REVERSE HYDROPHOBIC EFFECTS RELIEVED BY AMINO-ACID SUBSTITUTIONS AT A PROTEIN SURFACE

被引:160
|
作者
PAKULA, AA [1 ]
SAUER, RT [1 ]
机构
[1] MIT,DEPT BIOL,CAMBRIDGE,MA 02139
来源
NATURE | 1990年 / 344卷 / 6264期
关键词
D O I
10.1038/344363a0
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
IT is rare for amino-acid substitutions on the surface of proteins to have large stabilizing or destabilizing effects1. Nevertheless, one substitution of this type, the Tyr 26 → Cys mutation in λ Cro, increases the melting temperature of the protein by 11°C and the stability by 2.2 kcal mol-1 (ref. 2). Here we show that the stability of Cro can be increased by many different amino-acid substitutions at position 26, with increasing stability showing a good correlation with decreasing side-chain hydrophobicity. As Tyr 26 is hyper-exposed to solvent in the Cro crystal structure3,4, we suggest that wild-type and variant proteins with other hydrophobic side chains at position 26 are destabilized as a result of a reverse hydrophobic effect caused by the side chain being more exposed to solvent in the native than in the denatured state. © 1990 Nature Publishing Group.
引用
收藏
页码:363 / 364
页数:2
相关论文
共 50 条
  • [1] Amino-acid substitutions in a surface turn modulate protein stability
    Predki, PF
    Agrawal, V
    Brunger, AT
    Regan, L
    NATURE STRUCTURAL BIOLOGY, 1996, 3 (01): : 54 - 58
  • [2] STABILIZATION OF PROTEIN CONFORMATION BY AMINO-ACID SUBSTITUTIONS
    YUTANI, K
    SEIKAGAKU, 1989, 61 (03): : 194 - 198
  • [3] APPROACHES TO PREDICTING EFFECTS OF SINGLE AMINO-ACID SUBSTITUTIONS ON THE FUNCTION OF A PROTEIN
    ZABIN, HB
    HORVATH, MP
    TERWILLIGER, TC
    BIOCHEMISTRY, 1991, 30 (25) : 6230 - 6240
  • [4] Probing protein surface accessibility of amino acid substitutions using hydrophobic interaction chromatography
    Becker, Kristian
    Grey, Marie
    Bulow, Leif
    JOURNAL OF CHROMATOGRAPHY A, 2008, 1215 (1-2) : 152 - 155
  • [5] 2 TYPES OF AMINO-ACID SUBSTITUTIONS IN PROTEIN EVOLUTION
    MIYATA, T
    MIYAZAWA, S
    YASUNAGA, T
    JOURNAL OF MOLECULAR EVOLUTION, 1979, 12 (03) : 219 - 236
  • [6] ACCUMULATION PATTERN OF AMINO-ACID SUBSTITUTIONS IN PROTEIN EVOLUTION
    KUNISAWA, T
    HORIMOTO, K
    OTSUKA, J
    JOURNAL OF MOLECULAR EVOLUTION, 1987, 24 (04) : 357 - 365
  • [7] STRUCTURAL EFFECTS OF AMINO-ACID SUBSTITUTIONS ON THE MATRIX PROTEIN OF VESICULAR STOMATITIS-VIRUS
    BRANDTRAUF, PW
    PINCUS, MR
    MAIZEL, J
    CARTY, RP
    LUBOWSKY, J
    AVITABLE, M
    SHIPLEY, JB
    WAGNER, RR
    JOURNAL OF PROTEIN CHEMISTRY, 1987, 6 (06): : 463 - 472
  • [8] DECIPHERING THE MESSAGE IN PROTEIN SEQUENCES - TOLERANCE TO AMINO-ACID SUBSTITUTIONS
    BOWIE, JU
    REIDHAAROLSON, JF
    LIM, WA
    SAUER, RT
    SCIENCE, 1990, 247 (4948) : 1306 - 1310
  • [9] PROBING THE DETERMINANTS OF PROTEIN FOLDING AND STABILITY WITH AMINO-ACID SUBSTITUTIONS
    SHORTLE, D
    JOURNAL OF BIOLOGICAL CHEMISTRY, 1989, 264 (10) : 5315 - 5318
  • [10] Effects of Hydrophobic Amino Acid Substitutions on Antimicrobial Peptide Behavior
    Saint Jean, Kimberly D.
    Henderson, Karlee D.
    Chrom, Christina L.
    Abiuso, Louisa E.
    Renn, Lindsay M.
    Caputo, Gregory A.
    PROBIOTICS AND ANTIMICROBIAL PROTEINS, 2018, 10 (03) : 408 - 419
12345