You find a way to attach either a red or green fluorescent dye to nucleotides. Double-stranded DNA molecules with both strands labeled red fluoresce red, those with both strands labeled green fluoresce green, and those with one strand labeled red and the other green fluoresce yellow. You grow human cells in the presence of âredâ nucleotides until both DNA strands of all chromosomes fluoresce red. You then allow one round of DNA replication in the presence of âgreenâ nucleotides.
What pattern of fluorescence do you expect to see in the sister chromatids of each chromosome?
a) one chromatid red, the other green
b) one chromatic green, the other yellow
c) both chromatids yellow
d) one chromatic red, the other yellow
Continuing your experiment with âredâ and âgreenâ labeled chromosomes, you allow cells with DNA labeled âredâ in both DNA strands to undergo two rounds of DNA replication in the presence of âgreenâ nucleotides. What pattern of fluorescence would you expect to see in the sister chromatids of each chromosome?
a) one chromatid red, the other yellow
b) one chromatid red, the other green
c) one chromatid green, the other yellow
d) both chromatids yellow
You find a way to attach either a red or green fluorescent dye to nucleotides. Double-stranded DNA molecules with both strands labeled red fluoresce red, those with both strands labeled green fluoresce green, and those with one strand labeled red and the other green fluoresce yellow. You grow human cells in the presence of âredâ nucleotides until both DNA strands of all chromosomes fluoresce red. You then allow one round of DNA replication in the presence of âgreenâ nucleotides. |
What pattern of fluorescence do you expect to see in the sister chromatids of each chromosome? |
a) one chromatid red, the other green
b) one chromatic green, the other yellow
c) both chromatids yellow
d) one chromatic red, the other yellow
Continuing your experiment with âredâ and âgreenâ labeled chromosomes, you allow cells with DNA labeled âredâ in both DNA strands to undergo two rounds of DNA replication in the presence of âgreenâ nucleotides. What pattern of fluorescence would you expect to see in the sister chromatids of each chromosome? |
a) one chromatid red, the other yellow
b) one chromatid red, the other green
c) one chromatid green, the other yellow
d) both chromatids yellow
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1. Characters that show a continuous range of variation, such as height and eye color, usually are controlled:
a. | by a single gene with two alleles that are codominant. |
b. | by many genes with an additive effect. |
c. | by epistatic interactions between two genes. |
d. | mainly by the environment, with only a small genetic component. |
2. In humans, red-green colorblindness is inherited as a sex-linked recessive trait. In order for a woman to be red-green colorblind, which of the following statements must be true.
a. | Her mother must be red-green colorblind. |
b. | All of her brothers must be red-green colorblind. |
c. | Her father must be red-green colorblind. |
d. | All of the above statements must be true if a woman is red-green colorblind. |
3. The x-ray crystallography data collected by Rosalind Franklin suggested to Watson and Crick that the:
a. | structure of DNA is a double helix. |
b. | two strands of the DNA molecule are joined by hydrogen bonds between the bases. |
c. | four bases within DNA pair in a specific way. |
d. | two strands of the DNA molecule are joined by covalent bonds between the bases. |
4. In the genetic code, _________ one amino acid.
a. | one nucleotide specifies |
b. | two nucleotides specify |
c. | three nucleotides specify |
d. | four nucleotides specify |
5. During Meiosis I, a homologous pair of chromosomes may not separate, resulting in daughter cells that have extra chromosomes or are missing chromosomes. This can lead to genetic disorders, including Down Syndrome. This phenomenon is called:
a. | independent assortment. |
b. | nondisjunction. |
c. | segregation. |
d. | crossing over. |
6. You are a human geneticist studying the incidence of retinitis pigmentosa in the residents of Tristan de Cunha, a group of small islands in the middle of the southern Atlantic Ocean. The allele for retinitis pigmentosa, which causes a form of blindness, is inherited as an autosomal recessive. You have determined that the frequency of this allele (r) in the population is 0.4 (40%). Using the principles of the Hardy-Weinberg rule, you would estimate the frequency of individuals who are heterozygous for this allele (Rr) in the population to be:
a. | 0.16 (16%) |
b. | 0.24 (24%) |
c. | 0.36 (36%) |
d. | 0.48 (48%) |
7. Natural selection acts at the level of the:
a. | phenotype. |
b. | gene. |
c. | population. |
d. | nucleotide. |
8. You are working with pea plants, trying to recreate the experiments that Mendel performed. You are doing a dihybrid cross with a plant that is heterozygous for both seed shape and seed color, with the genotype RrYy. Which allelic combinations would you expect to find in the gametes produced by this plant?
a. | This plant would produce only RY and ry gametes. |
b. | This plant would produce only RrYy gametes. |
c. | This plant would produce RY, Ry, rY, and ry gametes. |
d. | You cannot determine which gametes this plant can produce without knowing the genotypes of its parents. |
9. Biochemist Erwin Chargaff found that in DNA there is a special relationship between the four bases that we now call Chargaff's rule. His observation was that, in an organism's genome the:
a. | percentage of A nucleotides = the percentage of T nucleotides, and the percentage of C nucleotides = the percentage of G nucleotides. |
b. | four bases all occur in an equal frequency (25%) within each organism. |
c. | percentage of A nucleotides = the percentage of G nucleotides, and the percentage of C nucleotides = the percentage of T nucleotides. |
d. | genetic material is composed of proteins, not DNA. |
10. During DNA replication:
a. | each strand of the double helix acts as a template for the synthesis of a new strand. |
b. | the enzyme DNA polymerase adds nucleotides to the strand being synthesized. |
c. | the bases A,C,G and T are required. |
d. | All of the above are true of DNA replication. |
11. During translation, amino acids are joined by peptide bonds to make polypeptides. The formation of these peptide bonds is catalyzed by:
a. | DNA. |
b. | mRNA. |
c. | tRNA. |
d. | rRNA. |
12. If an allele (R) at a gene with two alleles shows complete dominance, individuals with the genotypes ______ will have the same phenotype.
a. | RR and rr. |
b. | RR and Rr |
c. | Rr and rr |
d. | Each of the three possible genotypes will have a different phenotype. |