Typically. most of the nucleotide variabillity thar occurs within a genetic locus does not affect the phenotype . Explain why.

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Answer 1

Textbook Question

Chapter 23, Problem 23.1CR

Typically. most of the nucleotide variabillity thar occurs within a genetic locus does not affect the phenotype. Explain why.

Expert Solution & Answer

Summary Introduction

To explain: Why most of the nucleotide variability within a genetic locus does not affect the phenotype.

Introduction: Variation at a genetic locus can be defined as any change in the nucleotide sequence of the DNA caused due to mutations occurred in that locus of the gene. However, most of the nucleotide variability does not affect the phenotype because mutations that occur in the non-coding region do not alter/change the amino acid sequence, which codes for the proteins

Explanation of Solution

Higher organisms have a large gene pool that contains non-coded DNA known as introns. As most of the nucleotide variability due to mutations occurs in the intron region, it does not cause a change in amino acid and do not code for a protein, which leads to the neutral effect in the population. Only the nucleotide variations in the coding region have a significant impact if the change in DNA sequence leads to a change in the amino acid sequence to alter the proteins structure and function. Although most variable regions within exons reflect changes in the DNA sequence and most of them do not change the sequence of amino acids encoded by a gene, they do not affect the phenotype.

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Answer 2

Textbook Question

Chapter 23, Problem 23.1CR

Typically. most of the nucleotide variabillity thar occurs within a genetic locus does not affect the phenotype. Explain why.

Expert Solution & Answer

Summary Introduction

To explain: Why most of the nucleotide variability within a genetic locus does not affect the phenotype.

Introduction: Variation at a genetic locus can be defined as any change in the nucleotide sequence of the DNA caused due to mutations occurred in that locus of the gene. However, most of the nucleotide variability does not affect the phenotype because mutations that occur in the non-coding region do not alter/change the amino acid sequence, which codes for the proteins

Explanation of Solution

Higher organisms have a large gene pool that contains non-coded DNA known as introns. As most of the nucleotide variability due to mutations occurs in the intron region, it does not cause a change in amino acid and do not code for a protein, which leads to the neutral effect in the population. Only the nucleotide variations in the coding region have a significant impact if the change in DNA sequence leads to a change in the amino acid sequence to alter the proteins structure and function. Although most variable regions within exons reflect changes in the DNA sequence and most of them do not change the sequence of amino acids encoded by a gene, they do not affect the phenotype.

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Answer 3

Textbook Question

Chapter 23, Problem 23.1CR

Typically. most of the nucleotide variabillity thar occurs within a genetic locus does not affect the phenotype. Explain why.

Expert Solution & Answer

Summary Introduction

To explain: Why most of the nucleotide variability within a genetic locus does not affect the phenotype.

Introduction: Variation at a genetic locus can be defined as any change in the nucleotide sequence of the DNA caused due to mutations occurred in that locus of the gene. However, most of the nucleotide variability does not affect the phenotype because mutations that occur in the non-coding region do not alter/change the amino acid sequence, which codes for the proteins

Explanation of Solution

Higher organisms have a large gene pool that contains non-coded DNA known as introns. As most of the nucleotide variability due to mutations occurs in the intron region, it does not cause a change in amino acid and do not code for a protein, which leads to the neutral effect in the population. Only the nucleotide variations in the coding region have a significant impact if the change in DNA sequence leads to a change in the amino acid sequence to alter the proteins structure and function. Although most variable regions within exons reflect changes in the DNA sequence and most of them do not change the sequence of amino acids encoded by a gene, they do not affect the phenotype.

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Answer 4

Textbook Question

Chapter 23, Problem 23.1CR

Typically. most of the nucleotide variabillity thar occurs within a genetic locus does not affect the phenotype. Explain why.

Expert Solution & Answer

Summary Introduction

To explain: Why most of the nucleotide variability within a genetic locus does not affect the phenotype.

Introduction: Variation at a genetic locus can be defined as any change in the nucleotide sequence of the DNA caused due to mutations occurred in that locus of the gene. However, most of the nucleotide variability does not affect the phenotype because mutations that occur in the non-coding region do not alter/change the amino acid sequence, which codes for the proteins

Explanation of Solution

Higher organisms have a large gene pool that contains non-coded DNA known as introns. As most of the nucleotide variability due to mutations occurs in the intron region, it does not cause a change in amino acid and do not code for a protein, which leads to the neutral effect in the population. Only the nucleotide variations in the coding region have a significant impact if the change in DNA sequence leads to a change in the amino acid sequence to alter the proteins structure and function. Although most variable regions within exons reflect changes in the DNA sequence and most of them do not change the sequence of amino acids encoded by a gene, they do not affect the phenotype.

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

Summary Introduction

To explain: Why most of the nucleotide variability within a genetic locus does not affect the phenotype.

Introduction: Variation at a genetic locus can be defined as any change in the nucleotide sequence of the DNA caused due to mutations occurred in that locus of the gene. However, most of the nucleotide variability does not affect the phenotype because mutations that occur in the non-coding region do not alter/change the amino acid sequence, which codes for the proteins

Explanation of Solution

Higher organisms have a large gene pool that contains non-coded DNA known as introns. As most of the nucleotide variability due to mutations occurs in the intron region, it does not cause a change in amino acid and do not code for a protein, which leads to the neutral effect in the population. Only the nucleotide variations in the coding region have a significant impact if the change in DNA sequence leads to a change in the amino acid sequence to alter the proteins structure and function. Although most variable regions within exons reflect changes in the DNA sequence and most of them do not change the sequence of amino acids encoded by a gene, they do not affect the phenotype.

Answer 8

Expert Solution & Answer

Summary Introduction

To explain: Why most of the nucleotide variability within a genetic locus does not affect the phenotype.

Introduction: Variation at a genetic locus can be defined as any change in the nucleotide sequence of the DNA caused due to mutations occurred in that locus of the gene. However, most of the nucleotide variability does not affect the phenotype because mutations that occur in the non-coding region do not alter/change the amino acid sequence, which codes for the proteins

Explanation of Solution

Higher organisms have a large gene pool that contains non-coded DNA known as introns. As most of the nucleotide variability due to mutations occurs in the intron region, it does not cause a change in amino acid and do not code for a protein, which leads to the neutral effect in the population. Only the nucleotide variations in the coding region have a significant impact if the change in DNA sequence leads to a change in the amino acid sequence to alter the proteins structure and function. Although most variable regions within exons reflect changes in the DNA sequence and most of them do not change the sequence of amino acids encoded by a gene, they do not affect the phenotype.

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

Summary Introduction

To explain: Why most of the nucleotide variability within a genetic locus does not affect the phenotype.

Introduction: Variation at a genetic locus can be defined as any change in the nucleotide sequence of the DNA caused due to mutations occurred in that locus of the gene. However, most of the nucleotide variability does not affect the phenotype because mutations that occur in the non-coding region do not alter/change the amino acid sequence, which codes for the proteins

Answer 12

Explanation of Solution

Higher organisms have a large gene pool that contains non-coded DNA known as introns. As most of the nucleotide variability due to mutations occurs in the intron region, it does not cause a change in amino acid and do not code for a protein, which leads to the neutral effect in the population. Only the nucleotide variations in the coding region have a significant impact if the change in DNA sequence leads to a change in the amino acid sequence to alter the proteins structure and function. Although most variable regions within exons reflect changes in the DNA sequence and most of them do not change the sequence of amino acids encoded by a gene, they do not affect the phenotype.

Answer 13

Ch. 23.1 - Explain why genetic Variation within a population...Ch. 23.1 - Ot all the mutations that occur in a population,...Ch. 23.1 - Prob. 3CC Ch. 23.2 - A population has 700 individuals, 85 of genotype...Ch. 23.2 - Prob. 2CC Ch. 23.2 - WHAT IF? A locus that affects susceptibility to a...Ch. 23.3 - In what sense is natural selection more...Ch. 23.3 - Distinguish genetic draft from gene flow in terms...Ch. 23.3 - WH AT IF? Suppose two plant populations exchange...Ch. 23.4 - What is the relative fitness of a sterile mule?...

Typically. most of the nucleotide variabillity thar occurs within a genetic locus does not affect the phenotype . Explain why.

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