Review Questions

4. Control of gene expression in eukaryotic cells occurs at which level(s)?

  1. only the transcriptional level
  2. epigenetic and transcriptional levels
  3. epigenetic, transcriptional, and translational levels
  4. epigenetic, transcriptional, post-transcriptional, translational, and post-translational levels

5. Post-translational control refers to:

  1. regulation of gene expression after transcription
  2. regulation of gene expression after translation
  3. control of epigenetic activation
  4. period between transcription and translation

6. How does the regulation of gene expression support continued evolution of more complex organisms?

  1. Cells can become specialized within a multicellular organism.
  2. Organisms can conserve energy and resources.
  3. Cells grow larger to accommodate protein production.
  4. Both A and B.

7. If glucose is absent, but so is lactose, the lac operon will be ________.

  1. activated
  2. repressed
  3. activated, but only partially
  4. mutated

8. Prokaryotic cells lack a nucleus. Therefore, the genes in prokaryotic cells are:

  1. all expressed, all of the time
  2. transcribed and translated almost simultaneously
  3. transcriptionally controlled because translation begins before transcription ends
  4. b and c are both true

9. The ara operon is an inducible operon that controls the breakdown of the sugar arabinose. When arabinose is present in a bacterium it binds to the protein AraC, and the complex binds to the initiator site to promote transcription. In this scenario, AraC is a(n) ________.

  1. activator
  2. inducer
  3. repressor
  4. operator

10. What are epigenetic modifications?

  1. the addition of reversible changes to histone proteins and DNA
  2. the removal of nucleosomes from the DNA
  3. the addition of more nucleosomes to the DNA
  4. mutation of the DNA sequence

11. Which of the following are true of epigenetic changes?

  1. allow DNA to be transcribed
  2. move histones to open or close a chromosomal region
  3. are temporary
  4. all of the above

12. The binding of ________ is required for transcription to start.

  1. a protein
  2. DNA polymerase
  3. RNA polymerase
  4. a transcription factor

13. What will result from the binding of a transcription factor to an enhancer region?

  1. decreased transcription of an adjacent gene
  2. increased transcription of a distant gene
  3. alteration of the translation of an adjacent gene
  4. initiation of the recruitment of RNA polymerase

14. A scientist compares the promoter regions of two genes. Gene A’s core promoter plus proximal promoter elements encompasses 70bp. Gene B’s core promoter plus proximal promoter elements encompasses 250bp. Which of the scientist’s hypotheses is most likely to be correct?

  1. More transcripts will be made from Gene B.
  2. Transcription of Gene A involves fewer transcription factors.
  3. Enhancers control Gene B’s transcription.
  4. Transcription of Gene A is more controlled than transcription of Gene B.

15. Which of the following are involved in post-transcriptional control?

  1. control of RNA splicing
  2. control of RNA shuttling
  3. control of RNA stability
  4. all of the above

16. Binding of an RNA binding protein will ________ the stability of the RNA molecule.

  1. increase
  2. decrease
  3. neither increase nor decrease
  4. either increase or decrease

17. An unprocessed pre-mRNA has the following structure.

An illustration shows an R N A transcript including seven boxes and their associated lengths in base pairs (abbreviated b p) labeled, left to right, as exon with 50 b p, intron with 110 b p, exon with 70 b p, intron with 20 b p, exon with 130 b p, intron with 75 b p, and exon with 30 b p.

 

 

Which of the following is not a possible size (in bp) of the mature mRNA?

  1. 205bp
  2. 180bp
  3. 150bp
  4. 100bp

18. Alternative splicing has been estimated to occur in more than 95% of multi-exon genes. Which of the following is not an evolutionary advantage of alternative splicing?

  1. Alternative splicing increases diversity without increasing genome size.
  2. Different gene isoforms can be expressed in different tissues.
  3. Alternative splicing creates shorter mRNA transcripts.
  4. Different gene isoforms can be expressed during different stages of development.

19. Post-translational modifications of proteins can affect which of the following?

  1. protein function
  2. transcriptional regulation
  3. chromatin modification
  4. all of the above

20. A scientist mutates eIF-2 to eliminate its GTP hydrolysis capability. How would this mutated form of eIF-2 alter translation?

  1. Initiation factors would not be able to bind to mRNA.
  2. The large ribosomal subunit would not be able to interact with mRNA transcripts.
  3. tRNAi-Met would not scan mRNA transcripts for the start codon.
  4. eIF-2 would not be able to interact with the small ribosomal subunit.

21. Cancer causing genes are called ________.

  1. transformation genes
  2. tumor suppressor genes
  3. oncogenes
  4. mutated genes

22. Targeted therapies are used in patients with a set gene expression pattern. A targeted therapy that prevents the activation of the estrogen receptor in breast cancer would be beneficial to which type of patient?

  1. patients who express the EGFR receptor in normal cells
  2. patients with a mutation that inactivates the estrogen receptor
  3. patients with lots of the estrogen receptor expressed in their tumor
  4. patients that have no estrogen receptor expressed in their tumor

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Biology 2e for Biol 111 and Biol 112 Copyright © 2023 by Mary Ann Clark; Jung Choi; and Matthew Douglas is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.

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