Mixture models for protein structure ensembles

doi:10.1093/bioinformatics/btn396

Bioinformatics Advance Access originally published online on July 28, 2008
Bioinformatics 2008 24(19):2184-2192; doi:10.1093/bioinformatics/btn396

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Mixture models for protein structure ensembles

Michael Hirsch ¹ and Michael Habeck ¹^,2^,*

¹Department of Empirical Inference, Max-Planck-Institute for Biological Cybernetics, Spemannstrasse 38 and ²Department of Protein Evolution, Max-Planck-Institute for Developmental Biology, Spemannstrasse 35, 72076 Tübingen, Germany

*To whom correspondence should be addressed.

Abstract

Motivation: Protein structure ensembles provide important insightinto the dynamics and function of a protein and contain informationthat is not captured with a single static structure. However,it is not clear a priori to what extent the variability withinan ensemble is caused by internal structural changes. Additionalvariability results from overall translations and rotationsof the molecule. And most experimental data do not provide informationto relate the structures to a common reference frame. To reportmeaningful values of intrinsic dynamics, structural precision,conformational entropy, etc., it is therefore important to disentanglelocal from global conformational heterogeneity.

Results: We consider the task of disentangling local from globalheterogeneity as an inference problem. We use probabilisticmethods to infer from the protein ensemble missing informationon reference frames and stable conformational sub-states. Tothis end, we model a protein ensemble as a mixture of Gaussianprobability distributions of either entire conformations orstructural segments. We learn these models from a protein ensembleusing the expectation–maximization algorithm. Our firstmodel can be used to find multiple conformers in a structureensemble. The second model partitions the protein chain intolocally stable structural segments or core elements and lessstructured regions typically found in loops. Both models aresimple to implement and contain only a single free parameter:the number of conformers or structural segments. Our modelscan be used to analyse experimental ensembles, molecular dynamicstrajectories and conformational change in proteins.

Availability: The Python source code for protein ensemble analysisis available from the authors upon request.

Contact: michael.habeck{at}tuebingen.mpg.de

Associate Editor: Burkhard Rost

Received on May 6, 2008; revised on July 17, 2008; accepted on July 26, 2008

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