Term
| Isolate any food or drink that seems to influence the expression of the gene of interest. |
|
Definition
| A particular digestive disorder is noted in members of a family. How would you approach the study of this disorder from a strictly proteomic angle? |
|
|
Term
| the genetic and physical mapping stages can be skipped |
|
Definition
| The shotgun cloning technique differs from the original method of sequencing the human genome because _____. |
|
|
Term
|
Definition
| Celera Genomics implemented a faster way of sequencing the human genome. What was this method? |
|
|
Term
| We have a lot of "junk" DNA that does not code for anything. |
|
Definition
| If the human genome is so large, relative to the size of other organisms' genomes, why do we have so few genes? |
|
|
Term
| transposable elements were moving around the DNA |
|
Definition
| Barbara McClintock found a particular nucleotide sequence that repeated itself on different chromosomes in different mouse skin cells. This suggested that _____. |
|
|
Term
| between 25,000 and 29,999 |
|
Definition
| What is the estimate of the number of genes in the human genome |
|
|
Term
|
Definition
| We share _____ of our genome sequence with our closest relative. |
|
|
Term
| the presence of various-sized fragments of DNA |
|
Definition
| DNA profiles used as evidence in a murder trial look similar to supermarket bar codes. The pattern of bars in a DNA profile shows _____. |
|
|
Term
| the baby's … Sam's or Becky's |
|
Definition
| DNA fingerprints are used to determine whether Sam could be the father of Becky's baby. Sam is the father if _____ genetic fingerprint shows bands present in _____ genetic fingerprint. |
|
|
Term
| use the polymerase chain reaction |
|
Definition
| Archaeologists unearthed a human skull with a small dried fragment of the scalp still attached. They extracted a tiny amount of DNA from the scalp tissue. To obtain sufficient DNA for an analysis of the ancient human's genes, they could _____. |
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Term
|
Definition
| DNA profiles utilize _____ DNA sequences. |
|
|
Term
| It allows for the separation of fragments of DNA. |
|
Definition
| What is the purpose of gel electrophoresis? |
|
|
Term
| It can make a large amount of DNA from a tiny amount. |
|
Definition
| What is the function of the polymerase chain reaction (PCR)? |
|
|
Term
| particular nucleotide sequence whose inheritance can be followed |
|
Definition
| A genetic marker is a(n) _____. |
|
|
Term
| compares the DNA banding patterns of small segments of the genome |
|
Definition
| DNA profiling is a forensic procedure being utilized to identify individuals. This technique _____. |
|
|
Term
| isolating and cloning the normal gene |
|
Definition
| To date, the "easy" part of gene therapy has been _____. |
|
|
Term
| It adds a functioning version of the defective gene to the cells of an individual. |
|
Definition
| What does the process of gene therapy involve? |
|
|
Term
| The conditions would be unfavorable to their survival. |
|
Definition
| Genetically modified organisms include microbes that possess enzymes that promote antibiotic resistance. This is a problem that concerns many individuals with the rise of antibiotic-resistant organisms. However, these organisms do not pose a risk to public health. Why? |
|
|
Term
| the inserted ("foreign") gene is expressed in the host organism |
|
Definition
| Transgenic organisms are only scientifically or commercially useful if _____. |
|
|
Term
| a rat with rabbit hemoglobin genes |
|
Definition
| Which of the following would be considered a transgenic organism? |
|
|
Term
| A harmless variant, a natural mutant, was used to stimulate an immune response. |
|
Definition
| How was the smallpox vaccine produced? |
|
|
Term
| use bacteria as "factories" for protein products |
|
Definition
| Cloning a human gene into the plasmids of bacteria has enabled scientists to _____. |
|
|
Term
| The mRNA was not spliced as it is in eukaryotes. |
|
Definition
| A eukaryotic gene was inserted into the DNA of a bacterium. The bacterium then transcribed this gene into mRNA and translated the mRNA into protein. The protein produced was useless; it contained many more amino acids than the protein made by the eukaryote. Why? |
|
|
Term
|
Definition
| The production of genetically identical animals that are carrying recombinant human genes for pharmaceutical purposes is called _____. |
|
|
Term
| They both undergo complementary base pairing. |
|
Definition
| In which of the following ways are sticky ends and nucleic acid probes alike? |
|
|
Term
| It helps identify genes that have been inserted into bacterial plasmids. |
|
Definition
| What purpose does a nucleic acid probe serve? |
|
|
Term
|
Definition
| Which enzyme makes DNA from an RNA template? |
|
|
Term
|
Definition
| DNA synthesized using an RNA template is called _____. |
|
|
Term
| work backward from mRNA to make a version of the gene without introns |
|
Definition
| Bacteria lack RNA-splicing machinery, which means they are unable to splice out introns from eukaryotic genes. To engineer a bacterium to produce a eukaryotic protein, it is necessary to synthesize a gene without introns. If you know the nucleotide sequence, you can _____. |
|
|
Term
|
Definition
| Copies of cloned genes are stored in a(n) _____. |
|
|
Term
| Gene cloning occurs when a bacterium carrying a recombinant plasmid reproduces, thus allowing for the production of multiple copies of the recombinant plasmid. |
|
Definition
|
|
Term
| provide a site for complementary base pairing so that pieces of DNA can be linked together |
|
Definition
| "Sticky ends" are very useful in genetic engineering because they _____. |
|
|
Term
| small circlets of DNA found in bacteria |
|
Definition
| Frequently, genetic engineers use plasmids, which are _____. |
|
|
Term
| a plasmid or other agent used to transfer DNA into a living cell |
|
Definition
| What does the term vector refer to in genetic engineering? |
|
|
Term
|
Definition
| DNA used in recombinant DNA techniques is first cut into fragments by |
|
|
Term
| unpaired bases produced by a restriction enzyme |
|
Definition
| The so-called sticky ends of a plasmid or bacterial chromosome are _____. |
|
|
Term
| the fragments will bond to other fragments with complementary single-stranded ends |
|
Definition
| When a typical restriction enzyme cuts a DNA molecule, the cuts are staggered so that the DNA fragments have single-stranded ends. This is important in recombinant DNA technology because _____. |
|
|
Term
| the generation of short fragments of single-stranded DNA left at the end of a DNA molecule |
|
Definition
| What does the term sticky end refer to in genetic engineering? |
|
|
Term
| insert a foreign piece of DNA cut with the same restriction enzyme |
|
Definition
| Shown below is the effect of a restriction enzyme known as EcoRI. Cutting with this enzyme allows scientists to _____. |
|
|
Term
| a restriction enzyme and a ligase |
|
Definition
| The recombinant molecule below was generated using which two enzymes? |
|
|
Term
|
Definition
| The "normal" function of restriction enzymes is to _____. |
|
|
Term
|
Definition
| An enzyme that "cuts" DNA at a specific sequence of nucleotide bases is called _____. |
|
|
Term
|
Definition
| Which one of the following enzymes can create a bond between adjacent, unjoined nucleotides? |
|
|
Term
|
Definition
| What might account for the slight differences observed between human and chimp genomes? |
|
|
Term
| studies when and where proteins are produced in an organism and how the proteins interact |
|
Definition
| The science of proteomics _____. |
|
|
Term
| linkage mapping, physical mapping, DNA sequencing |
|
Definition
| Sequencing the human genome required a number of steps. Which of the following is the correct sequence of stages? |
|
|
Term
|
Definition
| Approximately what percentage of the human genome actually encodes proteins? |
|
|
Term
| Oryza sativa, rice, has a smaller genome but more genes. |
|
Definition
| In comparison to Homo sapiens, which of the following statements is correct? |
|
|
Term
| of different sizes. The individual with the disease will have fewer fragments than an individual without this disorder |
|
Definition
| A single nucleotide polymorphism (SNP) is detected in an inheritable disorder that deletes the restriction site for HindIII. When the DNA from two individuals is cut with this enzyme (one with and one without this disorder) and then analyzed by gel electrophoresis, the resulting samples will be _____. |
|
|
Term
| an individual is likely to have the same sequence in the same places but with a different number of repeats |
|
Definition
| The variation that occurs in 13 predetermined sites scattered throughout the human genome can be used to identify individual people. This DNA profile is possible because _____. |
|
|
Term
|
Definition
| Gel electrophoresis separates DNA molecules on the basis of size. Which of the following would move the slowest? |
|
|
Term
| cooling of the target strands to allow the primers to anneal |
|
Definition
| Chemically synthesized DNA molecules are used in the polymerase chain reaction (PCR). Which step are they involved in? |
|
|
Term
|
Definition
| Which of the following suspects matches the samples taken from the crime scene |
|
|
Term
| The treatment only lasts until the epithelial cells lining the nasal cavity are shed. |
|
Definition
| A new treatment for cystic fibrosis (CF) is currently being tested. The treatment is sprayed into the noses of patients with CF. The spray contains a genetically engineered adenovirus that carries a (CFTR) gene, which codes for a normal protein involved in the function of chlorine channels. Cells that harbor the adenovirus express the gene, and patients experience relief from the debilitating respiratory symptoms of CF. What is the significant drawback of this treatment? |
|
|
Term
| the production of herbicide-resistant weeds |
|
Definition
| 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? |
|
|
Term
| farmers can reduce chemical use |
|
Definition
|
|
Term
| chemically synthesized DNA |
|
Definition
| Human growth hormone was genetically engineered so that it could grow in the bacterium E. coli. The recombinant molecule was produced by splicing the human gene for the hormone to _____. |
|
|
Term
|
Definition
| 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 _____. |
|
|
Term
|
Definition
| If a biochemist were searching for the nucleic acid sequence CTAGTTATG, what sequence would the biochemist use to make a nucleic acid probe? |
|
|
Term
| the DNA sequence of expressed genes |
|
Definition
| What genetic information does cDNA contain? |
|
|
Term
| bacterial artificial chromosomes |
|
Definition
| A scientist wishes to prepare a genomic library, but the DNA to be cloned is large. Which of the following vectors should be used? |
|
|
Term
|
Definition
Which of the following restriction enzymes cuts the following DNA? Assume that ^ determines the cut site.
GCATTACGGGATCCACCCGTT |
|
|
Term
| It allows detection of the bacteria that have been transformed with this plasmid and therefore the gene of interest. |
|
Definition
| Plasmids are extrachromosomal pieces of DNA that are not necessary for the "housekeeping" activities of the cell. When constructing a recombinant molecule, genetic engineers frequently use plasmids that have at least one gene for antibiotic resistance. Antibiotics can then be applied to the media on which bacterial cells may be growing. What is the best explanation for this practice? |
|
|
Term
|
Definition
| We can make connections to our ancestry by analyzing the _____ in males. |
|
|
Term
| the female must possess the hemophilia gene on both X chromosomes |
|
Definition
| Hemophilia appears rarely in females. This is because _____. |
|
|
Term
|
Definition
| Gene R is an X-linked recessive allele in fruit flies that controls wing formation. A cross is performed between two fruit flies where the male is XRY and the female is XRXr. What percentage of the offspring are female with abnormal wing development? |
|
|
Term
| "maleness" and a few other characteristics |
|
Definition
| The Y chromosomes of mammals contain genes that code for _____. |
|
|
Term
| greater as the distance between the two genes increases |
|
Definition
| The crossover percentage between two different genes is _____. |
|
|
Term
| orders genes on a chromosome based on recombination frequencies |
|
Definition
| Sturtevant's genetic mapping _____. |
|
|
Term
|
Definition
The following distribution of offspring was observed:
blue wings, green eyes 1,070
blue wings, black eyes 177
red wings, green eyes 180
red wings, black eyes 1,072
In a particular species of mammal, blue wings (B) are dominant to red wings (b), and green eyes (G) are dominant to black eyes (g). Based on these data, what is the recombination frequency? |
|
|
Term
| This explains why the parental types occur more often than would be expected if the characters assorted at random. |
|
Definition
| In a particular species of mammal, black hair (B) is dominant to green hair (b), and red eyes (R) are dominant to white eyes (r). When a BbRr individual is mated with a bbrr individual, offspring are produced in a ratio of 5 black hair and red eyes : 5 green hair and white eyes : 1 black hair and white eyes : 1 green hair and red eyes. Which of these explanations accounts for this ratio? |
|
|
Term
| would have deviated from the 9:3:3:1 phenotypic ratio that is predicted by the law of independent assortment |
|
Definition
| If the two characteristics that Mendel looked at in his dihybrid cross of smooth yellow peas with wrinkled green peas had been controlled by genes that were located close together on the same chromosome, then the F2 generation _____. |
|
|
Term
| the genes for these characters are linked on the same chromosome |
|
Definition
| If hair color, eye color, and the presence or absence of freckles were consistently inherited together, the best explanation would be that _____. |
|
|
Term
| they are on the same chromosome |
|
Definition
| If two genes are linked, _____. |
|
|
Term
|
Definition
| As shown in the figure below, at what point in meiosis do the chromosomes segregate from one another? |
|
|
Term
| The seedlings should differ from each other, depending on their genetic constitution. |
|
Definition
| Seeds from a single sexually reproducing plant are harvested and later planted under identical conditions. What results should be expected? |
|
|
Term
|
Definition
| Two identical twins are raised in different environments. They possess _____ genotypes and _____ phenotypes |
|
|
Term
|
Definition
| The inheritance of height and weight can best be described as |
|
|
Term
| the pleiotropic effects of the sickle-cell allele |
|
Definition
| In people with sickle-cell disease, the red blood cells break down, clump, and clog the blood vessels. The blood vessels and the broken cells accumulate in the spleen. Among other things, this leads to physical weakness, heart failure, pain, and brain damage. Such a suite of symptoms can be explained by _____. |
|
|
Term
|
Definition
| A single allele that controls more than one character is said to be _____. |
|
|
Term
|
Definition
| A woman with type O blood is expecting a child. Her husband is type A. Both the woman's father and her husband's father had type B blood. What is the probability that the child will have type O blood? |
|
|
Term
| About half the offspring would be expected to inherit the A allele and be phenotypically A. |
|
Definition
| If one parent is blood type AB and the other is type O, what fraction of their offspring will be blood type A? |
|
|
Term
|
Definition
| Two individuals have children with A and B blood types. What are the blood types of the parents? |
|
|
Term
|
Definition
| A man who has type B blood and a woman who has type A blood could have children of which of the following phenotypes? |
|
|
Term
| half the amount of red pigment |
|
Definition
| In the figure below, the pink snapdragons are a result of _____ due to incomplete dominance. |
|
|
Term
|
Definition
| A male who is homozygous recessive for hypercholesterolemia marries a woman is homozygous dominant. What percentage of their children will have higher than normal blood cholesterol? |
|
|
Term
| 25% red, 50% pink, and 25% white |
|
Definition
| Flower color in snapdragons is an example of incomplete dominance. If a red-flowered plant is crossed with a white-flowered plant, the F1 generation has pink flowers. If a pink-flowered plant is crossed with a pink-flowered plant, the progeny plants will be _____. |
|
|
Term
|
Definition
| A red bull is crossed with a white cow and all of the offspring are roan, a shade between red and white. This is an example of genes that are _____. |
|
|
Term
|
Definition
| The test that is used to determine whether someone possesses a potentially harmful recessive allele is referred to as _____ testing. |
|
|
Term
|
Definition
| Fetal cells may be removed along with fluid from the womb by a process known as _____. |
|
|
Term
| people in such communities are more likely to marry relatives |
|
Definition
| Several inherited disorders are much more common in close-knit religious communities, such as the Amish, than in the general population. This is at least partly due to the fact that _____. |
|
|
Term
| a late-acting lethal dominant allele |
|
Definition
| Huntington's disease is an example of a genetic disorder caused by |
|
|
Term
| 25% The chances of their next child having alkaptonuria are always 1:4 because they must both be carriers (Aa) for their daughter to have it. |
|
Definition
| Michelle and Keith are apparently normal, but their daughter was born with alkaptonuria, an inherited metabolic disorder that causes urine to turn black when exposed to air. If alkaptonuria is like most other human hereditary disorders, the probability of their next child being born with alkaptonuria is _____. |
|
|
Term
| recessive … dominant … harmful recessive alleles can survive in the heterozygote without causing any adverse effects on the phenotype |
|
Definition
| It is far more common to find human genetic disease caused by _____ alleles than by _____ alleles because _____. |
|
|
Term
| the harmful allele "hides" inside heterozygous individuals and one-fourth of the offspring of two heterozygotes should be afflicted |
|
Definition
| Cystic fibrosis, which is usually lethal before the age of reproduction, is a homozygous recessive trait. Even though people with the disease rarely reproduce, cases continue to arise because _____. |
|
|
Term
| achondroplasia is caused by an allele that is always expressed, so the parents couldn't have the allele |
|
Definition
| When two average-height parents give birth to a child exhibiting achondroplastic dwarfism, it is most likely due to a new mutation. This is because _____. |
|
|
Term
| it's possible that none of their children will have the disease, but blood tests on them both will be required to make sure |
|
Definition
| John and Jane are planning a family, but since each has a brother who has sickle-cell disease, they are concerned that their children may develop sickle-cell disease. Neither John, Jane, nor their respective parents have the disease. They consult a genetic counselor who tells them that _____. |
|
|
Term
|
Definition
| Shown in the figure below are a number of traits that are found in humans to be either dominant or recessive. A woman with freckles has children with a man who has no freckles. Their first child has no freckles. What is the probability of her having a child with freckles with the same man? |
|
|
Term
|
Definition
| Tay-Sachs disease runs in Rebecca's family. On a family pedigree, she saw a shaded circle. This represented _____. |
|
|
Term
|
Definition
| A cross is made between two heterozygous pea plants, and observations are made about three characteristics: flower color, seed color, and seed shape. What is the probability that the offspring will be heterozygous for all three characteristics? |
|
|
Term
|
Definition
| If each parent can produce 100 genetically distinct gametes, how many genetically distinct offspring can two parents produce? |
|
|
Term
| Perform a testcross: Cross the plant with a white one, which must be homozygous recessive (pp). |
|
Definition
| Suppose we have a pea plant with purple flowers, determined by the dominant allele P. How might you determine whether the plant is homozygous (PP) or heterozygous (Pp)? |
|
|
Term
| The parent with the dominant phenotype was heterozygous. |
|
Definition
| What is indicated when a single-character testcross yields offspring in a 1:1 phenotypic ratio? |
|
|
Term
|
Definition
| The results of a testcross (that is, the offspring of this cross) were 50% phenotypically dominant and 50% phenotypically recessive. The genotype of the phenotypically dominant parent in this cross was _____. |
|
|
Term
|
Definition
| Pea plants are tall if they have the genotype TT or Tt, and they are short if they have the genotype tt. A tall plant is crossed with a short plant. Half the offspring are tall, and half are short. This allows us to conclude that the tall plant _____. |
|
|
Term
| Have children with a woman who is a non-roller. If any of their children is a non-roller, then he is heterozygous for the trait. |
|
Definition
| A couple who both have the ability to roll their tongues have a son who is also a tongue-roller. Tongue-rolling is a dominant characteristic. The son is curious about whether he is homozygous or heterozygous for tongue-rolling. How could he find out? |
|
|
Term
|
Definition
| You have one tree that produces big yellow apples and another tree that produces small red apples. When the two are crossed, you find that half the offspring trees produce big red apples and half produce big yellow apples. What are the genotypes of the parents? A = big apples; a = small apples; R = red apples; r = yellow apples. |
|
|
Term
|
Definition
| 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 x PpRr will have white flowers and wrinkled seeds? |
|
|
Term
|
Definition
| An AABb individual is mated with another AABb individual. The possible number of genetically different kinds of offspring is _____. |
|
|
Term
|
Definition
| How many loci are shown on the homologous chromosomes in the figure below? |
|
|
Term
| contain different alleles |
|
Definition
| Homologous pairs of chromosomes frequently _____. |
|
|
Term
| At least one of this man's parents must have shown signs of dwarfism |
|
Definition
| Achondroplasia is a common cause of dwarfism and is an autosomal dominant condition. If a male individual has achondroplasia, which statement below must be true? |
|
|
Term
| an alternative version of a gene |
|
Definition
|
|
Term
|
Definition
| Huntington's disease is caused by an autosomal dominant allele. If a heterozygous male were to marry a female not carrying the disease, what percentage of the offspring will have Huntington's? |
|
|
Term
| purple-flowered … heterozygous |
|
Definition
| In Mendel's monohybrid cross of true-breeding purple-flowered and white-flowered peas, all members of the F1 generation were of the _____ phenotype because their genotype was _____ for the flower-color gene. |
|
|
Term
| in the ratio 1:1 homozygotes to heterozygotes |
|
Definition
| When you cross two heterozygotes (Aa), the F1 generation will be _____. |
|
|
Term
all of the dominant phenotype
The offspring of an AA x aa cross are all Aa and express the dominant phenotype. |
|
Definition
| If a homozygous dominant (AA) is crossed with a homozygous recessive (aa) for a given character, the offspring will be _____. |
|
|
Term
|
Definition
| Phenylketonuria (PKU) is an autosomal recessive disorder that can lead to mental retardation and seizures. Using P and p to represent the alleles, what is the genotype of a phenylketonuric person? |
|
|
Term
|
Definition
| Assume tall (T) is dominant to dwarf (t). If a homozygous dominant true-breeding individual is crossed with a homozygous true-breeding dwarf, the offspring will _____. |
|
|
Term
| is caused by a recessive allele |
|
Definition
| A child with cystic fibrosis can be born to two parents who do not have the disease. This is because the disease _____. |
|
|
Term
AaBBcc
This genotype expresses a phenotype that expresses only one dominant character. |
|
Definition
| In a certain plant, the alleles A, B, and C are dominant to the alleles a, b, and C. A plant with the genotype AABbcc will have the same phenotype as the plant with the genotype _____. |
|
|
Term
| offspring identical to the parent |
|
Definition
| When applied to Mendel's experiments, the term true-breeding means a self-fertilization of two plants that produces _____. |
|
|
Term
|
Definition
| The cross-fertilization of two different, but true-breeding, varieties of pea plants will _____. |
|
|
Term
| after a mating, genes of the two parents are mixed in the offspring and lose their individual identities |
|
Definition
| Previously, it was thought that the blending hypothesis explained inheritance. The blending hypothesis maintained that _____. |
|
|
Term
50% of sons and 50% of daughters.
Because daughters must inherit their father's only X chromosome and have a 50% chance of inheriting their mother's X chromosome that carries the hemophilia allele, they have a 50% chance of having hemophilia. |
|
Definition
| A woman who is a carrier of hemophilia marries a man affected with hemophilia. What percentage of their sons and daughters are expected to have hemophilia |
|
|
Term
|
Definition
| Vitamin D–resistant rickets is an X-linked dominant bone disorder. A man with this form of rickets marries a normal woman. What proportion of the couple's daughters is expected to have vitamin D–resistant rickets? |
|
|
Term
| The SRY locus of the Y chromosome is deleted. |
|
Definition
| The existence of rare XY individuals who are phenotypically normal women was instrumental in learning about human sex determination. Maleness is determined by the SRY gene found on the Y chromosome. How is it possible to be an XY woman? |
|
|
Term
| The order of genes would be the same in both strains, but the distances measured between genes in the mutant would be half those of the wild type. |
|
Definition
| Imagine that a mutant strain of Drosophila undergoes crossing over at half the normal rate. How would a genetic map prepared for this mutant differ from a genetic map prepared for a normal (wild type) fly? |
|
|
Term
| Crossing over between chromosomes is reciprocal, so whenever a recombinant chromosome of one type is produced, there's a recombinant of the opposite type that is also produced. |
|
Definition
| In Morgan's testcross of a gray-bodied, long-winged heterozygous female Drosophila with a homozygous recessive black-bodied, vestigial-winged male, the following offspring were obtained: 965 gray body, long wing; 944 black body, vestigial wing; 206 gray body, vestigial wing; 185 black body, long wing. Focusing only on the recombinant classes (gray body, vestigial wing and black body, long wing), the numbers of offspring of each type are similar (206 and 185). What accounts for the similar number of offspring of each recombinant phenotype? |
|
|
Term
| The coloration and shape genes are linked on the same chromosome. |
|
Definition
| In corn, blue kernels are produced by a dominant allele of a coloration gene, and white kernels are produced in individuals homozygous for a recessive allele of the same coloration gene. Another gene has two alleles for shape, with smooth kernels being dominant to wrinkled. A plant heterozygous for both genes is testcrossed (crossed to a homozygous recessive white, wrinkled strain). The testcross offspring consist of the following types: 1,447 blue smooth; 1,436 white wrinkled; 150 blue wrinkled; 145 yellow smooth. Explain the inheritance of the coloration and shape traits |
|
|
Term
| Genes segregate; chromosomes come in pairs. |
|
Definition
| Which of the following line or lines of evidence support the chromosome theory of inheritance? |
|
|
Term
| is to work with genes in complex and often unknown ways in the development of these traits |
|
Definition
| Our understanding of the role played by genes in many human characteristics—for example, body size, performance on IQ tests, and personality traits—is advancing rapidly. In this new genetic era, the role of the environment _____. |
|
|
Term
| Intercross the F1 and see if the F2 contains three size classes (consistent with the incomplete dominance model) or if there is a range of sizes (consistent with the polygenic model). |
|
Definition
| In breeding pure-breeding large and small strains of mice, you cross individuals of each strain and note that their offspring are intermediate in size. Two models (explanations) to account for this result are (1) that body size in these strains is due to one gene with alleles that show incomplete dominance and (2) that body size is a polygenic trait. How could you distinguish between these models? |
|
|
Term
| With pleiotropy, there would be other differences between the peas—for example, green peas may also be larger, ripen earlier, and be more sensitive to frost. |
|
Definition
| If the gene for seed color that Mendel studied exhibited pleiotropy, how might a green pea be different from a yellow pea? |
|
|
Term
|
Definition
| Two individuals decide to have children. The expected blood group genotypes are 50% of blood type A, and 25% each of blood types AB and B. What genotypes are the parents? |
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Term
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Definition
| In lentils, the C gene has two different alleles. CSCS homozygotes have spotted seeds, CDCD homozygotes have dotted seeds, and CSCD heterozygotes have seeds with both spots and dots. This indicates that _____. |
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Term
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Definition
| There are over 100 alleles known for the gene associated with cystic fibrosis. With current technology, it is possible to determine exactly which allele or alleles are carried by a person. What is the maximum number of different alleles that any person can carry? |
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Term
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Definition
| Snapdragons show incomplete dominance in their flowers. A pink snapdragon is crossed with a red snapdragon. What is true about the offspring? |
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Term
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Definition
| Hypercholesterolemia is a disorder in which blood cholesterol levels are elevated. The H allele is incompletely dominant to the h allele, with hh homozygotes having extremely high levels of blood cholesterol. A husband and wife are both Hh heterozygotes. What is the chance that their first child will have normal levels of blood cholesterol? |
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Term
| Mendel was correct for the traits he investigated, but his principles must be extended (not discarded) to explain many more complex patterns of inheritance |
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Definition
| Akin to urban legends, there are curious genetics legends—things like eye color being determined by one gene, with a brown eye allele being completely dominant to blue. The problem comes when simple myth meets the complex reality of how eye color and many other traits are transmitted. Why is the inheritance of so many traits difficult to explain using only Mendel's view of genetics? |
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Term
| the ability to prescribe the correct course of action based on test results |
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Definition
| A large and increasing number of genetic tests are available to prospective parents and children. Even as these testing methods become more and more sophisticated, what is one thing technology will never solve? |
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Term
| 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. |
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Definition
| 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? |
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Term
| Lethal dominant alleles are harmful whether they are carried in homozygous or heterozygous form, so there is always strong selection against these alleles. |
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Definition
| Why are lethal dominant alleles so much more rare than lethal recessive alleles? |
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Term
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Definition
| Human genetic disorders _____. |
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Term
| Either one of her parents or both of her parents were heterozygous for the trait |
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Definition
| 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 were the genotypes of Mary's parents? |
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Term
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Definition
| In Labrador dogs, 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? |
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Term
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Definition
| Assume that in cattle a spotted coat is dominant to an even coat, short horns are dominant to long horns, and the traits for coat type and horn length assort independently. In a cross between cattle that are each heterozygous for both traits, what proportion of their offspring are expected to have long horns? |
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Term
| independent assortment of alleles of one gene relative to the alleles of any other gene |
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Definition
| Mendel's principle of independent assortment applies to the _____. |
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Term
| One allele is on one chromosome, and the other is in the same position (locus) on the homologous chromosome. |
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Definition
| In an individual of genotype Aa, where are the A and a alleles physically located? |
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Term
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Definition
| An insect that has the genotype EeGGcc will have the same phenotype as an insect with the genotype _____. |
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Term
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Definition
| Mendel was a meticulous experimentalist. One set of crosses he performed to test his idea that a pair of hereditary determinants segregated into gametes was to allow self-fertilization of F2 individuals to produce F3 offspring. What proportion of the purple-flowered F2 individuals did Mendel predict to be true-breeding? |
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Term
| Observe the trait expressed by the F1 plants. |
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Definition
| True-breeding individuals differing in a single character, say a pea plant bearing green seeds and another bearing yellow seeds, are crossed. Assuming that this trait is determined by a single gene that is present in two forms (yellow and green, in this case), how can you tell which allele is dominant and which is recessive? |
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Term
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Definition
| Two mice are crossed. Matings are carried out between the offspring of these mice to produce "grandchildren" of the original mated pair. In the standard terminology of genetics, the "grandchildren" are the _____. |
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Term
| unchanging (immutable), heritable factors that were contributed by each parent and never mixed |
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Definition
| Mendel's view of the mechanism of heredity was radically different from the prevailing view of the time because he saw heredity working through _____. |
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Term
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Definition
| The scientist Jean Baptiste Lamarck proposed that if an individual acquired a particular characteristic—such as strength from lifting weights—this characteristic would be inherited by the organism's offspring. This same idea is also part of a more ancient idea, the idea of _____. |
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Term
| In trisomy there would be one extra chromosome; in a duplication, one chromosome would have two copies of a portion of the chromosome. |
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Definition
| You suspect that a serious developmental disorder is due to a chromosome abnormality and prepare a karyotype from an affected individual. In analyzing the karyotype, how could you distinguish trisomy from a chromosome structural defect such as a duplication? |
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Term
| Only one copy of the X chromosome is active, regardless of the total number of X chromosomes. |
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Definition
| 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? |
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Term
| Two of the embryos will be trisomic for chromosome 18, and two will contain a single copy of chromosome 18. |
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Definition
| In theory, when a nondisjunction for chromosome 18 occurs during meiosis I, four gametes can be produced. If these gametes are fertilized with unaffected gametes from the second parent, what observations would you make concerning the resulting embryos? |
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Term
| Trisomy for the other autosomal chromosomes is often lethal, and the affected embryos are miscarried. |
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Definition
| 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? |
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Term
| During mitosis, chromosomes are more condensed than during interphase. |
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Definition
| Scientists commonly choose white blood cells that are going through mitosis to prepare karyotypes. Why |
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Term
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Definition
| In a cell with eight chromosomes, one chiasma develops during meiosis I in only one particular pair of homologs. How many recombinant chromosomes will there be at the completion of meiosis II? |
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Term
| This brings the chromosomes into alignment so that crossing over can create new combinations of genes present on a single chromosome. |
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Definition
| During meiosis I, homologous chromosomes form a tetrad. What does this accomplish? |
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Term
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Definition
| Inbreeding has a number of interesting effects. For one, highly inbred strains (varieties) may carry identical forms of every gene. Mice have 40 chromosomes in their diploid (2n) set. How many genetically distinct kinds of gametes (gametes with different genetic characteristics) could be produced through meiosis in an inbred strain where there are identical forms of every gene? |
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Term
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Definition
| If we assume that crossing over does not occur, how many different combinations of chromosomes are possible in a zygote derived from diploid parents who each have three pairs of chromosomes |
|
|
Term
| sister chromatids are separated |
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Definition
|
|
Term
| haploid and the sister chromatids are joined |
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Definition
| At the conclusion of meiosis I, the daughter cells are _____. |
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Term
| The pairing up of homologous chromosomes and crossing over only occur during meiosis. |
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Definition
| The M phase of mitosis and M phase of meiosis both occur after interphase. However, the two processes differ in the arrangement and behavior of their chromosomes. How |
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Term
|
Definition
| Baker's yeast is an organism with 32 chromosomes that can perform asexual or sexual reproduction and exist as both a diploid and haploid cell. After meiosis, how many chromosomes will be present in each cell? |
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Term
| are identical in the arrangement of their genes, but some versions of the genes may differ between the chromosomes |
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Definition
| In many organisms, including humans, chromosomes are found in homologous pairs. Homologous chromosomes _____. |
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Term
|
Definition
| When forming buds, hydras _____. |
|
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Term
| cells of a benign tumor remain within the tumor, whereas cells of a malignant tumor can spread to other body tissues |
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Definition
| A benign and a malignant tumor differ in that _____. |
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Term
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Definition
| When examining cells in the laboratory, you notice that a particular cell has half as much DNA as the surrounding cells. It appears that this cell's cell cycle halted at checkpoint _____. |
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Term
| Cancer cells continuously secrete growth factors into the cell culture medium. |
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Definition
| 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? |
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Term
| cytokinesis in a plant cell |
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Definition
| A cell is treated with a drug that prevents the formation of intracellular (within the cell) vesicles. Which of the following processes would be blocked? |
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Term
| they attach to a dynamic, precisely regulated mitotic spindle |
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Definition
| During mitosis, the chromosomes move because _____. |
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Term
| The mitotic spindle would not form. |
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Definition
| What would be the immediate consequence of destroying a cell's centrosomes? |
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Term
| DNA is synthesized in the S phase of interphase. |
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Definition
| Which of the following statements correctly describes the timing of DNA synthesis? |
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Term
| The sequences are identical. |
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Definition
| Within one chromosome, what is the relationship between the sequence of bases in DNA of one sister chromatid compared to the other? |
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Term
| It ensures the separation of the replicated chromosomes as new membrane is made. |
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Definition
| During binary fission, the replicated bacterial chromosome attaches to the plasma membrane by specialized anchor proteins. What is the purpose of this attachment between chromosome and membrane? |
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Term
|
Definition
| The exchange of parts between nonhomologous chromosomes is called _____. |
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Term
|
Definition
| If a fragment of a chromosome breaks off and then reattaches to the original chromosome at the same place but in the reverse direction, the resulting chromosomal abnormality is called _____. |
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Term
|
Definition
| Which of the following indicates Turner syndrome? |
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Term
| nondisjunction of chromosome 21 during meiosis |
|
Definition
| Down syndrome can be the result of _____. |
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Term
|
Definition
| During meiosis, homologous chromosomes sometimes "stick together" and do not separate properly. This phenomenon is known as _____. |
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Term
|
Definition
| Each cell in an individual with Down syndrome contains _____ chromosomes. |
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|
Term
| Extra copies of the other chromosomes are probably fatal. |
|
Definition
| Why are individuals with an extra chromosome 21, which causes Down syndrome, more numerous than individuals with an extra chromosome 3 or chromosome 16? |
|
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Term
| a photograph of all a person's chromosomes |
|
Definition
| Consider the photograph of a karyotype. This is _____. |
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Term
|
Definition
| Unless the chromosomes were stained to show band patterns, a karyotype would usually be unable to show _____. |
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Term
| allows the exchange of genes between homologous chromosomes |
|
Definition
| Crossing over is important because it _____. |
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Term
|
Definition
| Crossing over occurs during _____. |
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Term
|
Definition
| In the picture below, the chromosomal region where the nonsister chromatids are crossing over is called a(n) _____. |
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Term
|
Definition
| Consider the two mice shown below. They have the same chromosomes, carrying genes for the same traits in the same loci, but specifying different versions of the same traits—for example, coat and eye color. These chromosomes are called _____. |
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Term
| to provide a method that creates greater genetic variation |
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Definition
| The major contribution of sex to evolution has been _____. |
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Term
| They align and assort independently to form any of eight different combinations. |
|
Definition
| If the diploid number of chromosomes in a certain animal is 6 (2n = 6), there are three sets of two homologous chromosomes each, or three pairs. How do these three pairs align and separate in meiosis? |
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|
Term
| Synapsis of homologous pairs occurs. |
|
Definition
| Which event occurs only during prophase I of the first meiotic division? |
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Term
|
Definition
| An organism has a haploid chromosome number n = 4. How many tetrads will form during meiosis? |
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Term
|
Definition
| Crossing over occurs during _____. |
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|
Term
| homologues separate and migrate toward opposite poles |
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Definition
| During anaphase I, _____. |
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|
Term
| sister chromatids separate and migrate toward opposite poles |
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Definition
| During anaphase II, _____. |
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Term
|
Definition
| Synapsis occurs during _____. |
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Term
|
Definition
| At the end of telophase I of meiosis, as cytokinesis occurs, there are _____. |
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|
Term
|
Definition
| In a cell containing 10 chromosomes, meiosis results in the formation of daughter cells containing _____ chromosomes |
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Term
|
Definition
| What is the typical result when a diploid cell undergoes meiosis? |
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|
Term
| homologous chromosomes move toward opposite poles |
|
Definition
|
|
Term
| telophase I and prophase II |
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Definition
| At a critical point in meiosis, the chromosomes do not replicate. This occurs between _____. |
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Term
|
Definition
| The diploid phase of the human life cycle begins with _____. |
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|
Term
| Correct Answer: its cells each have one set of chromosomes |
|
Definition
| When we say that an organism is haploid, we mean that _____. |
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Term
|
Definition
| After fertilization, the resulting zygote begins to divide by _____. |
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Term
|
Definition
| An example of a cell that is 2n is a(n) _____. |
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|
Term
| male … the male can contribute either an X or a Y chromosome |
|
Definition
| In humans, the _____ determines the sex of the offspring because _____. |
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Term
|
Definition
| Which of the following is a normal human female? |
|
|
Term
|
Definition
| How many pairs of autosomes do humans have? |
|
|
Term
| do not exhibit density-dependent inhibition |
|
Definition
| Observations of cancer cells in culture support the hypothesis that cancer cells _____. |
|
|
Term
| Benign tumors do not metastasize; malignant tumors do. |
|
Definition
| What is the difference between a benign tumor and a malignant tumor? |
|
|
Term
|
Definition
| Consider the cell cycle shown below. Cells will usually divide if they receive the proper signal at a checkpoint in the _____ phase of the cell cycle. |
|
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Term
| being completely surrounded by other cells |
|
Definition
| Which of these factors inhibit(s) cell division? |
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Term
|
Definition
| A cleavage furrow forms in an animal cell during _____. |
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|
Term
| formation of a cleavage furrow |
|
Definition
| Cytochalasin B is a chemical that disrupts microfilament formation. This chemical would interfere with _____. |
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Term
|
Definition
| Consider the photograph shown below. You can determine this is a plant cell rather than an animal cell because it has _____. |
|
|
Term
| are sites at which microtubules attach to chromosomes |
|
Definition
|
|
Term
|
Definition
| At which stage of mitosis are chromosomes lined up in one plane in preparation for their separation to opposite poles of the cell? |
|
|
Term
| Chromatids separate. Occurs during anaphase. |
|
Definition
| Which of the following occurs during mitosis? |
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|
Term
| Metaphase—chromosomes line up on the equatorial plane. |
|
Definition
| Which of the following is a correct representation of an event that occurs in mitosis? |
|
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Term
|
Definition
| Single sister chromatids are found in cells at mitotic _____. |
|
|
Term
| the beginning of the formation of the mitotic spindle |
|
Definition
| One event occurring during prophase is _____. |
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|
Term
| They organize the microtubules. |
|
Definition
| During cell division, what role do centrosomes play? |
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Term
|
Definition
| The phase of mitosis during which the chromosomes move toward separate poles of the cell is _____. |
|
|
Term
|
Definition
| At which point do centrosomes begin to move apart to the opposite poles of the cell in a dividing human liver cell? |
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|
Term
| Darwin hypothesized that species changed gradually, over long spans of time, in response to diverse and changing habitats. |
|
Definition
| Why was Darwin's acceptance of an ancient, continuously changing Earth so important in his development of his ideas about evolution? |
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|
Term
| Darwin hypothesized that species changed gradually, over long spans of time, in response to diverse and changing habitats. |
|
Definition
| Why was Darwin's acceptance of an ancient, continuously changing Earth so important in his development of his ideas about evolution? |
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Term
|
Definition
| In artificial selection, humans provide the selective pressure for species to change and shape the evolution of various breeds. What provides the selective pressure in natural selection? |
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Term
| No. Natural selection changes the traits of some organisms quite quickly, in ways that are clearly adaptive. Scientists have documented such changes in thousands of studies. |
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Definition
| Sometimes critics charge that evolution is based on mere speculation because it cannot be directly observed or experimentally induced. Is this true of evolution by natural selection? |
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Term
| Many species probably did not die in the right place at the right time to be captured in fossils, and many fossils will never by found by paleontologists. |
|
Definition
| Which statement reflects a possible weakness of the fossil record? |
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|
Term
| They are structurally similar due to inheritance from a common ancestor. |
|
Definition
| Which of the following is true of homologous structures? |
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|
Term
| Evolutionary trees relate species to each other by ancestry. An ancestor common to all of the species is placed at the root of the tree. Branch points are defined by homologous features that are shared by the descendant species along a particular branch. |
|
Definition
| Which option best describes the concept of an evolutionary tree diagram? |
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Term
| A pesticide spray is heavily used on a particular farm. Initially it kills 98% of the grasshoppers on contact. Over several generations, the local grasshopper population becomes resistant to the pesticide through inheritance of resistance alleles. Other nearby grasshopper populations do not change in any noticeable way. |
|
Definition
| Of the scenarios below, which represents the occurrence of evolution at its smallest scale? |
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Term
:
The population is exposed to a toxin that kills individuals with the A allele. After exposure to the toxin the population has 25 surviving individuals, and 95% of them have the aa genotype. |
|
Definition
| Consider a hypothetical insect population of 100 individuals. Two equally represented alleles (A and a) exist for a particular gene. Which scenario is an example of microevolution in this population? |
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|
Term
|
Definition
| Which choice contributes the most to genetic variation among individuals in most prokaryote species? |
|
|
Term
| Several homozygous recessive individuals leave the population. |
|
Definition
| Which condition would disturb the Hardy-Weinberg equilibrium and cause the gene pool to change? |
|
|
Term
|
Definition
| The frequency of a particular lethal recessive allele in a population is 0.02. Given this information, calculate the percentage of individuals who are carriers of the lethal recessive allele. |
|
|
Term
| more likely to have an impact on small populations |
|
Definition
|
|
Term
|
Definition
| The Illinois populations of the greater prairie chicken benefited when managers brought in prairie chickens from other populations. This restored genetic variation to the Illinois populations through the process of _____. |
|
|
Term
| a man who lives to be 68 and has 7 children and 15 grandchildren |
|
Definition
| Which person has the highest evolutionary fitness? |
|
|
Term
| directional selection … a shift in the overall makeup of a population toward one phenotypic extreme |
|
Definition
| This figure is an example of _____ because it shows _____. |
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|
Term
| Females usually choose males with whom to mate. |
|
Definition
| What usually occurs during intersexual selection? |
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|
Term
| Individual bacteria and viruses become immune to antibiotics after they are exposed to them. Eventually the antibiotics are useless. |
|
Definition
| Which example below presents a misconception about how antibiotic resistance develops? |
|
|
Term
| the heterozygous genotype |
|
Definition
| Which genotype relative to the sickle-cell allele has the greatest reproductive success in regions where malaria is a common disease? |
|
|
Term
| The forelimbs (or possibly hind limbs) will be used for the new purpose of flight. This new function will arise through many gradual and uncertain steps, and there will be aspects of the wing that reflect its history and are not perfectly suited for flight. |
|
Definition
| In the normal course of evolution and adaptation, what is the most likely way for wings to develop in a tetrapod (four-limbed organism)? |
|
|
Term
| the appearance and extinction of species and the formation of major new branches on the tree of life |
|
Definition
| Macroevolution can be defined as _____. |
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|
Term
|
Definition
| The _____ species concept is the most applicable to classifying species from the fossil record? |
|
|
Term
| biological … different species |
|
Definition
| When a horse and a donkey mate, they produce infertile hybrids called mules. According to the _____ species concept, horses and donkeys are _____. |
|
|
Term
|
Definition
| Two species of clams inhabit the same marine habitat along the Atlantic coast. One releases gametes into the water in early spring, and the second species releases gametes into the water in late summer. Which type of reproductive barrier is at work between these species? |
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|
Term
| When the two populations evolve to be different enough so that they are incapable of interbreeding successfully when given the opportunity to do so under natural conditions, allopatric speciation is complete. |
|
Definition
| Two rodent populations become separated when a large canyon develops in a previously unbroken forest. When is allopatric speciation between the two populations complete? |
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|
Term
| A group of wild horses is transported from Wyoming to a small desert island, previously without horses, off the coast of California. No additional horses reach the island thereafter. |
|
Definition
| Which population would be most likely to undergo relatively rapid allopatric speciation? |
|
|
Term
| plant species that are capable of self-pollination and some degree of asexual reproduction |
|
Definition
| Which type of organism is most likely to undergo sympatric speciation by polyploidy? |
|
|
Term
| The tetraploid (4n) flower produces 2n gametes and may then be able to self-pollinate to produce fertile 4n offspring. |
|
Definition
| A diploid cell in a plant undergoes chromosome duplication but fails to divide properly, initiating a tetraploid (4n) branch. This branch produces a 4n flower. What can happen next? |
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|
Term
| They hybridize occasionally when the behavioral barrier separating the species fails. The fitness of hybrids fluctuates depending on the weather: Some succeed, but most do not. The result over the long term is a stable hybrid zone. |
|
Definition
| The two species of finches studied by the Grants on Daphne Major are known to hybridize. What is their status? |
|
|
Term
| A species with inflexible morphological traits finds itself in a species-rich, highly competitive environment. |
|
Definition
In which of the following situations is adaptive radiation least likely to occur? (ebook Module 14.10)
Your Answer:
The dominant organisms in an area become extinct.
Correct Answer:
A species with inflexible morphological traits finds itself in a species-rich, highly competitive environment. |
|
|
Term
|
Definition
| _______would show many small changes over a long period of time leading to the new species. |
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|
