15. Gene Expression
Genetic Code
1:45 minutesProblem 6b
Textbook Question
Textbook QuestionA minimal genetic code requires only 21 codons—one for each amino acid, and one for a stop signal. Given this, what advantage might be offered by having a code with 64 codons?
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Understand the basic structure of the genetic code: The genetic code is a set of rules used by living cells to translate information encoded in genetic material (DNA or mRNA sequences) into proteins. It is typically represented by codons, which are sequences of three nucleotides.
Recognize the redundancy in the genetic code: With 64 codons made from combinations of four nucleotides (A, U, C, G), the genetic code is redundant. This means that most amino acids are encoded by more than one codon.
Consider the implications of redundancy for mutation effects: Redundancy in the genetic code can reduce the impact of mutations. If a mutation changes one nucleotide in a codon, it might not change the amino acid that the codon codes for, which can be crucial for the protein's function.
Explore the role of codon usage in gene expression: Different organisms often show preferences for certain codons over others, which can affect the speed and accuracy of protein synthesis. This codon bias can be used by cells to regulate gene expression and ensure efficient protein production.
Evaluate evolutionary advantages: A more extensive genetic code with 64 codons allows for a finer control of protein synthesis and adaptation to various environmental pressures. This flexibility can be advantageous for organisms in evolving and adapting to new environments or changes.
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