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Homology Modeling comparative modeling vs. ab initio folding alignment (check gaps) threading loop building re-packing side-chains in core, DEE, SCWRL fold evaluation/scoring statistical potentials (pot. of mean force) - DFIRE minimization servers: Swiss-model
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ab initio folding –Rosetta (Baker) –MONSSTER (Skolnick) –I-TASSER (Zhang)
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Sequence Alignment critical step gaps should be in loops (check in final model) dynamic programming (Smith-Waterman) –LALIGN: http://www.ch.embnet.org/software/LALIGN_form.html –adjust gap parameters: gap-open penalty>x? gap-extension penalty<x? x=average match score –could also adjust substitution matrix (PAM250, BLOSUM62) use PSI-Blast to include info from homologs –iterative: retrieves homologs, refines search... use HMM to align to family
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Threading use info about 3D structure to improve alignment local secondary structure, solvent-accessibility 3D profiles (Eisenberg) 3D-PSSM/Phyre (Sternberg, Lawrence Kelley) THREADER RAPTOR
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MODELLER (Sali) references –A. Šali and T. L. Blundell. Comparative protein modelling by satisfaction of spatial restraints. J. Mol. Biol. 234, 779-815, 1993. –A. Fiser, R. K. G. Do and A. Š ali. Modeling of loops in protein structures. Protein Science 9, 1753-1773, 2000. –Fiser A, Sali A. (2003). Modeller: generation and refinement of homology-based protein structure models. Methods Enz. 374:461-91. loop-modeling via dynamics evaluation: –>30% identity? –stereochemistry: Procheck –contacts/exposure: ProSA (Sippl, 1993) – distance-based pair potentials
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Side-chain re-packing mutations cause steric conflicts (and voids) –changing rotamers can relieve conflicts –adjacent side-chains are coupled –multiple changes might be required –combinatorial search: exhaustive versus Monte Carlo (Holm & Sander, 1992) DEE (Dead-End Elimination) –pruning method –pre-processing, singles, pairs –Desmet, Mayo –reduction in branching factor? interesting application: use DEE to determine rotamer populations for tryptophans; use to predict fluorescence quenching times (Hellings 2003, BiophysJ) rigid backbone assumption –how important is backbone flexibility? –also sample alternative backbone conformations at each site –(Georgiev and Donald, 2007)
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SCWRL 3.0 Canutescu et al. (2003) –Dunbrack BBdep rotamer library –de-couple interaction graph into bi-connected components representing local dependencies TreePack (Xu and Berger, JACM 2006) –geometric neighborhood graph decomposition; up to 90x faster side-chain interactions: energy of configuration:
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Loop Modeling two approaches: 1. MD/conformational sampling 2. templates from loop library accuracy depends on length: 2-4 (turns), 4-8, >8 (ab initio) importance in immunoglobulins (hyper-variable loops in antigen-binding region)
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modeling loops via molecular dynamics –Monte Carlo conformational search using a FF/energy function, high temp MD: 800K (Bruccoleri & Karplus, 1990) –“Does Conformational Free Energy Distinguish Loop Conformations in Proteins?” templates from loop library (examples from existing structures) –amino acid similarities –fit to stems: C distance, vectors (i-1:i,j,j+1), carbonyls?, angles
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Scoring statistical potentials –knowledge-based poten (Sippl, 1990) –potential of mean force –residue-based potentials (e.g. C -C contact distance, or centers-of-mass) atomic pairwise potentials –(Lu & Skolnick, 2001) –capture side-chain interactions better –discriminate correct folds better –z-score of true fold vs. decoys (gapless threading)
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DFIRE (Yaoqi Zhou) Distance-scaled Finite Ideal-gas REference state –Zhou and Zhou (Prot. Sci, 2002) –all-atom potential –Nexp(i,j,r) will not increase in r 2 as in an infinite system – =1.57 gives best correlation with density in radial shells –improves ability to recognize correct fold versus decoys –see also: RAPDF (Samudrala and Moult, 1998) DOPE (Shen and Sali, 2006) fair??? instead, assume:
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Minimization a logical step, however... one of the conclusions from CASP4 (Baker): –minimization generally made models worse (took predicted structures farther from native) –threshold: minimization works if rmsd<2Å, but ab initio models are often 4-6Å rmsd –backbone adjustments required?
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