A SINGLE AMINO-ACID SUBSTITUTION CAN RESTORE THE SOLUBILITY OF AGGREGATED COLICIN-A MUTANTS IN ESCHERICHIA-COLI

被引:19
|
作者
IZARD, J
PARKER, MW
CHARTIER, M
DUCHE, D
BATY, D
机构
[1] CNRS, UPR 9027, INGN & DYNAM SYST MEMBRANAIRES LAB, F-13402 MARSEILLE 20, FRANCE
[2] ST VINCENTS INST MED RES, FITZROY, VIC 3065, AUSTRALIA
来源
PROTEIN ENGINEERING | 1994年 / 7卷 / 12期
基金
英国惠康基金;
关键词
AGGREGATION; HYDROPHOBIC CAVITY; INCLUSION BODY; PROTEIN ENGINEERING; PROTEIN STABILITY;
D O I
10.1093/protein/7.12.1495
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
Mutants of colicin A have been prepared in which the three tryptophan residues (Trp86, Trp130 acid Trp140), localized in the C-terminal domain of the soluble wildtype protein, have been substituted by phenylalanine. The Trp140Phe single mutation had the effect of decreasing the percentage of protein that is expressed as insoluble aggregates. The created hydrophobic cavity decreased the stability of the protein during its folding, resulting in partial aggregation in the cytoplasm of the Escherichia coli-producing cells. Aggregation was increased when Trp140 was substituted by Lys, Leu or Cys, or if the Trp140 mutation was combined with the Trp86Phe and/or Trp130Phe mutations. A single mutation, Lys113Phe, however, was able to restore the solubility of the aggregated mutants in vivo. Detailed analysis of the 3-D structure of the C-terminal domain of colicin A suggests that filling of the hydrophobic cavity is responsible for this effect.
引用
收藏
页码:1495 / 1500
页数:6
相关论文
共 50 条
  • [41] CHANGES IN CELL DIMENSIONS DURING AMINO-ACID STARVATION OF ESCHERICHIA-COLI
    GROSSMAN, N
    RON, EZ
    WOLDRINGH, CL
    JOURNAL OF BACTERIOLOGY, 1982, 152 (01) : 35 - 41
  • [42] REGULATION OF BRANCHED-CHAIN AMINO-ACID TRANSPORT IN ESCHERICHIA-COLI
    QUAY, SC
    OXENDER, DL
    JOURNAL OF BACTERIOLOGY, 1976, 127 (03) : 1225 - 1238
  • [43] RELATION BETWEEN AMINO-ACID HYDROPHOBICITY AND RATE OF UPTAKE IN ESCHERICHIA-COLI
    SPROTT, GD
    WOOD, JM
    MARTIN, WG
    SCHNEIDER, H
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1977, 76 (04) : 1099 - 1106
  • [44] AMINO-ACID REPLACEMENT IN A MUTANT LIPOPROTEIN OF ESCHERICHIA-COLI OUTER MEMBRANE
    INOUYE, S
    LEE, N
    INOUYE, M
    WU, HC
    SUZUKI, H
    NISHIMURA, Y
    IKETANI, H
    HIROTA, Y
    JOURNAL OF BACTERIOLOGY, 1977, 132 (01) : 308 - 313
  • [45] SYNTHESIS AND BREAKDOWN OF PROTEINS IN ESCHERICHIA-COLI DURING AMINO-ACID STARVATION
    BRUNSCHEDE, H
    BREMER, H
    JOURNAL OF MOLECULAR BIOLOGY, 1971, 57 (01) : 35 - +
  • [46] DIFFERENTIAL EFFECT OF AMINO-ACID STARVATION ON POLYSOME DECAY IN ESCHERICHIA-COLI
    ROCHE, J
    COZZONE, AJ
    DONINI, P
    SANTONASTASO, V
    MOLECULAR BIOLOGY REPORTS, 1978, 4 (01) : 21 - 24
  • [47] FUNCTIONAL ALTERATION OF ESCHERICHIA-COLI RNA-POLYMERASE FOLLOWING AMINO-ACID SUBSTITUTION IN BETA-SUBUNIT
    ISHIHAMA, A
    GLASS, RE
    NOMURA, T
    FUJITA, N
    JAPANESE JOURNAL OF GENETICS, 1985, 60 (06): : 596 - 597
  • [48] AMINO-TERMINAL AMINO-ACID AND CARBOXY-TERMINAL AMINO-ACID SEQUENCES OF PROTEIN HU FROM ESCHERICHIA-COLI
    LAINE, B
    SAUTIERE, P
    BISERTE, G
    COHENSOLAL, M
    GROS, F
    ROUVIEREYANIV, J
    FEBS LETTERS, 1978, 89 (01) : 116 - 120
  • [49] ISOLATION AND PRELIMINARY CHARACTERIZATION OF SINGLE AMINO-ACID SUBSTITUTION MUTANTS OF ASPARTATE CARBAMOYLTRANSFERASE
    KANTROWITZ, ER
    FOOTE, J
    REED, HW
    VENSEL, LA
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA-BIOLOGICAL SCIENCES, 1980, 77 (06): : 3249 - 3253
  • [50] Stabilization of Escherichia coli isopropylmalate dehydrogenase by single amino acid substitution
    Aoshima, M
    Oshima, T
    PROTEIN ENGINEERING, 1997, 10 (03): : 249 - 254
12345