Helix capping

被引:665
作者
Aurora, R [1 ]
Rose, GD [1 ]
机构
[1] Johns Hopkins Univ, Sch Med, Dept Biophys & Biophys Chem, Baltimore, MD 21205 USA
关键词
alpha helix; protein folding; protein secondary structure;
D O I
10.1002/pro.5560070103
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
Helix-capping motifs are specific patterns of hydrogen bonding and hydrophobic interactions found at or near the ends of helices in both proteins and peptides. In an alpha-helix, the first four >N-H groups and last four >C=O groups necessarily lack intrahelical hydrogen bonds. Instead, such groups are often capped by alternative hydrogen bond partners. This review enlarges our earlier hypothesis (Presta LG, Rose GD. 1988. Helix signals in proteins. Science 240:1632-1641) to include hydrophobic capping. A hydrophobic interaction that straddles the helix terminus is always associated with hydrogen-bonded capping. From a global survey among proteins of known structure, seven distinct capping motifs are identified-three at the helix N-terminus and four at the C-terminus. The consensus sequence patterns of these seven motifs, together with results from simple molecular modeling, are used to formulate useful rules of thumb for helix termination. Finally, we examine the role of helix capping as a bridge linking the conformation of secondary structure to supersecondary structure.
引用
收藏
页码:21 / 38
页数:18
相关论文
共 109 条
[1]   Identification of an N-capping box that affects the alpha 6-helix propensity in glutathione S-transferase superfamily proteins: A role for an invariant aspartic residue [J].
Aceto, A ;
Dragani, B ;
Melino, S ;
Allocati, N ;
Masulli, M ;
DiIlio, C ;
Petruzzelli, R .
BIOCHEMICAL JOURNAL, 1997, 322 :229-234
[2]   CONTRIBUTIONS OF HYDROGEN-BONDS OF THR-157 TO THE THERMODYNAMIC STABILITY OF PHAGE-T4 LYSOZYME [J].
ALBER, T ;
SUN, DP ;
WILSON, K ;
WOZNIAK, JA ;
COOK, SP ;
MATTHEWS, BW .
NATURE, 1987, 330 (6143) :41-46
[3]   TEMPERATURE-SENSITIVE MUTATIONS OF BACTERIOPHAGE-T4 LYSOZYME OCCUR AT SITES WITH LOW MOBILITY AND LOW SOLVENT ACCESSIBILITY IN THE FOLDED PROTEIN [J].
ALBER, T ;
SUN, DP ;
NYE, JA ;
MUCHMORE, DC ;
MATTHEWS, BW .
BIOCHEMISTRY, 1987, 26 (13) :3754-3758
[4]   DIPOLES LOCALIZED AT HELIX TERMINI OF PROTEINS STABILIZE CHARGES [J].
AQVIST, J ;
LUECKE, H ;
QUIOCHO, FA ;
WARSHEL, A .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1991, 88 (05) :2026-2030
[5]   RULES FOR ALPHA-HELIX TERMINATION BY GLYCINE [J].
AURORA, R ;
SRINIVASAN, R ;
ROSE, GD .
SCIENCE, 1994, 264 (5162) :1126-1130
[6]   DISSECTION OF HELIX CAPPING IN T4 LYSOZYME BY STRUCTURAL AND THERMODYNAMIC ANALYSIS OF 6 AMINO-ACID SUBSTITUTIONS AT THR 59 [J].
BELL, JA ;
BECKTEL, WJ ;
SAUER, U ;
BAASE, WA ;
MATTHEWS, BW .
BIOCHEMISTRY, 1992, 31 (14) :3590-3596
[7]   MAGNESIUM BINDING TO THE BACTERIAL CHEMOTAXIS PROTEIN CHEY RESULTS IN LARGE CONFORMATIONAL-CHANGES INVOLVING ITS FUNCTIONAL SURFACE [J].
BELLSOLELL, L ;
PRIETO, J ;
SERRANO, L ;
COLL, M .
JOURNAL OF MOLECULAR BIOLOGY, 1994, 238 (04) :489-495
[8]   PROTEIN DATA BANK - COMPUTER-BASED ARCHIVAL FILE FOR MACROMOLECULAR STRUCTURES [J].
BERNSTEIN, FC ;
KOETZLE, TF ;
WILLIAMS, GJB ;
MEYER, EF ;
BRICE, MD ;
RODGERS, JR ;
KENNARD, O ;
SHIMANOUCHI, T ;
TASUMI, M .
JOURNAL OF MOLECULAR BIOLOGY, 1977, 112 (03) :535-542
[9]   MECHANISMS OF PROTEIN AND POLYPEPTIDE HELIX INITIATION [J].
BLAGDON, DE ;
GOODMAN, M .
BIOPOLYMERS, 1975, 14 (01) :241-245
[10]   VAN DER WAALS VOLUMES + RADII [J].
BONDI, A .
JOURNAL OF PHYSICAL CHEMISTRY, 1964, 68 (03) :441-+