Videos
For each of the terms in the left column, choose the best matching phrase in the right column.
| a. | basal factors | 1. | organizes enhancer/promoter interactions |
| a. | repressors | 2. | pattern of expression depends on which parent transmitted the allele |
| a. | CpG | 3. | activates gene transcription temporal- and tissue-specifically |
| a. | imprinting | 4. | site of DNA methylation |
| a. | miRNA | 5. | identifies DNA-binding sites of transcription factors |
| a. | coactivators | 6. | bind to enhancers |
| a. | epigenetic effect | 7. | bind to promoters |
| a. | insulator | 8. | bind to activators |
| a. | enhancer | 9. | prevents or reduces gene expression posttranscriptionally |
| a. | ChIP-Seq | 10. | heritable change in gene expression not caused by DNA sequence mutation |
a.
To determine:
The phrase that describes “basal factors” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Basal transcription factors are a group of general transcription factors that play a key role in the process of transcription.
Answer to Problem 1P
Correct answer:
Basal factors: Bind to promoters
Explanation of Solution
Basal factors are classified as sequence specific proteins. These factors bind to the promoters and influences the process of transcription.
b.
To determine:
The phrase that describes “repressors” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Repressors are a type of transcription factors that bind to enhancers and inhibit the process of transcription.
Answer to Problem 1P
Correct answer:
Repressors: Bind to enhancers
Explanation of Solution
Repressors are the transcription factors present in eukaryotes. They bind to the enhancers and prevent transcription initiation.
c.
To determine:
The phrase that describes “CpG” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Almost 70 to 80% of cytosines present in CpG islands are methylated. The process of mehtlyation incase of CpG islands is mediated by DNA methyltransferase.
Answer to Problem 1P
Correct answer:
CpG: Site of DNA methylation
Explanation of Solution
CpG dinucleotide is the site of methylation. Here the methyl group is added at the 5th carbon of the cytosine base on one strand of double helix DNA.
d.
To determine:
The phrase that describes “imprinting” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Impriting is the term that is majorily concerned with the branch of biology called epigenetics.
Answer to Problem 1P
Correct answer:
Imprinting: Pattern of expression depends on which parent transmitted the allele
Explanation of Solution
Genome imprinting is an epigenetic phenomenon in which allele expression depends on the parent that transmits it. In this phenomenon, the copy of the gene from one parent remains transcriptionally inactive, whereas the copy of the gene from other parent remains active.
e.
To determine:
The phrase that describes “miRNA” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
miRNA or microRNA play a significant role in the process of post transcriptional gene silencing and gene regulation.
Answer to Problem 1P
Correct answer:
miRNA: Prevents or reduces gene expression posttranscriptionally
Explanation of Solution
The miRNAs are the negative regulators of target mRNAs. As a result, they block the translation of mRNA and destabilizes it.
f.
To determine:
The phrase that describes “coactivators” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Coactivator functions as a regulator and bind to activators to enhance the process of transcription.
Answer to Problem 1P
Correct answer:
Coactivators: Bind to activators
Explanation of Solution
Coactivators are the proteins that bind to the activators and open chromatin structure for gene transcription.
g.
To determine:
The phrase that describes “epigenetic effect” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Epigentics deals with changes in the expression of the gene and epigenetic effect does not involve the role underlying DNA sequence.
Answer to Problem 1P
Correct answer:
Epigenetic effect: Heritable change in gene expression not caused by DNA sequence mutation.
Explanation of Solution
The epigenetic effect is observed in mammals especially in humans. It is the phenomenon in which the base sequence of DNA does not change. DNA methylation is responsible for altering the gene expression.
h.
To determine:
The phrase that describes “insulator” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Insulators function as sites for the binding of specific DNA binding proteins. These insulators may function as enhancer blocker.
Answer to Problem 1P
Correct answer:
Insulator: Organizes enhancer/promoter interactions.
Explanation of Solution
Insulators are the DNA elements which help in the interaction of enhancer and a promoter that are present in the same loop. Insulators are the elements of DNA which form a loop from chromatin.
i.
To determine:
To determine:
The phrase that describes “enhancer” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Enhancers are specific region of DNA which increase the rate of transcription of a specific gene.
Answer to Problem 1P
Correct answer:
Enhancer: Activates gene transcription temporal-and tissue-specifically
Explanation of Solution
Enhancers are cis-acting sequences which control the gene regulation and have many binding sites for different activators and repressors. Therefore, they are responsible for tissue and temporal specific gene transcription.
j.
To determine:
The phrase that describes “Chip-Seq” among the options given below.
1. organizes enhancer/promoter interactions
2. pattern of expression depends on which parent transmitted the allele
3. activates gene transcription temporal- and tissue-specifically
4. site of DNA methylation
5. identifies DNA-binding sites of transcription factors
6. bind to enhancers
7. bind to promoters
8. bind to activators
9. prevents or reduces gene expression posttranscriptionally
10. heritable change in gene expression not caused by DNA sequence mutation
Introduction:
Chip-Seq is sequencing methodology that can be used to determine the presence of transcription factors in the genome.
Answer to Problem 1P
Correct answer:
ChIP-Seq: Identifies DNA-binding sites of transcription factors
Explanation of Solution
Chromatin immunoprecipitation sequencing (ChIP-Seq) is a technique which helps in the identification of target genes belonging to a specific transcription factor. The specific antibody identifies the target gene that regulates specific transcription factors.
Want to see more full solutions like this?
Chapter 17 Solutions
Genetics: From Genes to Genomes
Additional Science Textbook Solutions
HUMAN ANATOMY
College Physics: A Strategic Approach (3rd Edition)
Laboratory Manual For Human Anatomy & Physiology
General, Organic, and Biological Chemistry - 4th edition
SEELEY'S ANATOMY+PHYSIOLOGY
Biology: Life on Earth with Physiology (11th Edition)
- Mutations Here is your template DNA strand: CTT TTA TAG TAG ATA CCA CAA AGG 1. Write out the complementary mRNA that matches the DNA above. 2. Write the anticodons and the amino acid sequence. 3. Change the nucleotide in position #15 to C. 4. What type of mutation is this? 5. Repeat steps 1 & 2. 6. How has this change affected the amino acid sequence? 7. Now remove nucleotides 13 through 15. 8. Repeat steps 1 & 2. 9. What type of mutation is this? 0. Do all mutations result in a change in the amino acid sequence? 1. Are all mutations considered bad? 2. The above sequence codes for a genetic disorder called cystic fibrosis (CF). 3. When A is changed to G in position #15, the person does not have CF. When T is changed to C in position #14, the person has the disorder. How could this have originated?arrow_forwardhoose a scientist(s) and research their contribution to our derstanding of DNA structure or replication. Write a one page port and include: their research where they studied and the time period in which they worked their experiments and results the contribution to our understanding of DNA cientists Watson & Crickarrow_forwardhoose a scientist(s) and research their contribution to our derstanding of DNA structure or replication. Write a one page port and include: their research where they studied and the time period in which they worked their experiments and results the contribution to our understanding of DNA cientists Watson & Crickarrow_forward
- 7. Aerobic respiration of a protein that breaks down into 12 molecules of malic acid. Assume there is no other carbon source and no acetyl-CoA. NADH FADH2 OP ATP SLP ATP Total ATP Show your work using dimensional analysis here: 3arrow_forwardFor each of the following problems calculate the following: (Week 6-3 Video with 6-1 and 6-2) Consult the total catabolic pathways on the last page as a reference for the following questions. A. How much NADH and FADH2 is produced and fed into the electron transport chain (If any)? B. How much ATP is made from oxidative phosphorylation (OP), if any? Feed the NADH and FADH2 into the electron transport chain: 3ATP/NADH, 2ATP/FADH2 C. How much ATP is made by substrate level phosphorylation (SLP)? D. How much total ATP is made? Add the SLP and OP together. 1. Aerobic respiration using 0.5 mole of glucose? NADH FADH2 OP ATP SLP ATP Total ATP Show your work using dimensional analysis here:arrow_forwardAerobic respiration of one lipid molecule. The lipid is composed of one glycerol molecule connected to two fatty acid tails. One fatty acid is 12 carbons long and the other fatty acid is 18 carbons long in the figure below. Use the information below to determine how much ATP will be produced from the glycerol part of the lipid. Then, in part B, determine how much ATP is produced from the 2 fatty acids of the lipid. Finally put the NADH and ATP yields together from the glycerol and fatty acids (part A and B) to determine your total number of ATP produced per lipid. Assume no other carbon source is available. 18 carbons fatty acids 12 carbons glycerol . Glycerol is broken down to glyceraldehyde 3-phosphate, a glycolysis intermediate via the following pathway shown in the figure below. Notice this process costs one ATP but generates one FADH2. Continue generating ATP with glyceraldehyde-3-phosphate using the standard pathway and aerobic respiration. glycerol glycerol-3- phosphate…arrow_forward
- Don't copy the other answerarrow_forward4. Aerobic respiration of 5 mM acetate solution. Assume no other carbon source and that acetate is equivalent to acetyl-CoA. NADH FADH2 OP ATP SLP ATP Total ATP Show your work using dimensional analysis here: 5. Aerobic respiration of 2 mM alpha-ketoglutaric acid solution. Assume no other carbon source. NADH FADH2 OP ATP Show your work using dimensional analysis here: SLP ATP Total ATParrow_forwardBiology You’re going to analyze 5 ul of your PCR product(out of 50 ul) on the gel. How much of 6X DNAloading buffer (dye) are you going to mix with yourPCR product to make final 1X concentration ofloading buffer in the PCR product-loading buffermixture?arrow_forward
- Write the assignment on the title "GYMNOSPERMS" focus on the explanation of its important families, characters and reproduction.arrow_forwardAwnser these Discussion Questions Answer these discussion questions and submit them as part of your lab report. Part A: The Effect of Temperature on Enzyme Activity Graph the volume of oxygen produced against the temperature of the solution. How is the oxygen production in 30 seconds related to the rate of the reaction? At what temperature is the rate of reaction the highest? Lowest? Explain. Why might the enzyme activity decrease at very high temperatures? Why might a high fever be dangerous to humans? What is the optimal temperature for enzymes in the human body? Part B: The Effect of pH on Enzyme Activity Graph the volume of oxygen produced against the pH of the solution. At what pH is the rate of reaction the highest? Lowest? Explain. Why does changing the pH affect the enzyme activity? Research the enzyme catalase. What is its function in the human body? What is the optimal pH for the following enzymes found in the human body? Explain. (catalase, lipase (in your stomach),…arrow_forwardAnwser these Discussion Questions: Part One Why were the plants kept in the dark prior to the experiment? Why is this important? Why is it important to boil the leaf? Explain why it was necessary to use boiling alcohol? What is the purpose of the iodine? Part Two What was the purpose of keeping the leaf in the dark and then covering it with a cardboard cut-out? What conclusions can you draw from this part of the lab? Part Three 7. In this experiment what was the purpose of adding the soda lime? 8. Why was a sealed bag placed around each plant? 9. What happened in the control plants? 10. What was the result on photosynthesis? Part Four 11. Why was a variegated leaf used in this experiment? !2. What conclusions can you draw about starch production in a variegated leaf?arrow_forward
Biology (MindTap Course List)BiologyISBN:9781337392938Author:Eldra Solomon, Charles Martin, Diana W. Martin, Linda R. BergPublisher:Cengage Learning
Human Heredity: Principles and Issues (MindTap Co...BiologyISBN:9781305251052Author:Michael CummingsPublisher:Cengage Learning
Concepts of BiologyBiologyISBN:9781938168116Author:Samantha Fowler, Rebecca Roush, James WisePublisher:OpenStax College
Biology Today and Tomorrow without Physiology (Mi...BiologyISBN:9781305117396Author:Cecie Starr, Christine Evers, Lisa StarrPublisher:Cengage Learning
Biology: The Dynamic Science (MindTap Course List)BiologyISBN:9781305389892Author:Peter J. Russell, Paul E. Hertz, Beverly McMillanPublisher:Cengage Learning