| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5371314 | Biophysical Chemistry | 2010 | 8 Pages |
Staphylococcal nuclease (SNase) has a single Trp residue at position 140. Circular dichroism, intrinsic and ANS-binding fluorescence, chemical titrations and enzymatic assays were used to measure the changes of its structure, stability and activities as the Trp was mutated or replaced to other positions. The results show that W140 is critical to SNase structure, stability, and function. Mutants such as W140A, F61W/W140A, and Y93W/W140A have unfolding, corrupted secondary and tertiary structures, diminished structural stability and attenuated catalytic activity as compared to the wild type. The deleterious effects of W140 substitution cannot be compensated by concurrent changes at topographical locations of position 61 or 93. Local hydrophobicity defined as a sum of hydrophobicity around a given residue within a distance is found to be a relevant property to SNase folding and stability.
Graphical AbstractChanges of the Local hydrophobicity in mutants with respect to the WT SNase for W140A, F61W/W140A, and Y93W/W140A.Download full-size image
