ANSWERS 1-4 were answered but I need 5 answered please.5. ANSWER QUESTIONS BELOW PLEASE:A. Repeat number 4 (a through d), except do a deletion or insertion mutation, by subtracting or adding a nucleotide from the original DNA sequence from number 1. (Don’t forget to rewrite the original DNA sequence, and mutated DNA strand.) B. C. D. Indicate if the results of the mutation is always beneficial, always harmful or always neutral. QUESTIONS ANSWERED BELOWAnswer 1) The sequence of template strand in 3' to 5' sequence is:3' TACCCGCCAGCCTACATC 5'Answer 2) The mRNA strand is complementary to the template strand. The RNA polymerase synthesises mRNA. The A, U, G and C are present in mRNA with respect to the T, A, C and G in DNA. The mRNA sequence is: 5' AUGGGCGGUCGGAUGUAG 3'The mRNA sequence in form of codon is: 5' AUG GGC GGU CGG AUG UAG 3' The codon is made up of three nucleotides. Answer 3) The mRNA codon chart helps to find the sequence of amino acid from a codon. The start codon initiates translation. Sto codon (UAA, UAG or UGA) terminates translation. The protein sequence is: N- met- gly- gly- arg- met- C Answer 4) a. The sequence of original strand is: 3' TACCCGCCAGCCTACATC 5'The first G nucleotide is mutated to C. The mutated DNA sequence is: 3' TACCCACCAGCCTACATC 5'The mutated mRNA sequence is: 5' AUGGGUGGUCGGAUGUAG 3'The mutated mRNA sequence in fork of codons is: 5' AUG GGU GGU CGG AUG UAG 3'The protein sequence is: N- met- gly- gly- arg- met- C B. The mutation is synonymous in nature because amino acid remains same even after mutation. C. This is not a kind of non synonymous mutation because amino acid remains same in wild type and mutated type. D. The mutation is likely to be neutral in nature. The wild type and mutated proteins have same sequence of amino acids. That's why function of both proteins remain same. b. Indicate if the mutation resulted in a synonymous substitution or nonsynonymoussubstitution.C.If the mutation was nonsynonymous, indicate which type of nonsynonymoussubstitution it was.d. Indicate if the results of the mutation likely beneficial, likely harmful or likely neutral.5.a. Repeat number 4 (a through d), except do a deletion or insertion mutation, bysubtracting or adding a nucleotide from the original DNA sequence from number 1.(Don't forget to rewrite the original DNA sequence, and mutated DNA strand.)b.C.d. Indicate if the results of the mutation is always beneficial, always harmful or alwaysneutral. Mutation Worksheet1. Create a DNA sequence with eighteen nucleotides. Indicate its 3' on the left and 5' on theright since that's the template strand you will need in the next question to transcribe themRNA.2. Transcribe the DNA sequence above and separate the triplets into codons. Indicate 5' and 3'in the correct location on the strand. (Don't worry about splicing- assume that the pre-mRNA is the same as the mature mRNA sequence)3. Look at the genetic code, and indicate which amino acid is coded for by the codons in theabove mRNA.4.a. First write the original DNA strand. Indicate where the substitution was by either circlingit or writing it in a different color. Then write the mutated DNA sequence with the pointmutation (aka substitution) wherever you choose for it to be. Again, circle it or write it ina different color. Do the same for the transcribed mRNA. Repeat the directions for 2 and3 for this new DNA stand. (i.e., include the mRNA and translated protein of the mutatedDNA. Remember your mutated DNA strand should look just like the original DNA strandwith one letter changed-either circled or in a different color).

Answered: Image /qna-images/answer/a41b84e4-0922-4fb0-999a-df22f5110621.jpg

ANSWERS 1-4 were answered but I need 5 answered please. 5. ANSWER QUESTIONS BELOW PLEASE: A. Repeat number 4 (a through d), except do a deletion or insertion mutation, by subtracting or adding a nucleotide from the original DNA sequence from number 1. (Don’t forget to rewrite the original DNA sequence, and mutated DNA strand.) B. C. D. Indicate if the results of the mutation is always beneficial, always harmful or always neutral. QUESTIONS ANSWERED BELOW Answer 1) The sequence of template strand in 3' to 5' sequence is: 3' TACCCGCCAGCCTACATC 5' Answer 2) The mRNA strand is complementary to the template strand. The RNA polymerase synthesises mRNA. The A, U, G and C are present in mRNA with respect to the T, A, C and G in DNA. The mRNA sequence is: 5' AUGGGCGGUCGGAUGUAG 3' The mRNA sequence in form of codon is: 5' AUG GGC GGU CGG AUG UAG 3' The codon is made up of three nucleotides. Answer 3) The mRNA codon chart helps to find the sequence of amino acid from a codon. The start codon initiates translation. Sto codon (UAA, UAG or UGA) terminates translation. The protein sequence is: N- met- gly- gly- arg- met- C Answer 4) a. The sequence of original strand is: 3' TACCCGCCAGCCTACATC 5' The first G nucleotide is mutated to C. The mutated DNA sequence is: 3' TACCCACCAGCCTACATC 5' The mutated mRNA sequence is: 5' AUGGGUGGUCGGAUGUAG 3' The mutated mRNA sequence in fork of codons is: 5' AUG GGU GGU CGG AUG UAG 3' The protein sequence is: N- met- gly- gly- arg- met- C B. The mutation is synonymous in nature because amino acid remains same even after mutation. C. This is not a kind of non synonymous mutation because amino acid remains same in wild type and mutated type. D. The mutation is likely to be neutral in nature. The wild type and mutated proteins have same sequence of amino acids. That's why function of both proteins remain same

Human Anatomy & Physiology (11th Edition)

11th Edition

ISBN:9780134580999

Author:Elaine N. Marieb, Katja N. Hoehn

Publisher:Elaine N. Marieb, Katja N. Hoehn

Chapter1: The Human Body: An Orientation

Section: Chapter Questions

Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...

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Question

ANSWERS 1-4 were answered but I need 5 answered please.

5. ANSWER QUESTIONS BELOW PLEASE:

A. Repeat number 4 (a through d), except do a deletion or insertion mutation, by subtracting or adding a nucleotide from the original DNA sequence from number 1. (Don’t forget to rewrite the original DNA sequence, and mutated DNA strand.)

D. Indicate if the results of the mutation is always beneficial, always harmful or always neutral.

QUESTIONS ANSWERED BELOW

Answer 1) The sequence of template strand in 3' to 5' sequence is:

3' TACCCGCCAGCCTACATC 5'

Answer 2)

The mRNA strand is complementary to the template strand. The RNA polymerase synthesises mRNA. The A, U, G and C are present in mRNA with respect to the T, A, C and G in DNA.

The mRNA sequence is: 5' AUGGGCGGUCGGAUGUAG 3'

The mRNA sequence in form of codon is: 5' AUG GGC GGU CGG AUG UAG 3' The codon is made up of three nucleotides.

Answer 3) The mRNA codon chart helps to find the sequence of amino acid from a codon. The start codon initiates translation. Sto codon (UAA, UAG or UGA) terminates translation. The protein sequence is: N- met- gly- gly- arg- met- C

Answer 4)

a. The sequence of original strand is: 3' TACCCGCCAGCCTACATC 5'

The first G nucleotide is mutated to C.

The mutated DNA sequence is: 3' TACCCACCAGCCTACATC 5'

The mutated mRNA sequence is: 5' AUGGGUGGUCGGAUGUAG 3'

The mutated mRNA sequence in fork of codons is: 5' AUG GGU GGU CGG AUG UAG 3'

The protein sequence is: N- met- gly- gly- arg- met- C

B. The mutation is synonymous in nature because amino acid remains same even after mutation.

C. This is not a kind of non synonymous mutation because amino acid remains same in wild type and mutated type.

D. The mutation is likely to be neutral in nature. The wild type and mutated proteins have same sequence of amino acids. That's why function of both proteins remain same.

b. Indicate if the mutation resulted in a synonymous substitution or nonsynonymous
substitution.
C.
If the mutation was nonsynonymous, indicate which type of nonsynonymous
substitution it was.
d. Indicate if the results of the mutation likely beneficial, likely harmful or likely neutral.
5.
a. Repeat number 4 (a through d), except do a deletion or insertion mutation, by
subtracting or adding a nucleotide from the original DNA sequence from number 1.
(Don't forget to rewrite the original DNA sequence, and mutated DNA strand.)
b.
C.
d. Indicate if the results of the mutation is always beneficial, always harmful or always
neutral.

Mutation Worksheet
1. Create a DNA sequence with eighteen nucleotides. Indicate its 3' on the left and 5' on the
right since that's the template strand you will need in the next question to transcribe the
mRNA.
2. Transcribe the DNA sequence above and separate the triplets into codons. Indicate 5' and 3'
in the correct location on the strand. (Don't worry about splicing- assume that the pre-
mRNA is the same as the mature mRNA sequence)
3. Look at the genetic code, and indicate which amino acid is coded for by the codons in the
above mRNA.
4.
a. First write the original DNA strand. Indicate where the substitution was by either circling
it or writing it in a different color. Then write the mutated DNA sequence with the point
mutation (aka substitution) wherever you choose for it to be. Again, circle it or write it in
a different color. Do the same for the transcribed mRNA. Repeat the directions for 2 and
3 for this new DNA stand. (i.e., include the mRNA and translated protein of the mutated
DNA. Remember your mutated DNA strand should look just like the original DNA strand
with one letter changed-either circled or in a different color).

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