A mutation caused by inserting a single nucleotide into a coding sequence most likely results in which type of mutation?

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Study for the Campbell Biology Concepts and Connections Test. Use flashcards and multiple choice questions, each with detailed explanations. Prepare thoroughly for your exam now!

Multiple Choice

A mutation caused by inserting a single nucleotide into a coding sequence most likely results in which type of mutation?

In protein-coding sequences, codons are read in groups of three bases. Inserting a single nucleotide shifts this reading frame from that point onward, so every downstream codon changes. This drastic alteration typically changes many amino acids and often introduces a premature stop, producing a nonfunctional protein. That is the hallmark of a frameshift mutation. Silent mutations involve changes that don’t alter the amino acid sequence, missense mutations change one amino acid by a single-base substitution without shifting the frame, and nonsense mutations create a stop codon (often from substitutions, though context can vary). So the insertion of one nucleotide most likely causes a frameshift mutation.

A mutation caused by inserting a single nucleotide into a coding sequence most likely results in which type of mutation?

Study for the Campbell Biology Concepts and Connections Test. Use flashcards and multiple choice questions, each with detailed explanations. Prepare thoroughly for your exam now!

A mutation caused by inserting a single nucleotide into a coding sequence most likely results in which type of mutation?

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