Genetics: From Genes to Genomes
6th Edition
ISBN: 9781259700903
Author: Leland Hartwell Dr., Michael L. Goldberg Professor Dr., Janice Fischer, Leroy Hood Dr.
Publisher: McGraw-Hill Education
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Textbook Question
Chapter 8, Problem 1P
For each of the terms in the left column, choose the best matching phrase in the right column
| a. | codon | 1. | removing base sequences corresponding to introns from the primary transcript |
| b. | colinearity | 2. | UAA, UGA, or UAG |
| c. | reading frame | 3. | the strand of DNA that has the same base sequence as the primary transcript |
| d. | frameshift mutation | 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| e. | degeneracy of the | 5. | a group of three mRNA bases genetic code signifying one amino acid |
| f. | nonsense codon | 6. | most amino acids are not specified by a single codon |
| g. | initiation codon | 7. | using the information in the |
| h. | template strand | 8. | the grouping of mRNA bases in threes to be read as codons |
| i. | RNA-like strand | 9. | AUG in a particular context |
| j. | intron | 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| k. | RNA splicing | 11. | produces different mature mRNAs from the same primary transcript |
| l. | transcription | 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| m. | translation | 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| n. | alternative splicing | 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| o. | charged tRNA | 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| p. | reverse | 16. | copying RNA into DNA transcription |
Expert Solution
Summary Introduction
a.
To determine:
The phrase that describes “codon” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Codon can be defined as the group or collection of three continuous nitrogenous bases.
Answer to Problem 1P
Correct answer:
Codon: A group of three mRNA bases genetic code signifying one amino acid
Explanation of Solution
Codon is a sequence of three nucleotides which are complementary to the nucleotides present in DNA or RNA. Each codon adds a specific amino acid for the synthesis of protein.
Expert Solution
Summary Introduction
b.
To determine:
The phrase that describes “colinearity” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Colinearity is a type of order of sequence with respect to the another sequence in the linear order.
Answer to Problem 1P
Correct answer:
Colinearity: The linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene
Explanation of Solution
Colinearity is the arrangement of a sequence in the same order to another sequence in linearity. This means that the linear sequence of amino acids in the polypeptide match with the linear sequence of nucleotide pairs in the gene.
Expert Solution
Summary Introduction
c.
To determine:
The phrase that describes “reading frame” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Reading frame is the defined set of order of nucleotide sequnces in the direction of their reading structures.
Answer to Problem 1P
Correct answer:
Reading frame: The grouping of mRNA bases in threes to be read as codons
Explanation of Solution
Reading frame is the grouping of mRNA bases in three which can be read as codons.
Expert Solution
Summary Introduction
d.
To determine:
The phrase that describes “frameshift mutation” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Insertion or deletion of the particular nucleotide bases in a given base sequence results in the frameshift type of mutation.
Answer to Problem 1P
Correct answer:
Frameshift mutation: Addition or deletion of a number of base pairs other than three into the coding sequence
Explanation of Solution
Frameshift mutation is the mutation which occurs because of addition or deletion of bases in the DNA of a gene.
Expert Solution
Summary Introduction
e.
To determine:
The phrase that describes “degeneracy of the codon” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Degeneracy of the codon simply means that one amino acid can be specified by more than one codon.
Answer to Problem 1P
Correct answer:
Degeneracy of the genetic code: Most amino acids are not specified by a single codon
Explanation of Solution
Degeneracy of the genetic code is referred to the different codons for one amino acid. There are some amino acids which are coded by more than one codon.
Expert Solution
Summary Introduction
f.
To determine:
The phrase that describes “nonsense codon” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Nonsense codons are not involved in the coding of any type of amino acids. These are the termination codons that are used for the termination of the process.
Answer to Problem 1P
Correct answer:
Nonsense codon: UAA, UGA, or UAG
Explanation of Solution
Nonsense codons are the type of codons which do not have normal tRNA molecule. These codons terminate the process of protein synthesis. There are three types of nonsense codons and are UAG, UAA, and UGA.
Expert Solution
Summary Introduction
g.
To determine:
The phrase that describes “initiation codon” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Initiation codon is the sequence of three nucleotides named as A, U, and G. It is the site from which process of translation starts.
Answer to Problem 1P
Correct answer:
Initiation codon: AUG in a particular context
Explanation of Solution
AUG is an initiation codon. It is the codon from where the process of translation starts on the mRNA transcript.
Expert Solution
Summary Introduction
h.
To determine:
The phrase that describes “template strand” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Template strand is the coding strand which is used for the synthesis of the messenger ribonucleic acid.
Answer to Problem 1P
Correct answer:
Template strand: The strand of DNA having the base sequence complementary to that of the primary transcript
Explanation of Solution
Template strand is the strand of DNA which is responsible for the synthesis of mRNA strand. It has complementary sequences to the primary transcript.
Expert Solution
Summary Introduction
i.
To determine:
The phrase that describes “RNA-like strand” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
RNA like strand is the strand that possesses almost same sequence as of the primary transcript.
Answer to Problem 1P
Correct answer:
RNA-like strand: The strand of DNA that has the same base sequence as the primary transcript
Explanation of Solution
RNA-like strand is the strand of the DNA which has the same base sequences as the primary transcript.
Expert Solution
Summary Introduction
j.
To determine:
The phrase that describes “intron” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Introns are the noncoding regions that are not involved in the synthesis of any type of amino acid.
Answer to Problem 1P
Correct answer:
Intron: A sequence of base pairs within a gene that is not represented by any bases in the mature mRNA
Explanation of Solution
Introns are the sequences of base pairs present in a gene that is not functional. They are not represented by any bases in the mature mRNA transcript.
Expert Solution
Summary Introduction
k.
To determine:
The phrase that describes “RNA splicing” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
RNA splicing is the process of modification of RNA during which removal of introns are carried out.
Answer to Problem 1P
Correct answer:
RNA splicing: Removing base sequences corresponding to introns from the primary transcript
Explanation of Solution
RNA splicing is the process which involves removal of the base sequences corresponding to introns from the primary transcript.
Expert Solution
Summary Introduction
l.
To determine:
The phrase that describes “transcription” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
A process of conversion of DNA to the messenger RNA is referred to as the process of transcription.
Answer to Problem 1P
Correct answer:
Transcription: Using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA
Explanation of Solution
Transcription is the process in which RNA strand is produced over DNA template. The process uses the information present in the nucleotide sequence of a DNA strand.
Expert Solution
Summary Introduction
m.
To determine:
The phrase that describes “translation” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
A process of conversion of messenger RNA into the functional protein is referred to as the process of translation.
Answer to Problem 1P
Correct answer:
Translation: Using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule.
Explanation of Solution
Translation is the process of protein synthesis. A polypeptide is formed from the mRNA strand by using the information present in the nucleotides of mRNA.
Expert Solution
Summary Introduction
n.
To determine:
The phrase that describes “alternative splicing” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
When different types of mature ribonucleic acid can be produced with the help of single transcript, the process is called alternative splicing.
Answer to Problem 1P
Correct answer:
Alternative splicing: Produces different mature mRNAs from the same primary transcript
Explanation of Solution
Alternative splicing is the process that produces different mRNA transcript from the same primary transcript.
Expert Solution
Summary Introduction
o.
To determine:
The phrase that describes “charged tRNA” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
Charged transfer RNA molecule is that to which a functinal amino acid has been attached.
Answer to Problem 1P
Correct answer:
charged tRNA: A transfer RNA molecule to which the appropriate amino acid has been attached
Explanation of Solution
Charged tRNA is a transfer RNA molecule. It carries the correct amino acid that is attached to the mRNA transcript for protein synthesis.
Expert Solution
Summary Introduction
p.
To determine:
The phrase that describes “reverse” among the options given below.
| 1. | removing base sequences corresponding to introns from the primary transcript |
| 2. | UAA, UGA, or UAG |
| 3. | the strand of DNA that has the same base sequence as the primary transcript |
| 4. | a transfer RNA molecule to which the appropriate amino acid has been attached |
| 5. | a group of three mRNA bases genetic code signifying one amino acid |
| 6. | most amino acids are not specified by a single codon |
| 7. | using the information in the nucleotide sequence of a strand of DNA to specify the nucleotide sequence of a strand of RNA |
| 8. | the grouping of mRNA bases in threes to be read as codons |
| 9. | AUG in a particular context |
| 10. | the linear sequence of amino acids in the polypeptide corresponds to the linear sequence of nucleotide pairs in the gene |
| 11. | produces different mature mRNAs from the same primary transcript |
| 12. | addition or deletion of a number of base pairs other than three into the coding sequence |
| 13. | a sequence of base pairs within a gene that is not represented by any bases in the mature mRNA |
| 14. | the strand of DNA having the base sequence complementary to that of the primary transcript |
| 15. | using the information encoded in the nucleotide sequence of an mRNA molecule to specify the amino acid sequence of a polypeptide molecule |
| 16. | copying RNA into DNA transcription |
Introduction:
When DNA is produced from the information stored in the RNA, the process is referred to as reverse transcription.
Answer to Problem 1P
Correct answer:
Reverse transcription: Copying RNA into DNA transcription
Explanation of Solution
Reverse transcription is the process in which the information of RNA is copied into the strand of DNA. The process is catalyzed by reverse transcriptase enzyme.
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Students have asked these similar questions
Given Sequence:
5’ – TCAGGACTGATAGGCTAATCGGCCCGCGCACAT-3’
a. Complementary Strand
b. Direct Transcript
c. Transcript for Translation
d. Amino Acid Sequence or Translation:
Below is the DNA sequence of a patient with overlapping genes (a single mRNA has multiple initiation points for translation) for two different proteins (DADαs and AMA):
5’- GTCCCAACCATGCCCACCGATCTTCCGCCTGCTTCTGAAGATGCGGGCCCAGGGAAATCTCTAACG-3’
1. Indicate the DNA sequence coding for RNA.
2. Indicate the amino acid sequence of each of them.
Assume that a mutation occurs in the gene that encodes each of the
following RNA polymerases. Match the mutation with its possible
effects by placing the correct letter or letters in the blanks below. There
may be more than one effect for each mutated polymerase.
A mutation in the gene that codes for E
RNA polymerase I
RNA polymerase II
RNA polymerase III
Possibleeffects
a. tRNA is not synthesized
b. Some ribosomal RNA is not synthesized
c. Ribosomal RNA is not processed
d. pre-mRNA is not processed
e. Some mRNA molecules are not degraded
f. pre-mRNA is not synthesized
Chapter 8 Solutions
Genetics: From Genes to Genomes
Ch. 8 - For each of the terms in the left column, choose...Ch. 8 - Match the hypothesis from the left column to the...Ch. 8 - How would the artificial mRNA 5GUGUGUGU . . . 3 be...Ch. 8 - An example of a portion of the T4 rIIB gene in...Ch. 8 - Consider Crick and Brenners experiments in Fig....Ch. 8 - The HbSsickle-cell allele of the human -globin...Ch. 8 - The following diagram describes the mRNA sequence...Ch. 8 - The amino acid sequence of part of a protein has...Ch. 8 - The results shown in Fig. 8.5 may have struck you...Ch. 8 - Identify all the amino acid-specifying codons in...
Ch. 8 - Before the technology existed to synthesize RNA...Ch. 8 - A particular protein has the amino acid sequence...Ch. 8 - How many possible open reading frames frames...Ch. 8 - Prob. 14PCh. 8 - Charles Yanofsky isolated many different trpA-...Ch. 8 - The sequence of a segment of mRNA, beginning with...Ch. 8 - You identify a proflavin-generated allele of a...Ch. 8 - Using recombinant DNA techniques which will be...Ch. 8 - Describe the steps in transcription that require...Ch. 8 - Chapters 6 and 7 explained that mistakes made by...Ch. 8 - The coding sequence for gene F is read from left...Ch. 8 - If you mixed the mRNA of a human gene with the...Ch. 8 - Prob. 23PCh. 8 - The Drosophila gene Dscam1 encodes proteins on the...Ch. 8 - Describe the steps in translation that require...Ch. 8 - Locate as accurately as possible the listed items...Ch. 8 - Concerning the figure for Problem 26: a. Which...Ch. 8 - a. Can a tRNA exist that has the anticodon...Ch. 8 - For parts a and b of Problem 28, consider the DNA...Ch. 8 - Remembering that the wobble base of the tRNA is...Ch. 8 - Prob. 31PCh. 8 - The yeast gene encoding a protein found in the...Ch. 8 - The sequence of a complete eukaryotic gene...Ch. 8 - Arrange the following list of eukaryotic gene...Ch. 8 - Prob. 35PCh. 8 - The human gene for 2 lens crystallin has the...Ch. 8 - In prokaryotes, a search for genes in a DNA...Ch. 8 - a. The genetic code table shown in Fig. 8.2...Ch. 8 - a. Very few if any eukaryotic genes contain tracts...Ch. 8 - Explain how differences in the initiation of...Ch. 8 - Do you think each of the following types of...Ch. 8 - Null mutations are valuable genetic resources...Ch. 8 - The following is a list of mutations that have...Ch. 8 - Considering further the mutations described in...Ch. 8 - Adermatoglyphia described previously in Problem 18...Ch. 8 - Prob. 46PCh. 8 - You learned in Problem 21 in Chapter 7 that the...Ch. 8 - When 1 million cells of a culture of haploid yeast...Ch. 8 - Why is a nonsense suppressor tRNATyr, even though...Ch. 8 - A mutant B. adonis bacterium has a nonsense...Ch. 8 - You are studying mutations in a bacterial gene...Ch. 8 - Another class of suppressor mutations, not...Ch. 8 - Yet another class of suppressor mutations not...Ch. 8 - At least one nonsense suppressing tRNA is known...Ch. 8 - An investigator was interested in studying UAG...Ch. 8 - Prob. 56PCh. 8 - In certain bacterial species, pyrrolysine Pyl,...Ch. 8 - Canavanine is an amino acid similar to arginine...
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- Answer the following: DNA fragment A is 3' AGC CCG CTC CGA GGC TAA AAG CGT 5' 1. is % of guanine in DNA fragment A 2. is the 4th codon in the complement of DNA fragment A from the 5' end 3. is the 3rd codon in the mRNA copied from DNA fragment A from the 3' end 4. is the N-terminal amino acid of the peptide produced 5. is the C-terminal amino acid of the peptide producedarrow_forwardA mutant DNA strand was transcribed then translated to proteins. a. What is the protein product of the mutant DNA strand? The sequence of the mutant strand is shown below: 5'-TGCCATAACTGTTCGTACTGGCAAATTGCC-3' 3'-ACGGTATTGACAAGCATGACCGTTTAACGG-5' b. The mutation altered the sequence of the wild type template DNA such that a degenerate codon for a basic amino acid in the wild type was converted to a non-degenerate codon resulting in the sequence for the mutant strand shown. What was the original amino acid? c. Compare the charges and pl of the mutant peptide and the normal (wild- type) peptide at physiological pH?arrow_forwardThe coding sequences of Gene F and Gene G are shown by the double-stranded DNA below: Gene F 5' ATGGGAGCACCAGGACAAGATGGATATCATTAG 3' 3' AGTTACCCTC GT GG TCCTGTTCTACCTATAGTAS Gene G Questions: 1. Write down the messenger RNA sequence when Gene F is transcribed. 2. Write down the polypeptide chain when Gene F is completely expressed. 3. Write down the messenger RNA sequence when Gene G is transcribed. 4. Write down the polypeptide chain when Gene G is completely expressed.arrow_forward
- Given is the 30 nucleotides in the human gene for hemoglobin (the oxygen-carrying protein in the red blood cells): 5’ TAC-CAC-GTG-GAC-TGA-GGA-CTC-CTC-TTC-AGA 3’ a. What is the complementary strand? b.Deduce the mRNA in this coding region. c.What is the amino acid sequence based on this mRNA? d. A very important mutation in human hemoglobin occurs in this DNA sequence, where the T at nucleotide 20 is replace with an A. The mutant hemoglobin is called sickle cell hemoglobin and is associated with severe anemia. What is the amino acid replacement that results in sickle-cell hemoglobin?arrow_forwardWhich of the following represents the sequence of an RNA transcript for which the template strand of DNA has the sequence: GTACTGGCTAGCTGCTAGAA? Note all sequences are written 5'-3'. DA. GUACUGGCUAGCUGCUAGAA B. UUCUAGCAGCUAGCCAGUAC с. ТТСТАGCAGCTAGCCAGTАС D. GTACTGGCТAGCTGCTAGAАarrow_forwardGive typing answer with explanation and conclusionarrow_forward
- Number 8arrow_forwardWhich of the following represents the sequence of an RNA transcript for which the coding strand (also known as non-template strand) of DNA has the sequence: GTACTGGCTAGCTGCTAGAA? Note all sequences are written 5'-3'. OA. AAGAUCGUCGAUCGGUCAUG OB. AAGATCGTCGATCGG TCATG OC. GTACTGGC TAGCTGC TAGAA OD. GUACUGGCUAGCUGCUAGAAarrow_forwardFor each of the following sequences, place a check mark in the appropriate space to indicate the process most immediately affected by deleting the sequence. Choose only one process for each sequence (i.e., one check mark per sequence). Process most immediately affected by deletion RNA Sequence deleted Replication Transcription Translation processing a. ori site b. 3' splice site consensus c. Poly(A) tail d. Terminator e. Start codon f. -10 consensus g. Shine-Dalgarnoarrow_forward
- a) Complete the table below. Assume that reading is from left to right and that the columns represent transcriptional and translational alignments. Label the 5’ and 3’ ends of DNA and RNA and carboxy and amino acid ends of protein. (You may fill in this chart by hand writing- no typing necessary here.) 2. b) Is the top or bottom DNA strand the template strand?arrow_forwardBelow is the 5’–3’ strand of a double-stranded DNA molecule with the following nucleotide sequences: 5’ C C T A T G C A G T G G C C A T A T T C C A A A G C A T A G C 3’ 1. If the above DNA strand is the coding (sense) strand and the DNA molecule is transcribed, what is the correct nucleotide sequence and direction of the RNA formed after transcription? 2. If the RNA synthesized above (item #1) is a functional mRNA and all the nucleotides belong to an exon, a. how many codons are present in this mRNA? b. how many codons actually code for proteins in this mRNA? c. what stop codon is present in this mRNA?arrow_forwardFor each of the following items, fill in either the DNA strand, the MRNA codons, the tRNA anticodons, or the amino acid sequence that have been left blank. If several sequences might work, choose only one. Furthermore, circle the start and the stop codons of each mRNA sequence. 1. DNA (3'-5') ACG TAC GGC CGG TTA AAG CAT ACT TTC TTG MRNA TRNA Amino Acid 2. DNA (3'-5') MRNA AUG ACU AGC UGG GGG UAU UAC UUU UAG AAA TRNA Amino Acid 3. DNA (3'-5') MRNA TRNA GCU CCU UAC CAC ССС CGU AUG GCU GGG AUC Activate Go to Sett Amino Acidarrow_forward
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