydactyly are not linked.

A)Rryy and RrYy
B)Rryy and rrYy
C)RRyy and rryy
D)RrYy and RrYy

A)colorblindness often appears randomly, even if neither parent is colorblind.
B)the baby's father must have a recessive allele for colorblindness.
C)since colorblindness is sex-linked, a son can inherit colorblindness if his mother has the recessive colorblindness allele.
D)the eggs must have been accidentally switched, since males inherit sex-linked traits only from their fathers.

A)The organism that this cell came from is likely a female.
B)The organism that this cell came from is likely a male.
C)The organism that this cell came from has a genetic disease.
D)This cell is likely haploid.

A)produce an abnormally shaped LDL receptor.
B)don't produce any LDL receptors.
C)produce too many LDL receptors.
D)don't produce enough LDL receptors.

A)1/16
B)1/32
C)1/64
D)1/256

A)BBSS.
B)BBSs.
C)BbSS.
D)BbSs.

A)12:1:1:4
B)9:3:3:1
C)3:3:1:1
D)1:1:1:1

A)100%
B)75%
C)25%
D)0%

A)RRYY
B)RrYy
C)rrYy
D)RRyy