Ab initio method for predicting tertiary structures of globular proteins

As part of the CASP2 protein structure prediction experiment, a set of numerical criteria were defined for the evaluation of ''ab initio'' predictions. The evaluation package comprises a series of electronic submission formats, a submission validator, evaluation software, and a series of scripts to

To generate structures consistent with both the local and nonlocal interactions responsible for protein stability, 3 and 9 residue fragments of known structures with local sequences similar to the target sequence were assembled into complete tertiary structures using a Monte Carlo simulated annealin

A simple approach to protein tertiary structure prediction is described, based on the assembly of recognized supersecondary structural fragments taken from highly resolved protein structures by using a simulated annealing algorithm. The results of blindtesting this method on CASP2 target T0042 (pig

The ab initio folding problem can be divided into two sequential tasks of approximately equal computational complexity: the generation of native-like backbone folds and the positioning of side chains upon these backbones. The prediction of side-chain conformation in this context is challenging, beca

A primary and a secondary neural network are applied to secondary structure and structural class prediction for a database of 681 non-homologous protein chains. A new method of decoding the outputs of the secondary structure prediction network is used to produce an estimate of the probability of fin