Which of the following is an example of an epigenetic change that alters gene expression?
- a. chromatin remodeling
- b. covalent histone modification
- c. localization of histone variants
- d. DNA methylation
- e. all of the above
Introduction:
Epigenetics refers to the study of changes in the expression of genes. The epigenetic changes do not change the sequence of DNA. The epigenetic changes are natural changes and they can also occur due to factors like age, lifestyle, or health conditions.
Answer to Problem 1TY
Correct answer:
The examples of epigenetic change that alter the gene expression are chromatin remodeling, covalent histone modification, localization of histone variants, and DNA methylation. Hence, the correct answer is option e.
Explanation of Solution
Reason for correct answer:
Chromatin remodeling is the modification in the structure of chromatin. Thereby, genomic DNA enters into transcription machinery proteins and alters gene expression. The covalent histone modification modifies histone proteins. The localization of histone variants brings about epigenetic changes. DNA methylation process alters the gene expression but does not disturb the DNA sequence. So, all these are the examples of epigenetic change which alter the gene expression.
Option e is given as “all of the above”.
Hence, the correct answer is option e.
Reasons for the incorrect answer:
Option a is given as, “chromatin remodeling”
Chromatin remodeling refers to the modification done to the structure of chromatin. Thereby, permitting the entry of genomic DNA into the transcription machinery proteins which will result in the alteration of gene expression. However, covalent histone modification, DNA methylation, and the localization of histone variants are also examples of epigenetic change. Hence, option a is incorrect.
Option b is given as, “covalent histone modification”.
The covalent histone modification alters the histone proteins. These modifications to the histone proteins are responsible for the gene expression. However, chromatin remodeling, DNA methylation, and the localization of histone variants are also examples of epigenetic change. Hence, option b is incorrect.
Option c is given as, “localization of histone variants”.
Histone variants cause differentiation of the chromatin. This differentiation of chromatin brings about genetic changes. However, chromatin remodeling, DNA methylation, and covalent histone modification are also examples of epigenetic change. Hence, option c is incorrect.
Option d is given as, “DNA methylation”.
DNA methylation is the addition of methyl groups to the molecule of DNA, but it does not alter the sequence of DNA. So, it is an example of epigenetic change along with chromatin remodeling, covalent histone modification, and the localization of histone variants are also examples of epigenetic change. Hence, option d is incorrect.
Hence, the options a, b, c, and d are incorrect.
Thus, chromatin remodeling, DNA methylation, covalent histone modification, and the localization of histone variants are all examples of epigenetic change that alters the expression of the gene.
Want to see more full solutions like this?
Chapter 18 Solutions
BIOLOGY-TEXT
- Post-translational control refers to: a. regulation of gene expression after transcription b. regulation of gene expression after translation c. control of epigenetic activation d. period between transcription and translationarrow_forwardWhich of the following is an example of chromatin modification that stimulates gene expression? Group of answer choices A. alternative exon splicing b. microRNA binding to mRNA c. DNA methylation D. histone acetylationarrow_forwardEpigenetic marks regulate gene expression. Which epigenetic mark is NOT associated with positive gene expression? A. Histone acetylation B. Histone Methylation C. De-methylated DNA D. Methylated DNAarrow_forward
- Cancer cells removed from a patient's tumor have increased gene expression of several hundred genes (including many cancer-causing genes). Scientists determine that the histones from the cancer cells have an overall/average lower affinity for DNA than histones from normal control cells. Which drug is most likely to help treat this patient's cancer? a. An inhibitor for HMT (histone methyltransferases) b. An inhibitor for HDM (histone demethylases) c. An inhibitor for HDACs (histone deacetylases) d. An inhibitor for HATs (histone acetyltransferase)arrow_forwardPossible genetic modifications that can cause epigenetic changes in gene expression include: A- all answers are correct B- histone acetylation C- chromatin remodeling D- histone variant localization  e- DNA methylationarrow_forwardWhich of the following is NOT a way in which proto-oncogenes can change to become genes that induce cancer? Group of answer choices a. changes in a control element (enhancer) to increase transcription b. gene amplification c. changes in DNA sequence to produce a product that degrades rapidly d. movement of the gene adjacent to a different control element to increase transcription e. changes in DNA sequence to produce a product that isarrow_forward
- Which of the following is not an example of constitutively expressed gene? a. genes for cell division and growth b. genes involved in DNA repair c. genes for cellular respiration d. genes that function in ATP synthesisarrow_forwardA researcher has identified a mutant strain of yeast whose histones are unable to be acetylated. Which of the following is the MOST reasonable prediction for how the phenotype of this mutant yeast will differ from the phenotype of yeast cells with acetylated histones? A. The mutant will grow more rapidly. B. The mutant will grow much more slowly. C. The mutant will show decreased levels of gene expression. D. The mutant will show increased levels of gene expression.arrow_forwardTranscriptional repressor proteins (e.g., lac repressor), antisense RNA, and feedback inhibition are three different mechanisms that turn off the expression of genes and gene products. Which of these three mechanisms will be most effective in each of the following situations? A. Shutting down the synthesis of a polypeptide B. Shutting down the synthesis of mRNA C. Shutting off the function of a protein For your answers to parts A–C that list more than one mechanism, which mechanism will be the fastest or the most efficient?arrow_forward
- A cell is homozygous for a LOF mutation in the histone acetyltransferase (HAT) gene. Which of the following is/are true? a. Chromatin in the cell will be more condensed than usual, decreasing expression of genes that should be expressed. b. This will lead to histones with more positive charges on their tails, increasing the interaction between histones and the DNA backbone. c. This will lead to a decrease in DNA methylation and therefore cause an increase in gene expression. d. Chromatin in the cell will be less condensed than usual, increasing expression of genes that should not be expressed.arrow_forwardWhich of the following terms refer to the case when a mutation results in a significant decrease or a complete loss of the functional activity of a gene product? a. gain-of-function mutation b. loss-of-function mutationarrow_forwardWhich of the following will lead to a decrease in transcription of a gene? A. Increase in histone acetyltransferases. B. Decrease in CpG methylation of promoter. C. Increase in histone deacetylases. D. Decrease in DNA methyltransferases.arrow_forward
- Concepts of BiologyBiologyISBN:9781938168116Author:Samantha Fowler, Rebecca Roush, James WisePublisher:OpenStax College