What is the genetic code and why is it universal?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Prepare for your Molecular Basis of Inheritance Test with flashcards and multiple-choice questions. Each question is accompanied by hints and explanations. Get test-ready!

Multiple Choice

What is the genetic code and why is it universal?

Explanation:
The genetic code is the set of rules that translates information in mRNA into a protein sequence. Each three-nucleotide unit, a codon, specifies which amino acid should be added next during translation, with the ribosome reading the codons and tRNA bringing the corresponding amino acids. This is why it’s described as a code: it’s a language that strings together amino acids to form proteins according to the instructions carried by mRNA. Why this code is universal is that nearly all organisms use the same codon-to-amino-acid mappings. That shared code means the same codons generally produce the same amino acids in bacteria, plants, animals, and more, reflecting a common evolutionary origin and the efficiency of a single translation mechanism. There are nuances to know: multiple codons can encode the same amino acid (degeneracy), and there are special start and stop codons that set the reading frame and terminate translation. There are a few exceptions in specific organelles or organisms, but the overall picture is a universal codon language. This isn’t describing a direct one-to-one mapping from nucleotides to amino acids, since codons are triplets and several codons can encode a single amino acid. It also isn’t the sequence of tRNA molecules themselves, or the enzyme that copies DNA, which are different components of the gene-expression machinery.

The genetic code is the set of rules that translates information in mRNA into a protein sequence. Each three-nucleotide unit, a codon, specifies which amino acid should be added next during translation, with the ribosome reading the codons and tRNA bringing the corresponding amino acids. This is why it’s described as a code: it’s a language that strings together amino acids to form proteins according to the instructions carried by mRNA.

Why this code is universal is that nearly all organisms use the same codon-to-amino-acid mappings. That shared code means the same codons generally produce the same amino acids in bacteria, plants, animals, and more, reflecting a common evolutionary origin and the efficiency of a single translation mechanism. There are nuances to know: multiple codons can encode the same amino acid (degeneracy), and there are special start and stop codons that set the reading frame and terminate translation. There are a few exceptions in specific organelles or organisms, but the overall picture is a universal codon language.

This isn’t describing a direct one-to-one mapping from nucleotides to amino acids, since codons are triplets and several codons can encode a single amino acid. It also isn’t the sequence of tRNA molecules themselves, or the enzyme that copies DNA, which are different components of the gene-expression machinery.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy