Predicting Function from Sequence

Is it possible to predict how changes in sequence will affectthe biophysical properties of a protein? In this study, LucyG. Randles and colleagues attempt to answer this question byusing stable, well characterized model proteins to predict theproperties of disease-associated proteins in the same structuralfamily.

Ig (A) and fnIII(B) domains were used to analyze disease-causing mutations.

Using related model proteins in which identical or equivalentmutations had been introduced, Randles et al. analyzed 37 differentdisease-causing mutations located in the L1 and IL2R ${gamma}$ proteins.Their results show an extremely strong correlation between proteininstability and disease. However, there are a few exceptions,which clearly indicate the limitations of the approach. Thecorrelation is obtained by relating the sequence variabilityto the energies of interaction rather than to sequence entropy.This establishes the importance of protein energetics and strikesdown the sequence entropy as a measure of stability. The paperleads to the strong conclusion that sequence entropy as a measureof sequence variability is not useful for relating to proteinstructure.

FOOTNOTES

See referenced article, J. Biol. Chem. 2006, 281, 24216-24226

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