1 The folding problem 2 The evolution of protein structures and its implications for protein structure prediction 3 Template based modelling 3.1 Homology-based selection of the template 3.2 Fold recognition 3.3 Using sequence based tools for selecting the template 3.4 Completing and refining the model 3.5 Current state of the art in template based methods 4 Template-free protein structure prediction 4.1 Energy functions for protein structure prediction 4.2 Lattice methods 4.3 Fragment assembly methods 4.4 Practical considerations 5 Automated structure prediction 5.1 Practical lessons from benchmarking experiments 6 Conclusions and future outlook
Tramontano A., Jones D., Rychlewski L., Casadio R., Martelli P.L., Raimondo D., et al. (2008). Protein structure prediction. WIEN : Springer.
Protein structure prediction
CASADIO, RITA;MARTELLI, PIER LUIGI;
2008
Abstract
1 The folding problem 2 The evolution of protein structures and its implications for protein structure prediction 3 Template based modelling 3.1 Homology-based selection of the template 3.2 Fold recognition 3.3 Using sequence based tools for selecting the template 3.4 Completing and refining the model 3.5 Current state of the art in template based methods 4 Template-free protein structure prediction 4.1 Energy functions for protein structure prediction 4.2 Lattice methods 4.3 Fragment assembly methods 4.4 Practical considerations 5 Automated structure prediction 5.1 Practical lessons from benchmarking experiments 6 Conclusions and future outlookI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
