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Conserved Amino Acid Networks Modulate Discrete Functional Properties In An Enzyme Superfamily, Chitra Narayanan, Donald Gagne, Kimberly A. Reynolds, Nicolas Doucet
Conserved Amino Acid Networks Modulate Discrete Functional Properties In An Enzyme Superfamily, Chitra Narayanan, Donald Gagne, Kimberly A. Reynolds, Nicolas Doucet
Advanced Science Research Center
In this work, we applied the sequence-based statistical coupling analysis approach to characterize conserved amino acid networks important for biochemical function in the pancreatic-type ribonuclease (ptRNase) superfamily. This superfamily-wide analysis indicates a decomposition of the RNase tertiary structure into spatially distributed yet physically connected networks of co-evolving amino acids, termed sectors. Comparison of this statistics-based description with new NMR experiments data shows that discrete amino acid networks, termed sectors, control the tuning of distinct functional properties in different enzyme homologs. Further, experimental characterization of evolutionarily distant sequences reveals that sequence variation at sector positions can distinguish homologs with a conserved …