BIOLOGY 1A03 Lecture 12: The Standard Code and RNA
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QUESTION 1. Choose the true statement about prokaryotic and eukaryotic DNA replication. A.Eukaryotic DNA replication involves less protein factors than does prokaryotic DNA replication. |
B. Prokaryotic DNA polymerases replicate DNA 5' to 3', while eukaryotic DNA polymerases replicate DNA 3' to 5'. |
C. Eukaryotic DNA replication begins at multiple origins of replication, while prokaryotic DNA replication begins at a single origin of replication. |
D. Prokaryotic genomes take longer to replicate than eukaryotic genomes. |
QUESTION 2. Bacterial cells use DNA replication to:
A. make back-up copies of their genome in case of a mutation. |
B. manifest multiple phenotypes at once. |
C. copy their genetic material prior to binary fission. |
D. build functional proteins. |
QUESTION 3. Choose the true statement about the genetic code.
A. A cell's mRNA code is read four nucleotides at a time to specify a single amino acid. |
B. The genetic code encodes 64 amino acids, one for each of the 64 corresponding codons. |
C. The genetic code is redundant, with multiple codons specifying a single amino acid. |
D. The genetic code varies widely among organisms, with each having a different set of codons for a corresponding amino acid. |
QUESTION 4. Of the following enzymes, which are correctly matched with their function? To be marked correct, you'll need to select all correctly matched statements, as there may be more than one correct answer.
A. Helicase, relieves torsion stress as DNA unwinds |
B. Ligase, covalently bonds adjacent Okazaki fragments |
C. Primase, removes RNA primers |
D. DNA polymerase III, builds most of the DNA on the leading and lagging strand |
QUESTION 5. Which of the following contributes to DNA replication accuracy? To be marked correct, you'll need to select all true statements, as there may be more than one correct answer.
A. The capacity to proofread improves DNA replication accuracy. |
B. A slow rate of DNA replication contributes to accuracy. |
C. The use of primase improves DNA replication accuracy. |
D. DNA replication accuracy is improved thanks to complementary base pairing rules. |
The TATA-binding protein (TBP) binds to the TATA box sequence in eukaryotic promoters. What is its function in transcriptional initiation?
It blocks access of RNA polymerase to the promoter, until removed by general transcription factors.
It is the subunit of prokaryotic RNA polymerase that is required to recognize promoters.
It modifies histones so nucleosomes can be removed from DNA for transcription.
It bends and partly unwinds DNA at a promoter.
The genetic code is said to be âdegenerateâ because
there are more codons than amino acids. |
there are more amino acids than codons. |
different organisms use different codons to encode the same amino acid. |
some codons specify more than one amino acid. |
Three general mechanisms appear to be responsible for the conversion of proto-oncogenes to oncogenes
overexpression, point mutations, deletions |
inversions, translocations, methylation |
familial, sporatic, phosphorylation |
None of the above account for the conversion of proto-oncogenes into oncogenes |
Transcriptional control of genes that acts by regulating the continuation of transcription is called
induction |
attenuation |
antitermination |
negative inducible control |
The genetic code is fairly consistent among all organisms. The term used to describe this consistency is
redundant |
resilient |
universal |
the central dogma |
The F, G, and H loci are linked in the order written. There are 30 cM between F and G and 30 cM between G and H. If a plant Ff Gg Hh is testcrossed, what proportion of the progeny will be ff gg hh, assuming no interference?
0.7 |
0.3 |
0.245 |
0.15 |
DNA synthesis is always from 5â to 3â because
replication must be continuous |
the strands are antiparallel |
primers lack 3â to 5â exonuclease activity |
none of the above |
The F, G, and H loci are linked in the order written. There are 30 cM between F and G and 30 cM between G and H. If a plant Ff Gg Hh is testcrossed, what proportion of the progeny will be ff gg hh, assuming no interference?
0.7 |
0.3 |
0.245 |
0.15 |
In the ZZ-ZW sex-determination system, if an AaBb female was crossed to an individual of genotype Aa Bb, what is the probability of a female offspring with the two dominant traits given by alleles A and B? Assume A and B are dominant alleles.
1/8 |
1/16 |
9/16 |
9/32 |