College Bio Mastering Ch 9-12
_____ is a carcinogen that promotes colon cancer. a) fat b) UV light c) estrogen d) a virus e) testosterone
a) fat
Pea flowers may be purple (P) or white (p). Pea seeds may be round (R) or wrinkled (r). What proportion of the offspring from the cross PpRr × PpRr are expected to have white flowers and wrinkled seeds? a) 1/16 b) 3/16 c) 9/16 d) 12/16 or 3/4
a) 1/16
Polyploidy is involved in which of the following examples? a) A normal watermelon has 22 chromosomes but seedless watermelons have 33 chromosomes. b) XYY males c) XO females d) Some plants alternate between haploid and diploid phases.
a) A normal watermelon has 22 chromosomes but seedless watermelons have 33 chromosomes.
Which of the following diseases is NOT caused by a prion? a) AIDS b) mad cow disease c) Creutzfeldt-Jacob disease in humans d) kuru in humans
a) AIDS
The sister chromatids separate and begin moving toward opposite poles of the cell during which phase of mitosis? a) Anaphase b) Prophase c) Metaphase d) Interphase e) Telophase
a) Anaphase
In the laboratory, cancer cells fail to show density-dependent inhibition of growth in cell culture. What is one explanation that could account for this? a) Cancer cells continuously secrete growth factors into the cell culture medium. b) Cancer cells have inactive receptors for growth factors. c) Cancer cells are unable to attach to a surface and grow. d) Cancer cells continue to die at a rate that is equal to their growth.
a) Cancer cells continuously secrete growth factors into the cell culture medium.
An insect that has the genotype EeGGcc will have the same phenotype as an insect with the genotype __________. a) EEGgcc b) EEggcc c) eeggcc d) EEGGCc
a) EEGgcc
What does the process of gene therapy involve? a) It adds a functioning version of the defective gene to the cells of an individual. b) It treats the gametes of the affected individual so that their children will remain unaffected by the genetic disorder. c) It is the successful treatment of all individuals affected by the disorder being treated. d) It allows individuals to follow the natural progression of a genetic disorder, accompanied by psychological counseling, then treating with drugs only when the condition becomes life-threatening.
a) It adds a functioning version of the defective gene to the cells of an individual.
Why are lethal dominant alleles so much more rare than lethal recessive alleles? a) Lethal dominant alleles are harmful whether they are carried in homozygous or heterozygous form, so there is always strong selection against these alleles. b) The types of mutations that create lethal dominant alleles are much less frequent than those that create lethal recessive alleles. c) The lethality associated with lethal dominant alleles is much more severe than that associated with lethal recessive alleles. d) Less is known about lethal dominant disorders, so the rareness of these alleles is an artifact due to a lack of detection.
a) Lethal dominant alleles are harmful whether they are carried in homozygous or heterozygous form, so there is always strong selection against these alleles.
What is meant by the statement that "male bees are fatherless"? a) Male bees develop from unfertilized eggs. b) Male bees don't play a role in the rearing of bee young. c) Male bees are produced by budding. d) The queen bee's mate dies before the male eggs hatch
a) Male bees develop from unfertilized eggs.
The chromosomes line up in the center of the cell during which phase of mitosis? a) Metaphase b) Anaphase c) Prophase d) Interphase e) Telophase
a) Metaphase
How was the hepatitis B vaccine produced? a) Microorganisms were genetically engineered to produce hepatitis B proteins. b) Scientists injected animals with the hepatitis B virus and then harvested their antibodies. c) Animals, particularly mammals such as goats, were genetically engineered to produce hepatitis B proteins. d) A harmless variant, a natural mutant, was used to stimulate an immune response.
a) Microorganisms were genetically engineered to produce hepatitis B proteins.
Plants are being engineered to produce their own insecticides; therefore, __________. a) farmers can reduce chemical use b) the plants will require fewer nutrients c) the nutritional value of the plants will improve d) the plants provide humans who consume them with the same resistance
a) farmers can reduce chemical use
Which of the following statements regarding cancer risk factors is false? a) Mutagens are usually not carcinogens. b) Factors that alter DNA and make cells cancerous are called carcinogens. c) Eating 20-30 grams of plant fiber daily and reducing the intake of animal fat can reduce your risk of developing colon cancer. d) X-rays and ultraviolet radiation are two of the most potent carcinogens.
a) Mutagens are usually not carcinogens.
Which of the following statements about viruses is FALSE? a) People can get colds and flus again because the viruses are constantly mutating. b) If a virus mutates, the immune system may not recognize the virus. c) Vaccines are available to prevent several diseases caused by viruses. d) The widespread use of antibiotics has led to resistant strains of viruses.
a) People can get colds and flus again because the viruses are constantly mutating.
Within one chromosome, what is the relationship between the sequence of bases in DNA of one sister chromatid compared to the other? a) The sequences are identical. b) The sequence in one chromatid is complementary to the sequence in the other. c) The sequences are similar, but not identical. d) The sequences are unrelated.
a) The sequences are identical.
Genetically modified organisms include microbes used in biotechnology that possess enzymes promoting antibiotic resistance. This could be a problem given the rise of antibiotic-resistant organisms. However, these engineered microorganisms do not pose a risk to public health. What do you think prevents them from spreading antibiotic resistance to pathogens outside the laboratory? a) These microbes have been designed so that conditions outside the laboratory would be unfavorable to their survival. b) Humans contain enzymes that would disable these microbes. c) Scientists will never remove these organisms from the laboratory. d) These organisms would not transfer antibiotic resistance to pathogens if they were to come into contact with these by mistake.
a) These microbes have been designed so that conditions outside the laboratory would be unfavorable to their survival.
Alternative RNA splicing has revealed inaccuracies in the one gene-one polypeptide hypothesis. Why? a) Transcription of the same gene can lead to the production of different mRNAs and therefore different proteins. b) It really should be the one intron: one polypeptide hypothesis c) .It shows that it takes more than one gene to code for most polypeptides. d) It really should be the one exon: one polypeptide hypothesis.
a) Transcription of the same gene can lead to the production of different mRNAs and therefore different proteins.
Although in humans there are 22 pairs of autosomal chromosomes, only three different chromosomal trisomies are commonly seen in newborns. Of the remaining 19 autosomes, many trisomies have not been seen in newborns. Why not? a) Trisomy for the other autosomal chromosomes is often lethal, and the affected embryos are miscarried. b) These autosomal chromosomes do not contain the same type of DNA or protein that makes up chromosomes susceptible to trisomy. c) Trisomy for these other autosomal chromosomes occurs so rarely that it has never been documented. d) Trisomy for these autosomal chromosomes has no effect and therefore would never be noticed.
a) Trisomy for the other autosomal chromosomes is often lethal, and the affected embryos are miscarried.
You are a medical student and are reviewing a case study about a past patient. The patient was 4 feet 8 inches tall at age 38, was unable to have children, and had cognitive impairments. The patient also had an irregular number of chromosomes. What diagnosis would you give the patient? a) Turner syndrome b) chronic myelogenous leukemia c) Klinefelter syndrome d) Down syndrome
a) Turner syndrome
Anhydrotic dysplasia is a genetic disorder in humans that results in the absence of sweat glands in the skin. Some men have this defect all over their bodies, but in women it is usually expressed in a peculiar way. Women with this disorder typically have small patches of skin with sweat glands and other patches without sweat glands. This pattern of sweat-gland distribution can be explained by __________. a) X chromosome inactivation b) a homeotic gene c) a mutation d) alternative RNA splicing
a) X chromosome inactivation
The stage of mitosis during which the chromosomes move toward separate poles of the cell is _____. a) anaphase b) metaphase c) cytokinesis d) telophase
a) anaphase
During the replication of DNA molecules, __________. a) both strands of the parent molecule act as templates b) the cell undergoes mitosis c) only one strand of the parent molecule acts as a template d) errors never occur
a) both strands of the parent molecule act as templates
How is sex determined in most ants and bees? a) by the number of chromosomes b) by the Z-W system c) by the size of the sex chromosome d) by the X-Y system
a) by the number of chromosomes
Karyotyping a) can reveal alterations in chromosome number. b) reveals the presence of cancerous genes. c) shows chromosomes as they appear in metaphase of meiosis II. d) examines points of crossing over.
a) can reveal alterations in chromosome number.
Which of the following occurs during interphase? a) cell growth and duplication of the chromosomes b) a reduction in the size of the nuclear membrane c) cytokinesis d) separation of newly formed DNA to opposite ends of the cell
a) cell growth and duplication of the chromosomes
The presence of AB blood type illustrates the principle of a) codominance. b) pleiotropy. c) incomplete dominance. d) polygenic inheritance.
a) codominance.
As a patch of scraped skin heals, the cells fill in the injured area but do not grow beyond that. This is an example of a) density-dependent inhibition. b) growth factor inhibition. c) anchorage independence. d) density-independent inhibition.
a) density-dependent inhibition.
In bacterial cells, binary fission involves __________. a) distribution of a copy of the single parental chromosome to each daughter cell b) disintegration of the nuclear membrane c) formation of a cell plate d) prophase, metaphase, anaphase, and telophase
a) distribution of a copy of the single parental chromosome to each daughter cell
The 2009 H1N1 flu virus a) evolved through the genetic reshuffling of viruses that infect humans, birds, and pigs. b) was spread by mosquitoes. c) was an avian flu virus. d) killed over 50 million people worldwide.
a) evolved through the genetic reshuffling of viruses that infect humans, birds, and pigs.
Consider the photograph shown below. You can determine this is a plant cell rather than an animal cell because it has __________. a) formed a cell plate b) formed a cleavage furrow c) microtubules d) separated duplicated chromosomes during mitosis
a) formed a cell plate
Which of the following would be most likely to lead to cancer? a) generation of multiple copies of a proto-oncogene that promotes cell division and inactivation of a tumor-suppressor gene b) generation of multiple copies of a proto-oncogene that promotes cell division and activation of a tumor-suppressor gene c) failure of both a proto-oncogene that promotes cell division and a tumor-suppressor gene to produce proteins d) failure of a proto-oncogene that promotes cell division to produce a protein and generation of multiple copies of a tumor-suppressor gene
a) generation of multiple copies of a proto-oncogene that promotes cell division and inactivation of a tumor-suppressor gene
During prophase I of meiosis, a) homologous chromosomes stick together in pairs. b) there are two daughter cells, each with 23 chromosomes. c) chromosome pairs are positioned in the middle of the cell. d) the homologous chromosomes separate and move towards opposite poles. e) there are four haploid daughter cells.
a) homologous chromosomes stick together in pairs.
The advantage of being able to clone the gene for human insulin is that a) human insulin is less likely to cause harmful side effects than cow, pig, or horse insulin. b) cow, pig, or horse insulin cannot keep a diabetic alive for more than 3 months. c) there are too few cows, pigs, and horses to provide an adequate supply of their insulin. d) using human insulin increases the probability that, in the future, the person suffering from diabetes can be weaned from a dependence on insulin.
a) human insulin is less likely to cause harmful side effects than cow, pig, or horse insulin.
Which of the following is an example of incomplete dominance in humans? a) hypercholesterolemia b) albinism c) ABO blood groups d) skin color
a) hypercholesterolemia
Eukaryotic cells spend most of their cell cycle in which phase? a) interphase b) metaphase c) prophase d) telophase
a) interphase
The regions of noncoding DNA shown below that separate the coding regions within a gene are called __________. a) introns b) transcription factors c) exons d) redundant coding sections
a) introns
Sex-linked conditions are more common in men than in women because a) men need to inherit only one copy of the recessive allele for the condition to be fully expressed. b) most genes associated with the sex-linked conditions are linked to the Y chromosome, which determines maleness. c) men acquire two copies of the defective gene during fertilization. d) the sex chromosomes are more active in men than in women.
a) men need to inherit only one copy of the recessive allele for the condition to be fully expressed.
The lac operon in Escherichia coli a) prevents lactose-utilizing enzymes from being expressed when lactose is absent from the environment. b) promotes the expression of lactose-utilizing enzymes when lactose is absent from the environment. c) prevents lactose intolerance. d) prevents lactose-utilizing enzymes from being expressed when lactose is present in the environment.
a) prevents lactose-utilizing enzymes from being expressed when lactose is absent from the environment.
The term gene expression refers to the a) process by which genetic information flows from genes to proteins. b) flow of information from parent to offspring c) .fact that each individual of a species has a unique set of genes. d) fact that individuals of the same species have different phenotypes.
a) process by which genetic information flows from genes to proteins.
Cancer of the colon is caused by a) several somatic cell gene mutations b) .a single somatic cell gene mutation c) .a physical rupture of the colon. d) a diet high in fiber and low in fat.
a) several somatic cell gene mutations
The genetic material is duplicated during a) the S phase. b) G2. c) the mitotic phase. d) G1.
a) the S phase.
Imagine that we mate two black Labrador dogs with normal vision and find that three of the puppies are like the parents, but one puppy is chocolate with normal vision and another is black with PRA (progressive retinal atrophy, a serious disease of vision). We can conclude that a) the alleles for color and vision segregate independently during gamete formation. b) the same alleles that control coat color can also cause PRA. c) both of the parents are homozygous for both traits. d) the alleles for color and vision segregate dependently during gamete formation.
a) the alleles for color and vision segregate independently during gamete formation.
The "one gene-one enzyme" hypothesis states that a) the function of an individual gene is to dictate the production of a specific polypeptide. b) the function of each polypeptide is to regulate the synthesis of each corresponding gene. c) the synthesis of each gene is catalyzed by one specific enzyme. d) the synthesis of each enzyme is catalyzed by one specific gene.
a) the function of an individual gene is to dictate the production of a specific polypeptide.
Regulatory proteins bind to _____. a) the operator b) the lactose-utilization genes c) the regulatory gene d) RNA polymerase e) transcription factors
a) the operator
If protein production were an assembly line, a ribosome would be _____. a) the worker who puts all of the pieces together b) the machines that move pieces to their appropriate locations c) the foreman who barks out instructions d) a loose piece that needs to be put together
a) the worker who puts all of the pieces together
Meiosis I produces _____ cells, each of which is _____. a) two ... haploid b) two... identical to the other c) four ... haploid d) four ... diploid e) two... diploid
a) two ... haploid
Life on Mars is finally discovered and a new organism that has six different nucleotides that encode 30 different amino acids is found on this planet. Which of the following nucleotide combinations would encode the minimum number of amino acids needed in this organism? a) two-nucleotide sequence (6^2 combinations) b) one-nucleotide sequence (6^1 combinations) c) four-nucleotide sequence (6^4 combinations) d) three-nucleotide sequence (6^3 combinations)
a) two-nucleotide sequence (6^2 combinations)
Which of the following is only associated with RNA? a) uracil b) thymine c) deoxyribose d) adenine
a) uracil
The carcinogen known to cause the most cases and types of cancer is a) ultraviolet light b) .tobacco. c) X-rays. d) alcohol.
b) .tobacco.
If one parent is blood type AB and the other is type O, what fraction of their offspring is expected to have blood type A? a) 0 b) 0.5 c) 0.75 d) 1.0
b) 0.5
Normal human gametes carry _____ chromosomes. a) 23 pairs of b) 23 c) 5 d) 46 pairs of e) 46
b) 23
On average, what percentage of infants born to 45-year-old mothers have Down syndrome? a) 1% b) 3% c) 8% d) 10% e) 30%
b) 3%
The direction of synthesis of an RNA transcript is _____. a) 1' —> 5' b) 5' —> 3' c) 1' —> 3' d) 3' —> 5' e) 2' —> 4'
b) 5' —> 3'
What is the difference between a benign tumor and a malignant tumor? a) Benign tumors are a mass of essentially abnormal cells; malignant tumors are an abnormal mass of essentially normal cells. b) Benign tumors do not metastasize; malignant tumors do. c) Benign tumors metastasize; malignant tumors do not. d) Benign tumors will not kill you; malignant tumors will.
b) Benign tumors do not metastasize; malignant tumors do.
During meiosis I, homologous chromosomes form a tetrad and crossing over occurs. What is the outcome of crossing over? a) Crossing over creates new combinations of chromosomes through their independent alignment across the metaphase plate. b) Crossing over creates new combinations of genes present on a single chromosome. c) Crossing over ultimately reduces the number of chromatids per chromosome. d) Crossing over reduces the number of chromosomes present in the cell.
b) Crossing over creates new combinations of genes present on a single chromosome.
What is the preferred name of the technique used to determine if DNA comes from a particular individual? a) DNA technology b) DNA profiling c) DNA microarrays
b) DNA profiling
Which of these is classified as an emerging virus that can have a direct impact on human health? a) lambda b) Ebola c) tobacco mosaic virus d) pneumonia
b) Ebola
True or false. Mitosis takes place during M phase of the cell cycle, which is longer than interphase. a) True b) False
b) False
Which is a genetically modified organism but not a transgenic organism? a) Golden Rice (rice that expresses daffodil and bacteria beta-carotene synthesis enzymes) b) Flavr Savr peaches (peaches that express larger quantities of a peach stability enzyme) c) AquAdvantage salmon (Atlantic salmon that expresses Chinook salmon growth hormone) d) Roundup Ready soybeans (soybeans that express bacterial pesticide enzymes)
b) Flavr Savr peaches (peaches that express larger quantities of a peach stability enzyme)
Trisomy for most autosomes is fatal, yet trisomy or even tetrasomy (four copies) of the X chromosome is not. What is the explanation for this difference? a) The X chromosome does not carry any genes. b) Only one copy of the X chromosome is functional within any given cell, regardless of the total number of X chromosomes. c) There is a mechanism to keep only two X chromosomes functional, regardless of the total number. d) The number of X chromosomes is always balanced by the number of Y chromosomes.
b) Only one copy of the X chromosome is functional within any given cell, regardless of the total number of X chromosomes.
Imagine a particular character (such as flower color) that is determined by a single gene. If this gene is present in two forms, how can you tell which allele is dominant and which is recessive? a) Perform a cross between two true-breeding individuals and observe the trait or traits expressed by the F2 individuals. b) Perform a cross between two true-breeding individuals and observe the trait or traits expressed by the F1 individuals. c) The trait that is most common in the population is the one determined by the dominant allele. d) Cross one of the F1 individuals to either of the parents and observe the trait or traits expressed by their offspring.
b) Perform a cross between two true-breeding individuals and observe the trait or traits expressed by the F1 individuals.
The centrosomes move away from each other and the nuclear envelope breaks up during which phase of mitosis? a) Telophase b) Prophase c) Anaphase d) Metaphase e) Interphase
b) Prophase
What controls the way in which a zygote differentiates? a) All the genes that will be expressed in the adult are made in the zygote. b) Selective genes are turned on and off, depending on the fate of the cell. c) Operons mature and control gene expression. d) The DNA of genes that will not be expressed is degraded.
b) Selective genes are turned on and off, depending on the fate of the cell.
What must happen before a cell can begin mitosis? a) The nucleus must divide in two. b) The chromosomes must be duplicated. c) A mitotic spindle must form. d) The sister chromatids must be separated. e) The nuclear envelope must break up.
b) The chromosomes must be duplicated.
Imagine you're counseling a couple who have undergone carrier screening for Tay-Sachs disease. The man is a carrier, and the woman does not carry the Tay-Sachs allele. How should you advise them? a) They should be informed that if they have a child, there is a 25% chance that the child will have Tay-Sachs disease. b) They should be informed that if they have a child, the child will not have Tay-Sachs disease but will have a 50% chance of being a carrier of the Tay-Sachs allele. c) They should be informed that if they have a child, there is a 50% chance that the child will have Tay-Sachs disease. d) They should be informed that if they conceive a child, the child will have Tay-Sachs disease.
b) They should be informed that if they have a child, the child will not have Tay-Sachs disease but will have a 50% chance of being a carrier of the Tay-Sachs allele.
Which of the following indicates Turner syndrome? a) XXY b) XO c) XYY d) XXX
b) XO
Suppose you were in charge of sending an unmanned space probe to a new planet in search of life. The probe would be able to collect and test samples and make observations, but the planet is too far away for the probe to be able to bring samples back to Earth. The probe is small and would only be able to run a few tests, so you want to pick a test for evidence of life that is broad enough to incorporate all forms of life as we know it. Which one of the following tests would be the best to use in this situation? a) a test for the presence of things that change size quickly, since it would be an indication of growth and development b) a test for the presence of cells that contain DNA c) a test for the presence of large organisms capable of movement d) a test for the presence of soil suitable for growing plants
b) a test for the presence of cells that contain DNA
Emerging viruses that infect human cells can originate from __________. a) a rapidly mutating lytic phage b) a virus spreading from one host species to humans c) lack of hygiene d) lambda viruses that were previously confined to bacterial populations that can now spread due to technological changes
b) a virus spreading from one host species to humans
Golden Rice is golden in color because it is rich in a) vitamin A. b) beta-carotene. c) vitamin C.
b) beta-carotene.
A phenotypic ratio of 9:3:3:1 in the offspring of a cross indicates that _____. a) one parent is heterozygous and one parent is homozygous recessive b) both parents are heterozygous for both genes c) both parents are homozygous dominant d) one parent is homozygous dominant and one parent is homozygous recessive e) one parent is homozygous dominant and one parent is heterozygous
b) both parents are heterozygous for both genes
Embryonic stem cells differ from adult stem cells because they __________. a) are capable of many cell divisions b) can differentiate into all cell types c) can differentiate into many cell types d) are capable of being fertilized
b) can differentiate into all cell types
Ultraviolet (UV) radiation is damaging because it __________. a) deactivates the enzymes needed for DNA replication b) causes mutations in DNA c) prevents DNA transcription d) prevents DNA translation
b) causes mutations in DNA
A transgenic animal is an animal a) in which a genetic defect has been corrected using recombinant DNA therapy. b) containing a gene from another organism, typically of another species. c) that is the first of its kind to bear a particular allele. d) containing genes from three or more species.
b) containing a gene from another organism, typically of another species.
The process by which the cytoplasm of a eukaryotic cell divides to produce two cells is called a) binary fission. b) cytokinesis. c) telophase. d) mitosis.
b) cytokinesis.
Mendel's law of independent assortment states that a) genes are sorted concurrently during gamete formation. b) each pair of alleles (chromosomes) segregates independently of the other pairs of alleles during gamete formation. c) independent sorting of genes produces polyploid plants under some circumstances. d) chromosomes sort independently of each other during mitosis and meiosis.
b) each pair of alleles (chromosomes) segregates independently of the other pairs of alleles during gamete formation.
The coding regions of a gene are called a) promoters. b) exons. c) enhancers. d) introns.
b) exons.
The function of meiosis is to make __________. a) exact copies of the parent cell b) four cells with a haploid number of chromosomes c) one cell with twice the number of chromosomes as the parent cell d) four cells with the same chromosome number as the parent cell
b) four cells with a haploid number of chromosomes
Human growth hormone is a secreted protein that stimulates growth and cell reproduction. In the 1960s it was discovered that this was an effective treatment for a form of dwarfism. However, before it was genetically engineered, it was _____. a) substituted with similar animal proteins b) harvested from cadavers c) synthesized chemically d) not available
b) harvested from cadavers
Two identical twins are raised in different environments. They possess _____ genotypes and _____ phenotypes. a) contrasting ... identical b) identical ... variable c) identical ... dissimilar d) identical ... identical
b) identical ... variable
During which phase of mitosis do the chromosomes line up on a plane equidistant from the two spindle poles? a) prophase b) metaphase c) anaphase d) telophase
b) metaphase
Many useful products, mainly for medical purposes, are produced by cloning human genes into other organisms, which then mass-produce these compounds. Which of the following organisms has NOT been used to mass-produce pharmaceutical compounds used to treat human diseases? a) goats b) mice c) Saccharomyces cerevisiae d) Escherichia coli
b) mice
In the presence of a regulatory protein the lac operon is _____. a) transcribed b) not transcribed c) transcribed at a faster than usual rate d) is turned on e) either transcribed or not transcribe
b) not transcribed
The monomers of DNA and RNA are a) fatty acids. b) nucleotides. c) monosaccharides. d) nucleic acids.
b) nucleotides.
During meiosis, segments of nonsister chromatids can trade places. This recombination of maternal and paternal genetic material is a key feature of meiosis. During what phase of meiosis does recombination occur? a) telophase I. b) prophase I. c) Metaphase I d) meiosis II. e) anaphase I.
b) prophase I.
One version of a gene may encode __________, whereas a different version of the same gene may encode __________. a) white eyes; brown coat b) red eyes; white eyes c) white eyes; white coat d) red eyes; white coat
b) red eyes; white eyes
The tortoiseshell pattern on a cat a) is a result of alleles on the Y chromosome. b) results from X chromosome inactivation. c) is the result of a homozygous recessive condition. d) usually occurs in males.
b) results from X chromosome inactivation.
A vaccine works by a) preventing the translation of mRNA. b) stimulating the immune system. c) inhibiting viral replication d) .inhibiting bacterial replication.
b) stimulating the immune system.
Maternal inheritance patterns from generation to generation cannot be analyzed by simply studying the X chromosome in the way that paternal inheritance patterns can follow the Y chromosome because a) one X chromosome is deactivated in females. b) the X chromosome is obtained from both the father and the mother. c) the X chromosome is too large to analyze effectively. d) the X chromosome sometimes exchanges genetic information with the Y chromosome.
b) the X chromosome is obtained from both the father and the mother.
The chromosome theory of inheritance states that 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.
b) the behavior of chromosomes during meiosis and fertilization accounts for patterns of inheritance.
Hemophilia appears rarely in females. This is because __________. a) it only affects females with two X chromosomes b) the female must possess the hemophilia allele on both X chromosomes c) the female must possess the hemophilia allele on one X chromosome d) it only affects males because they have only one X chromosome
b) the female must possess the hemophilia allele on both X chromosomes
In frogs, when the nucleus of an intestinal cell of a tadpole is transferred to an egg whose nucleus has been removed (nuclear transplantation), some of the eggs will develop into normal tadpoles. This demonstrates that _____. a) frogs have adult stem cells b) these cells have retained all of their genetic potential c) these cells could not dedifferentiate d) intestinal cells are not differentiated
b) these cells have retained all of their genetic potential
The directions for each amino acid in a polypeptide are indicated by a codon that consists of ________ nucleotides in an RNA molecule. a) two b) three c) four d) five
b) three
Varieties of plants in which self-fertilization produces offspring that are identical to the parents are referred to as a) the F2 generation. b) true-breeding. c) hybrids. d) monohybrid crosses.
b) true-breeding.
A cleavage furrow forms in an animal cell during _____. a) anaphase b) G1 phase c) cytokinesis d) metaphase
c) cytokinesis
The Y chromosomes of mammals contain genes that code for _____. a) blood-clotting factor, among many other characters b) eye pigment, among many other characters c) "maleness" and a few other characteristics b) both eye pigment and blood-clotting factor, among many other characters
c) "maleness" and a few other characteristics
Justin has type A blood and his wife Brittany has type B blood. Justin's parents both have type AB blood, and Brittany's parents also both have type AB blood. What are the chances that Justin and Brittany's son Theodore has type A blood? a) 75% b) 25% c) 0% d) 100%
c) 0%
In a standard monohybrid cross between purple-flowered and white-flowered peas, in which purple flowers are dominant, what fraction of the purple-flowered peas in the F2 generation would you expect to be true-breeding? a) 1/16 b) 1/4 c) 1/3 d) 1/2
c) 1/3
A diploid organism whose somatic (nonsex) cells each contain 32 chromosomes produces gametes containing _____ chromosomes. a) 30 b) 8 c) 16 d) 32 e) 64
c) 16
How many pairs of autosomes do humans have? a) 1 b) 2 c) 22 d) 23
c) 22
A certain species of animal has six pairs of chromosomes. How many DNA molecules are present in the nuclei of these animals during G2 phase? a) 6 b) 12 c) 24 d) 48
c) 24
A human somatic cell contains __________ chromosomes. a) 2n b) 23 c) 46 d) 47
c) 46
Snapdragons show incomplete dominance in their flowers. A pink snapdragon is crossed with a red snapdragon. What color(s) are the offspring? a) 100% red b) 100% pink c) 50% red, 50% pink d) 50% red, 50% white
c) 50% red, 50% pink
________ marks the end of a gene and causes transcription to stop. a) A stop codon b) Methionine c) A terminator d) RNA ligase
c) A terminator
A gene made of __________ is transcribed into __________ and then translated to form a __________. a) RNA ... DNA ... protein b) protein ... RNA ... DNA c) DNA ... RNA ... protein d) DNA ... protein ... RNA
c) DNA ... RNA ... protein
Which of the following statements about DNA technology is false? a) DNA technology is now used to mass-produce human growth hormone. b) DNA technology is now used to mass-produce human insulin. c) DNA technology is now used to create cells that can identify and kill cancer cells. d) DNA technology is now used to produce vaccines that are harmless mutants of a pathogen.
c) DNA technology is now used to create cells that can identify and kill cancer cells.
If one strand of DNA is CGGTAC, then the complementary strand would be a) TAACGT. b) GCCAUC. c) GCCATG. d) GCCTAG.
c) GCCATG.
If independent assortment did not occur, which of the following would be true? a) Meiosis II would not be required to produce gametes, as meiosis I would be sufficient. b) A dihybrid cross of heterozygous individuals would yield four different phenotypes. c) Genes for two different traits would be inherited together as a pair. d) Each sperm and egg would carry more than one allele for a specific gene.
c) Genes for two different traits would be inherited together as a pair.
Why is ionizing radiation damaging to cells? a) It causes the molecules within the cells to melt together in a compacted lump. b) It causes the cells to melt and bind to one other. c) It knocks the electrons from the cell's molecules, forming ions and breaking bonds. d) It causes the water in the cells to boil.
c) It knocks the electrons from the cell's molecules, forming ions and breaking bonds.
Which of the following statements regarding genetic testing is false? a) Genetic testing before birth requires the collection of fetal cells. b) The screening of newborns can catch inherited disorders right after birth. c) Most human genetic diseases are treatable if caught early. d) Carrier testing helps determine whether a person carries a potentially harmful disorder.
c) Most human genetic diseases are treatable if caught early.
Which of the following statements best describes cancer cells? a) Proto-oncogenes control their cell division. b) They are more highly differentiated than normal cells. c) Normal controls over cell division have been altered. d) They will divide 20 to 50 times and then stop.
c) Normal controls over cell division have been altered.
The chromosomes arrive at the poles and nuclear envelopes form during which phase of mitosis? a) Prophase b) Anaphase c) Telophase d) Interphase e) Metaphase
c) Telophase
Why do you think that adult stem cells are found in bone marrow and the lining of the small intestine specifically? a) This is a mystery that must be solved before use of adult stem cells is possible. b) Cell division must occur in these areas indefinitely. c) These cells must be able to regenerate various types of cells throughout life. d) These are the first tissues to develop in an embryo.
c) These cells must be able to regenerate various types of cells throughout life.
It is possible for a cell to make proteins that last for months; for example, hemoglobin in red blood cells. However, many proteins are short-lived and may be degraded in days or even hours. Why do cells make proteins with such a short life? a) Most cells in the body live only a few days b) .Most proteins are used only once. c) This enables cells to control the amount of protein present. d) Only cancer cells, which can keep dividing, contain long-lasting proteins.
c) This enables cells to control the amount of protein present.
The sex chromosome complement of a normal human female is a) YY. b) XY. c) XX. d) XO.
c) XX.
Which of the following can be found in bacteria, but not viruses? a) proteins b) nucleic acids c) a cell membrane d) genetic material
c) a cell membrane
Huntington's disease is an example of a genetic disorder caused by __________. a) a nonlethal dominant allele b) homozygous recessive alleles c) a late-acting lethal dominant allele d) a late-acting recessive allele
c) a late-acting lethal dominant allele
Proto-oncogenes have the potential to become oncogenes. Which of the following is most likely to lead to cancer? a) a mutation in a gamete b) a viral infection c) a mutation that causes the proto-oncogene to become overactive b) a tissue injury
c) a mutation that causes the proto-oncogene to become overactive
Consider the photograph of a karyotype. This is _____. a) a means of determining a person's phenotype b) an individual's physical traits c) a photograph of all a person's chromosomes d) all the possible gametes a person could produce
c) a photograph of all a person's chromosomes
Which of the following would be considered a transgenic organism? a) a human given a corrected human blood-clotting gene b) a fern grown in cell culture from a single fern root cell c) a rat with rabbit hemoglobin genes d) a bacterium that has received genes via conjugation
c) a rat with rabbit hemoglobin genes
The shape of a DNA molecule is most like a) a set of railroad tracks b) .beads on a string c) a twisted rope ladder. d) a wooden ladder.
c) a twisted rope ladder.
Many of the first responders at the Chernobyl accident died within hours or days of working at the explosion site. What were they most likely to die from, and why? a) cancer due to toxins in the soil b) smoke inhalation from battling the fires on the roof of the reactor building c) acute radiation sickness due to exposure to ionizing radiation d) injuries caused by projectiles from the explosion
c) acute radiation sickness due to exposure to ionizing radiation
Which of these is NOT a carcinogen? a) UV light b) testosterone c) cigarette smoke d) fat c) all of the above are carcinogens
c) all of the above are carcinogens
Cloning experiments with differentiated root cells from carrots revealed that __________. a) a cell from root tissue will grow new root tissue b) once cells differentiate, they can only express a specific combination of genes c) an entire plant can grow from a differentiated cell d) an entire plant can grow from an undifferentiated cell
c) an entire plant can grow from a differentiated cell
Linked genes are inherited together. This is because linked genes _____. a) have the same alleles residing on them b) govern traits that have nothing to do with one another c) are on the same chromosome d) govern traits (such as hair texture and hair color) that are functionally related
c) are on the same chromosome
In female mammals, the inactive X chromosome in each cell a) is broken down, and its nucleotides are degraded and reused. b) can be activated if mutations occur in the active X chromosome. c) becomes a Barr body. d) is absorbed and used in energy production.
c) becomes a Barr body.
Golden rice has been genetically engineered. Golden rice differs from other rice varieties because it contains genes that will produce _____. a) vitamin D b) pesticide resistance c) beta-carotene d) herbicide resistance
c) beta-carotene
Asexual and sexual reproduction differ in that sexual reproduction _____. a) will produce offspring identical to the parents b) is the only way multicellular organisms can reproduce c) can produce great variation among the offspring d) is the only way single-celled organisms can reproduce
c) can produce great variation among the offspring
Which of the following have NOT already been done by scientists? a) genetic engineering to create sheep that produce pharmaceuticals in their milk b) gene therapy that uses a virus to deliver healthy genes into the cells of sick patients c) cloning of a dinosaur from genes found in the blood of a fossil mosquito d) fertilization of a human egg in a petri dish, called in vitro fertilization e) cloning of mammals, such as sheep, cows, horses, and dogs
c) cloning of a dinosaur from genes found in the blood of a fossil mosquito
MicroRNA (miRNA) functions by binding to __________ and blocking translation. a) tRNA molecules b) the ribosome c) complementary mRNA sequences d) introns
c) complementary mRNA sequences
Meiosis differs from mitosis in that _____ only occurs in meiosis. a) cytokinesis b) the formation of a spindle c) crossing over d) the fragmentation of the nuclear envelope
c) crossing over
The mechanism that "breaks" the linkage between linked genes is a) codominance. b) independent assortment. c) crossing over. d) pleiotropy.
c) crossing over.
Which of the following is a feature of plant cell division that distinguishes it from animal cell division? a) production of four (rather than two) new cells per mitotic division b) lack of cytokinesis c) formation of a cell plate d) formation of a cleavage furrow
c) formation of a cell plate
Meiosis II typically produces _____ cells, each of which is _____. a) two... diploid b) two ... haploid c) four ... haploid d) four ... diploid e) four ... identical to the other
c) four ... haploid
Any change in the nucleotide sequence of DNA is called a a) mutation. b) base substitution. c) frameshift.
c) frameshift.
Clones are derived _____. a) from a single gamete b) from the offspring of a genetically pure individual c) from a single ancestor cell d) using recombinant DNA
c) from a single ancestor cell
Genetically modifying ________ cells may directly affect future generations. a) somatic b) bone marrow c) gamete-forming d) skin
c) gamete-forming
Two chromosomes in a nucleus that carry genes controlling the same inherited characteristics are a) complementary chromosomes. b) sister chromatids. c) homologous chromosomes.
c) homologous chromosomes.
HIV and phage lambda both __________. a) use reverse transcriptase to replicate b) derive their viral envelopes from the host's cell membrane c) integrate their DNA into the host's chromosome d) have an RNA genome
c) integrate their DNA into the host's chromosome
Colonoscopy is the examination of the large colon. It allows for visual diagnosis of ulcers and polyps, which may lead to colon cancer. A polyp _____. a) is a malignant tumor b) is likely to form after one exposure to a carcinogen c) is a cluster of abnormal cells d) causes mutations that lead to colon cancer
c) is a cluster of abnormal cells
When we say that an organism is haploid, we mean that _____. a) its cells each have two sets of chromosomes b) Its cells have one half of a chromosome c) its cells each have one set of chromosomesi d) ts cells each have one chromosome
c) its cells each have one set of chromosomesi
In humans, the cancer responsible for the greatest number of deaths annually is __________. a) prostate cancer b) colon cancer c) lung cancer d) breast cancer
c) lung cancer
Variation occurs when chromosomes are shuffled in _____. a) genetic drift b) mitosis c) meiosis d) mutation
c) meiosis
Mr. and Mrs. Smith have three sons in elementary school. Two of their children are progressing normally, but their youngest son, Charles, has been much slower than his siblings in developing speech and language skills. His parents are concerned that he has a learning disability and decide to investigate further. Since some learning disabilities can be genetically based, their pediatrician recommends a chromosomal analysis.The results show that Charles has a trisomy of the sex chromosomes, diagnosed as XYY. A mistake during sperm formation resulted in an extra copy of the Y chromosome. The extra copy was passed on to Charles during fertilization. Most often, this chromosomal change causes no unusual physical features or medical problems, but those with trisomy of the sex chromosomes may have a higher-than-normal risk of delays in learning development.The problem that occurred during meiosis in sperm formation was a) an inversion of the X chromosome, preventing the pairing of sex chromosomes. b) failure of the second meiotic division to take place. c) nondisjunction involving a Y chromosome. d) formation of diploid sperm.
c) nondisjunction involving a Y chromosome.
The production of genetically identical animals that are carrying recombinant human genes for pharmaceutical purposes, for example using goats to produce antithrombin, is called a __________. a) transformation b) recombination c) pharm d) transplant
c) pharm
Consider the following sequence and explain what effect the mutation has on the protein that is translated.UCUAUGUUUCACAGAGGGAAACCCUAACCC (wild type)UCUAUGUUUCACUGAGGGAAACCCUAACCC (mutant) a) complete change in amino acid sequence after the mutation b) single amino acid change c) prematurely stops the translation of the protein d) no effect
c) prematurely stops the translation of the protein
Which of these is NOT a component of the lac operon? a) lactose-utilization genes only b) promoter only c) regulatory gene only d) operator only e) promoter and operator
c) regulatory gene only
DNA replication occurs at an unbelievably fast rate. Once replication is complete, we can expect to find a _____ number of mistakes a) average b) large c) small
c) small
Stem cells could be immensely important in the treatment of which of the following conditions in the near future? a) loss of a limb b) lung cancer c) spinal cord injuries d) hardened arteries
c) spinal cord injuries
Which of the following takes place during translation? a) the conversion of genetic information from the language of proteins to the language of enzymes b) the conversion of genetic information from DNA nucleotides into RNA nucleotides c) the conversion of genetic information from the language of nucleic acids to the language of proteins
c) the conversion of genetic information from the language of nucleic acids to the language of proteins
Cystic fibrosis is inherited in an autosomal recessive pattern. Males who have cystic fibrosis are usually sterile. Furthermore, the disease is often lethal before the age of reproduction. Even though people with the disease rarely reproduce, cases continue to arise because __________. a) people continue to make inappropriate lifestyle choices b) mosquitoes can transfer the disease from person to person c) the harmful allele "hides" inside heterozygous individuals and one-fourth of the offspring of two heterozygotes should be afflicted d) new mutations continually introduce this harmful condition into the population
c) the harmful allele "hides" inside heterozygous individuals and one-fourth of the offspring of two heterozygotes should be afflicted
In order for gene therapy to be permanent in the patient being treated, a) the normal gene must first be treated with UV radiation to ensure noninfectivity. b) the defective gene must first be removed from all somatic cells. c) the normal gene must be transferred to somatic cells that can continuously multiply. d) the normal gene must be added to the germ line cells.
c) the normal gene must be transferred to somatic cells that can continuously multiply.
In people with sickle-cell disease, red blood cells break down, clump, and clog blood vessels. Blood vessels and broken cells accumulate in the spleen. Among other symptoms, this leads to physical weakness, heart failure, pain, and brain damage. Such a suite of symptoms can be explained by __________. a) the polygenic nature of sickle-cell disease b) a bacterial infection interacting with the sickle-cell allele c) the pleiotropic effects of the sickle-cell allele d) side effects of the drugs used to treat sickle-cell disease
c) the pleiotropic effects of the sickle-cell allele
Two parents of mixed ethnicity have twins, one of which is born with very light skin and one of which is born with very dark skin. This is because of __________. a) the inheritance of two linked skin color genes b) the pleiotropic effects of skin color genes c) the polygenic nature of skin color genes d) exposure to sunlight
c) the polygenic nature of skin color genes
Concerns have been raised as to the safety of genetically modified organisms (GMOs). Which of the following would be a concern when modifying a plant to be resistant to a broad-spectrum herbicide? a) a decrease in food production b) a decrease in the use of herbicides c) the production of herbicide-resistant weeds d) an increased shelf life of the fruit from the plants
c) the production of herbicide-resistant weeds
Which possible use of reproductive cloning is still considered by most to be an unresolved ethical issue? a) the production of organs in cloned pigs for transplant into humans b) cloning mammals for the production of potentially valuable drugs c) the reproductive cloning of humans d) the production of genetically identical animals for experimentation
c) the reproductive cloning of humans
The relationship between DNA and histones is most like a) an egg yolk inside of an egg. b) a spoon cradling some peas. c) thread wrapped around a spool. d) the candy shell surrounding the chocolate in a piece of M&M candy
c) thread wrapped around a spool.
In humans, the agent responsible for the greatest number of cancers is _____. a) X-rays b) dietary fat c) tobacco d) UV radiation
c) tobacco
The transfer of genetic information from DNA to RNA is called a) initiation. b) translation. c) transcription. d) elongation.
c) transcription.
Which genetically modified organism has not been developed by genetic engineers (at least, not yet)? a) transgenic rice with genes for milk proteins b) transgenic salmon with a growth hormone gene that allows them to grow more quickly c) transgenic corn with the gene for human insulin d) transgenic pigs with a roundworm gene that allows them to make more omega-3 fatty acids
c) transgenic corn with the gene for human insulin
HIV does the greatest damage to a) nervous tissue. b) the adrenal glands. c) white blood cells. d) pancreatic cells.
c) white blood cells.
A cell preparing to undergo meiosis duplicates its chromosomes during a) prophase I. b) anaphase I. c) meiosis II d) .interphase. e) metaphase I.
d) .interphase.
A woman who is a carrier of hemophilia marries a man affected with hemophilia. What percentage of their sons and daughters is expected to have hemophilia? a) 0% of sons and 50% of daughters b) 50% of sons and 0% of daughters c) 100% of sons and 50% of daughters d) 50% of sons and 50% of daughters
d) 50% of sons and 50% of daughters
According to scientists, about what percentage of men currently living in Central Asia may be descended from the Mongolian ruler Genghis Khan? a) 40% b) 25% c) 4% d) 8%
d) 8%
In Labrador retrievers, a common breed of dog, black coat is dominant to chocolate, normal vision is dominant to progressive retinal atrophy (PRA), and normal hip joint is dominant to hip dysplasia. All these genes assort independently. Two dogs that are heterozygous for alleles of all three genes are crossed. Using rules of probability (not a Punnett square), what is the chance that the first pup born to these dogs will be chocolate, have normal vision, and have normal hip joints? a) 1/64 b) 1/16 c) 3/32 d) 9/64
d) 9/64
A human bone marrow cell in the prophase stage of mitosis contains 46 chromosomes. Therefore, there are a total of __________ sister chromatids in this cell. a) 23 b) 46 c) 23 or 46, depending on whether you look at the beginning or end of prophase d) 92
d) 92
Since the first animal was produced using a fully differentiated cell, a number of observations have been made. Which of the following statements is true in regard to reproductive cloning? a) Cloned animals possess chromatin structure identical to that of their parent animals. b) The sheep Dolly is the only mammal that has been successfully cloned. c) Cloned animals are physically identical when compared to their parents. d) Cloned animals often develop chronic conditions that are usually only associated with old age.
d) Cloned animals often develop chronic conditions that are usually only associated with old age.
What is the proper order of events in the expression of a eukaryotic protein? a) transcription, translation, addition of cap and tail to mRNA, DNA unpacking d) DNA unpacking, mRNA transport through nucleus, mRNA splicing, protein modification c) transcription, mRNA splicing, protein modification, translation d) DNA unpacking, mRNA splicing, translation, protein folding
d) DNA unpacking, mRNA splicing, translation, protein folding
Which of the following options best depicts the flow of information when a gene directs the synthesis of a cellular component? a) RNA → DNA → RNA → protein b) protein → RNA → DNA c) DNA → tRNA → mRNA → protein d) DNA → RNA → protein
d) DNA → RNA → protein
Two normal parents have three normal children: one son and two daughters. Their son and one of their daughters marry and also have normal children. Their second daughter, Mary, marries a man with a rare, recessive blood disorder. They have two children, and both children develop the blood disorder. What must be true of the genotypes of Mary's parents? a) Mary's parents were both homozygous for the trait. b) Her mother was heterozygous for the trait. c) Her father was heterozygous for the trait. d) Either one of her parents or both of her parents were heterozygous for the trait.
d) Either one of her parents or both of her parents were heterozygous for the trait.
During binary fission, each copy of the duplicating chromosome moves to opposite ends of the cell. What does this achieve? a) It ensures the formation of two complete nuclei around each of the chromosomes. b) It causes the cell to elongate. c) This keeps the separate chromosomes together. d) It ensures that each daughter cell receives one copy of the chromosome.
d) It ensures that each daughter cell receives one copy of the chromosome.
There is a mutation in the operator of the lac operon in a cell such that the lac repressor always stays bound to the operator. If lactose is added to the cell, what will happen? a) Lactose will not bind to the repressor, and lac enzymes will be produced. b) Lactose will bind to the operator, and lac enzymes will be produced. c) Lactose will bind to the repressor, and lac enzymes will be produced. d) Lactose will bind to the repressor, and lac enzymes will not be produced.
d) Lactose will bind to the repressor, and lac enzymes will not be produced.
Cystic fibrosis is a genetic disease that results from a defective CFTR protein that alters ion flow through the cell membrane such that water does not cross the cell membrane. Gene therapy is being used to attempt to help cystic fibrosis patients. Which of the following steps is not needed to develop a gene therapy treatment for cystic fibrosis? a) Remove cells from a patient and infect them with the recombinant virus. b) Clone the normal-functioning CFTR gene and make an RNA version of the gene. c) Insert the RNA version of the CFTR gene into a virus. d) Make antibodies to the defective CFTR protein to enhance the patient's immune system.
d) Make antibodies to the defective CFTR protein to enhance the patient's immune system.
In giraffes, long necks (N), long legs (L), dark spots (D), and the ability to digest maize (M) are all dominant traits. What possible genotype could a long-necked, short-legged, light-spotted, maize-digesting giraffe have? a) nnLLddMM b) NNllddmm c) NNLLDdMm d) NnllddMM
d) NnllddMM
Radiation is a frequent method of sterilization. It is effective because it causes damage to DNA. However, prions, the agents that cause diseases such as mad cow disease, are unaffected by these treatments because they lack DNA. What is the definition of a prion? a) Prions are small carbohydrate molecules that do not encode DNA. b) Prions are proteins folded into the correct configuration. c) Prions are small RNA molecules that do not encode proteins. d) Prions are proteins that are folded incorrectly.
d) Prions are proteins that are folded incorrectly.
In the diagram below, the gray unit represents _____. a) RNA b) DNA c) transcription factors d) RNA polymerase e) the promoter
d) RNA polymerase
How do retroviruses such as HIV differ from other viruses? a) They contain DNA that is used as a template to make RNA. b) They can reproduce only inside living cells. c) They have much simpler reproductive cycles than other RNA viruses. d) They contain the enzyme reverse transcriptase.
d) They contain the enzyme reverse transcriptase.
A woman and her male partner have normal color vision. However, her father and her first son are colorblind. What is her genotype? Use C as the gene for colorblindness. a) XCXC b) XCY c) XcXc d) XCXc
d) XCXc
What is an allele? a) a variety of pea plant used by Mendel b) the dominant form of a gene c) a type of chromosome d) an alternative version of a gene
d) an alternative version of a gene
Mature human neuron (nerve) cells and muscle cells a) continue to divide throughout their lifetime. b) cease dividing after a predetermined number of cell generations. c) become cancerous more easily than other cell types. d) are permanently in a state of nondivision.
d) are permanently in a state of nondivision.
Insulin used for the treatment of diabetes in humans is now obtained from _____. a) archaea b) cows c) pigs d) bacteria
d) bacteria
A cell replicates its entire chromosomal DNA only __________. a) when it makes protein b) when the cell needs RNA c) to repair damage caused by mutation d) before it is about to divide
d) before it is about to divide
Most human cancers are _____. a) inherited from one parent, like an autosomal dominant mutation b) caused by viruses c) inherited from both parents, like an autosomal recessive mutation d) caused by the accumulation of mutations
d) caused by the accumulation of mutations
Which of the following is NOT a characteristic of living things? a) responding to stimuli b) being capable of reproduction c) having DNA as a genetic code d) creating energy e) exhibiting complex organization
d) creating energy
The type of mutation represented below is a(n) __________.The big red fly had one eye (wild type)The fbi gre dfl yha don eey (mutant) a) addition of a codon b) single base substitution c) deletion d) frameshift
d) frameshift
If a chromosome fragment breaks off and then reattaches to the original chromosome but in the reverse direction, the resulting chromosomal abnormality is called a(n) a) translocation. b) deletion. c) reciprocal translocation. d) inversion.
d) inversion.
A child with cystic fibrosis can be born to two parents who do not have the disease. This is because the disease _____. a) is caused by a dominant allele b) occurs in individuals who received more than one allele from one or both parents c) requires certain environmental conditions to be expressed d) is caused by a recessive allele
d) is caused by a recessive allele
After fertilization, the resulting zygote begins to divide by __________. a) schizogony b) meiosis c) binary fission d) mitosis
d) mitosis
A physical or chemical agent that changes the nucleotide sequence of DNA is called a(n) a) anticodon. b) terminator c) .prion. d) mutagen.
d) mutagen.
Which of the following shows mitosis in the correct chronological order? a) prometaphase, metaphase, prophase, telophase, anaphase b) telophase, prophase, anaphase, prometaphase, metaphase c) anaphase, prometaphase, metaphase, prophase, telophase d) prophase, prometaphase, metaphase, anaphase, telophase
d) prophase, prometaphase, metaphase, anaphase, telophase
Because it is passed essentially intact from father to son, Y chromosome research has been particularly useful in improving our understanding of __________. a) chromosome disorders b) X-linked human diseases c) pleiotropy d) recent human evolution
d) recent human evolution
The cross-fertilization of two different, but true-breeding, varieties of pea plants will _____. a) yield the P generation b) be lethal c) produce an F2 generation d) result in hybrid plants
d) result in hybrid plants
Cancer is not usually inherited because a) the causes of cancer are not usually genetic. b) people with cancer usually die before reproducing. c) the cancerous cells usually interfere with the ability to produce gametes. d) the chromosomal changes in cancer are usually confined to somatic cells.
d) the chromosomal changes in cancer are usually confined to somatic cells.
In a monohybrid cross, F2 refers to __________. a) the grandparents of the 1st generation b) the original mating pair c) the 1st filial generation d) the second filial generation, or the "grandchildren" of the original mating pair
d) the second filial generation, or the "grandchildren" of the original mating pair
In a DNA double helix an adenine of one strand always pairs with a(n) _____ of the complementary strand, and a guanine of one strand always pairs with a(n) _____ of the complementary strand. a) cytosine ... uracil b) uracil ... cytosine c) guanine ... adenine d) thymine ... cytosine e) cytosine ... thymine
d) thymine ... cytosine
Both prokaryotic and eukaryotic cells use ________ to turn certain genes on or off. a) RNA polymerase b) activators c) enhancers d) transcription factors
d) transcription factors
What is the proper order of the following events in the expression of a eukaryotic gene? a) translation, RNA processing, transcription b) RNA processing, transcription, translation c) translation, transcription, RNA processing d) transcription, RNA processing, translation
d) transcription, RNA processing, translation
Many genetic disorders can be detected before birth. Procedures include _____, which is noninvasive, or _____, which allows the chromosomes of the fetus to be examined. Alternatively, maternal blood samples can be taken and tested for _____. a) amniocentesis ... ultrasound imaging ... chorionic villus sampling b) amniocentesis ... AFP ... chorionic villus sampling c) ultrasound imaging ... AFP ... amniocentesis d) ultrasound imaging ... chorionic villus sampling ... AFP
d) ultrasound imaging ... chorionic villus sampling ... AFP
Exposure to which of the following substances increases cancer risk? a) proto-oncogenes b) vitamin C c) increased intake of plant fiber d) ultraviolet (UV) light exposure
d) ultraviolet (UV) light exposure
Cloning human genes into the plasmids of bacteria has enabled scientists to __________. a) identify carriers of genetic diseases b) insert the corrected gene into patients who have certain genetic disorders c) use these bacteria to mass-produce mRNA for certain genes d) use bacteria as "factories" for protein products
d) use bacteria as "factories" for protein products
Meiosis starts with a single diploid cell and produces a) four diploid cells. b) two haploid cells. c) two diploid cells. d) eight haploid cells. e) four haploid cells.
e) four haploid cells.
Gametes are produced by _____. a) mitosis b) the cell cycle c) asexual reproduction d) fertilization e) meiosis
e) meiosis
In the diagram below, the green unit represents _____. a) RNA b) DNA c) transcription factors d) RNA polymerase e) the promoter
e) the promoter
Viral DNA makes mRNA by the process of _____. a) replication b) infection c) translation d) lysis e) transcription
e) transcription