Computer simulations of the OmpF porin from the outer membrane of Escherichia coli.

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Computer simulations of the OmpF porin from the outer membrane of Escherichia coli.

M Watanabe, J Rosenbusch, T Schirmer and M Karplus

Department of Chemistry and Chemical Biology, Harvard University, Cambridge, Massachusetts 02138, USA.

ABSTRACT

Molecular dynamics simulations were used to study the structureand dynamics of the Escherichia coli OmpF porin, which is composedof three identical 16-stranded beta-barrels. Simulations ofthe full trimer in the absence of water and the membrane ledto significant contraction of the channel in the interior ofeach beta-barrel. With very weak harmonic constraints (0.005kcal/mol A2/atom) applied to the main-chain C alpha atoms ofthe beta-barrel, the structure was stabilized without alterationof the average fluctuations. The resulting distribution of thefluctuations (small for beta-strands, large for loops and turns)is in good agreement with the x-ray B factors. Dynamic cross-correlationfunctions showed the importance of coupling between the loopmotions and barrel flexibility. This was confirmed by the applicationof constraints corresponding to the observed temperature factorsto the barrel C alpha atoms. With these constraints, the beta-barrelfluctuations were much smaller than the experimental valuesbecause of the intrinsic restrictions on the atomic motions,and the loop motions were reduced significantly. This resultindicates that considerable care is required in introducingconstraints to keep proteins close to the experimental structureduring simulations, as has been done in several recent studies.Loop 3, which is thought to be important in gating the pore,undergoes a displacement that shifts it away from the x-raystructure. Analysis shows that this arises from the breakdownof a hydrogen bond network, which appears to result more fromthe absence of solvent that from the use of standard ionizationstates for the side chains of certain beta-barrel residues.

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