What type of mutation introduces a premature stop codon, truncating the resulting protein?

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Prepare for the HOSA Human Heredity Exam. Study with flashcards and multiple choice questions, each question has hints and explanations. Get ready for your exam!

Multiple Choice

What type of mutation introduces a premature stop codon, truncating the resulting protein?

Explanation:
A nonsense mutation is a type of mutation that results in a premature stop codon in the genetic code of an organism. This occurs because one of the nucleotides in the DNA sequence changes, leading to the substitution of a single amino acid for a stop signal during protein synthesis. As a result, the translation process is terminated early, creating a truncated protein that is often nonfunctional or has reduced functionality compared to the full-length version. This can have significant implications for the organism's phenotype, affecting traits and potentially leading to disease. In contrast, a missense mutation changes one amino acid in the protein but does not introduce a stop codon, while a silent mutation does not change the amino acid sequence at all, leaving the protein unchanged. A substitution mutation refers to the replacement of one base pair with another, which can lead to various effects, including nonsense mutations, but not all substitutions result in a premature stop codon. Thus, the key characteristic of a nonsense mutation is its ability to produce a stop codon, truncating the protein and affecting its function.

A nonsense mutation is a type of mutation that results in a premature stop codon in the genetic code of an organism. This occurs because one of the nucleotides in the DNA sequence changes, leading to the substitution of a single amino acid for a stop signal during protein synthesis. As a result, the translation process is terminated early, creating a truncated protein that is often nonfunctional or has reduced functionality compared to the full-length version. This can have significant implications for the organism's phenotype, affecting traits and potentially leading to disease.

In contrast, a missense mutation changes one amino acid in the protein but does not introduce a stop codon, while a silent mutation does not change the amino acid sequence at all, leaving the protein unchanged. A substitution mutation refers to the replacement of one base pair with another, which can lead to various effects, including nonsense mutations, but not all substitutions result in a premature stop codon. Thus, the key characteristic of a nonsense mutation is its ability to produce a stop codon, truncating the protein and affecting its function.

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