Ka/Ks ratio: Difference between revisions

Ka/Ks ratio is a measure used in molecular evolution to quantify the balance between neutral mutations, purifying selection, and positive selection. It is also known as the nonsynonymous/synonymous substitution ratio or dN/dS ratio.

Overview

The Ka/Ks ratio is calculated as the number of nonsynonymous substitutions per nonsynonymous site (Ka) to the number of synonymous substitutions per synonymous site (Ks). This ratio is often used as an indicator of selective pressure acting on a protein-coding gene.

Calculation

The calculation of the Ka/Ks ratio involves several steps. First, the number of nonsynonymous and synonymous sites in the gene is determined. Then, the number of nonsynonymous and synonymous substitutions is calculated. Finally, the Ka/Ks ratio is calculated by dividing the number of nonsynonymous substitutions by the number of synonymous substitutions.

Interpretation

A Ka/Ks ratio less than 1 indicates that the gene is under purifying selection, while a ratio greater than 1 suggests positive selection. A ratio of 1 suggests neutral evolution.

Applications

The Ka/Ks ratio is widely used in molecular evolution studies to identify genes under selection. It can also be used to compare the evolutionary rates of different genes or different species.

See also

• Molecular evolution
• Neutral theory of molecular evolution
• Synonymous substitution
• Nonsynonymous substitution

References

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