Energy-based de novo protein folding by conformational space annealing andan off-lattice united-residue force field: Application to the 10-55 fragment of staphylococcal protein A and to apo calbindin D9K

The conformational space annealing (CSA) method for global optimization has been applied to the 10-55 fragment of the B-domain of staphylococcal prote in A (protein A) and to a 75-residue protein, apo calbindin D9K (PDB ID cod e 1CLB), by using the UNRES off-lattice united-residue force field. Althoug h the potential was not calibrated with these two proteins, the native-like structures were found among the low energy conformations, without the use of threading or secondary-structure predictions. This is because the CSA me thod can find many distinct families of low-energy conformations. Starting from random conformations, the CSA method found that there are two families of low-energy conformations for each of the two proteins, the native-like fold and its mirror image, The CSA method converged to the same low-energy folds in ail cases studied, as opposed to other optimization methods. It ap pears that the CSA method with the UNRES force field, which is based on the thermodynamic hypothesis, can be used in prediction of protein structures in real time.