PROLINE RESIDUES IN TRANSMEMBRANE HELICES OF CHANNEL AND TRANSPORT PROTEINS - A MOLECULAR MODELING STUDY

被引：62

作者：

SANSOM, MSP ^{[1
]}

机构：

[1] UNIV NOTTINGHAM,DEPT LIFE SCI,NOTTINGHAM NG7 2RD,ENGLAND

来源：

PROTEIN ENGINEERING | 1992年 / 5卷 / 01期

基金：

英国惠康基金;

关键词：

PROLINE; ALPHA-HELIX BUNDLE; ION CHANNEL; ION TRANSPORT; MOLECULAR MODELING;

D O I：

10.1093/protein/5.1.53

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Proline residues are commonly found in putative transbilayer helices of many integral membrane proteins which act as transporters, channels and receptors. Intramembranous prolines are often conserved between homologous proteins. It has been suggested that such intrahelical prolines provide liganding sites for cations via exposure of the backbone carbonyl oxygen atoms of residues i-3 and i-4 (relative to the proline). Molecular modelling studies have been carried out to evaluate this proposal. Bundles of parallel proline-kinked helices are considered as simplified models of ion channels. The energetics of K+ ion-helix bundle interactions are explored. It is shown that carbonyl oxygens exposed by the proline-induced kink and at the C-terminus of the helices may provide cation-liganding sites. 'Hybrid' bundles of antiparallel helices, only some of which contain proline residues, are considered as models of transport proteins. Again, proline-exposed carbonyl oxygens are shown to be capable of liganding cations. The roles of alpha-helix dipoles and of the geometry of helix packing are considered in relation to cation-bundle interactions. Implications with respect to modelling of ion channel and transport proteins are discussed.

引用

页码：53 / 60

页数：8

共 45 条

[1] ENERGETICS OF ION PERMEATION THROUGH MEMBRANE CHANNELS - SOLVATION OF NA+ BY GRAMICIDIN-A [J].

AQVIST, J ;

WARSHEL, A .

BIOPHYSICAL JOURNAL, 1989, 56 (01) :171-182

[2] HELIX GEOMETRY IN PROTEINS [J].

BARLOW, DJ ;

THORNTON, JM .

JOURNAL OF MOLECULAR BIOLOGY, 1988, 201 (03) :601-619

[3] HOMOLOGY AND ANALOGY IN TRANSMEMBRANE CHANNEL DESIGN - LESSONS FROM SYNAPTIC MEMBRANE-PROTEINS [J].

BETZ, H .

BIOCHEMISTRY, 1990, 29 (15) :3591-3599

[4] HYPOTHESIS ABOUT THE FUNCTION OF MEMBRANE-BURIED PROLINE RESIDUES IN TRANSPORT PROTEINS [J].

BRANDL, CJ ;

DEBER, CM .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1986, 83 (04) :917-921

[5] CHARMM - A PROGRAM FOR MACROMOLECULAR ENERGY, MINIMIZATION, AND DYNAMICS CALCULATIONS [J].

BROOKS, BR ;

BRUCCOLERI, RE ;

OLAFSON, BD ;

STATES, DJ ;

SWAMINATHAN, S ;

KARPLUS, M .

JOURNAL OF COMPUTATIONAL CHEMISTRY, 1983, 4 (02) :187-217

[6]

Brooks III C. L., 1988, PROTEINS THEORETICAL

[7] THE TIPS LECTURE - THE NICOTINIC ACETYLCHOLINE-RECEPTOR - AN ALLOSTERIC PROTEIN PROTOTYPE OF LIGAND-GATED ION CHANNELS [J].

CHANGEUX, JP .

TRENDS IN PHARMACOLOGICAL SCIENCES, 1990, 11 (12) :485-492

[8]

CHATRABARTI P, 1990, BIOCHEMISTRY-US, V29, P651

[9] ENERGETICS OF THE STRUCTURE OF THE 4-ALPHA-HELIX BUNDLE IN PROTEINS [J].

CHOU, KC ;

MAGGIORA, GM ;

NEMETHY, G ;

SCHERAGA, HA .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1988, 85 (12) :4295-4299

[10] STRUCTURE OF THE PROTEIN SUBUNITS IN THE PHOTOSYNTHETIC REACTION CENTER OF RHODOPSEUDOMONAS-VIRIDIS AT 3A RESOLUTION [J].

DEISENHOFER, J ;

EPP, O ;

MIKI, K ;

HUBER, R ;

MICHEL, H .

NATURE, 1985, 318 (6047) :618-624

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