CHARACTERIZATION OF A MUTATED RUBREDOXIN WITH A CYSTEINE LIGAND OF THE IRON REPLACED BY SERINE

被引:37
作者
MEYER, J
GAILLARD, J
LUTZ, M
机构
[1] CENG,DEPT RECH FONDAMENTALE MATIERE CONDENSEE,F-38054 GRENOBLE,FRANCE
[2] CE SACLAY,DEPT CELLULAR & MOLEC BIOL,CEA,F-91191 GIF SUR YVETTE,FRANCE
来源
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS | 1995年 / 212卷 / 03期
关键词
D O I
10.1006/bbrc.1995.2043
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
The active site of rubredoxins consists of a single iron tetrahedrally coordinated to four cysteinate sulfurs. One of the iron ligands, cysteine 42, has been mutated into serine in Clostridium pasteurianum rubredoxin. This mutation resulted in a shift to higher energy of the 320-800 nm region of the UV-visible absorption spectrum. Resonance Raman spectra showed that the v(1) breathing mode of the iron chromophore was upshifted as a result of the C42S mutation. The spectral pattern, however, was not largely disturbed by the mutation. The EPR spectra of both the wild type and the C42S mutated protein displayed the characteristic features, at g=4.3 and g=9.5, of the ''3/2'' and ''1/2'' Kramers' doublets, respectively, of a S=5/2 multiplet. These combined data afford strong evidence that in the C42S mutated rubredoxin serine has replaced cysteine 42 as a ligand of the iron, while maintaining the tetrahedral coordination of the metal. The most spectacular effect of the C42S mutation was a ca. 200 mV downshift of the redox potential of rubredoxin. (C) 1995 Academic Press, Inc.
引用
收藏
页码:827 / 833
页数:7
相关论文
共 22 条
  • [1] SOLUTION-STATE STRUCTURE BY NMR OF ZINC-SUBSTITUTED RUBREDOXIN FROM THE MARINE HYPERTHERMOPHILIC ARCHAEBACTERIUM PYROCOCCUS-FURIOSUS
    BLAKE, PR
    PARK, JB
    ZHOU, ZH
    HARE, DR
    ADAMS, MWW
    SUMMERS, MF
    [J]. PROTEIN SCIENCE, 1992, 1 (11) : 1508 - 1521
  • [2] BLAKE PR, 1994, NEW J CHEM, V18, P387
  • [3] CLELAND WE, 1987, INORG CHEM, V23, P4192
  • [4] RESONANCE RAMAN-SPECTRA OF RUBREDOXIN - NEW ASSIGNMENTS AND VIBRATIONAL COUPLING MECHANISM FROM FE-54 FE-56 ISOTOPE SHIFTS AND VARIABLE-WAVELENGTH EXCITATION
    CZERNUSZEWICZ, RS
    LEGALL, J
    MOURA, I
    SPIRO, TG
    [J]. INORGANIC CHEMISTRY, 1986, 25 (05) : 696 - 700
  • [5] Eaton W. A., 1973, IRON SULFUR PROTEINS, V2, P131
  • [6] EXPRESSION OF A SYNTHETIC GENE CODING FOR THE AMINO-ACID-SEQUENCE OF CLOSTRIDIUM-PASTEURIANUM RUBREDOXIN
    EIDSNESS, MK
    ODELL, SE
    KURTZ, DM
    ROBSON, RL
    SCOTT, RA
    [J]. PROTEIN ENGINEERING, 1992, 5 (04): : 367 - 371
  • [7] Frankel R. B., 1976, J PHYSIQUE, V37, P165
  • [8] EPR SPECTROSCOPY OF IRON-SULFUR PROTEINS
    HAGEN, WR
    [J]. ADVANCES IN INORGANIC CHEMISTRY, 1992, 38 : 165 - 222
  • [9] IDENTIFICATION OF CYSTEINE LIGANDS IN METALLOPROTEINS USING OPTICAL AND NMR-SPECTROSCOPY - CADMIUM-SUBSTITUTED RUBREDOXIN AS A MODEL [CD(CYSS)4]2- CENTER
    HENEHAN, CJ
    POUNTNEY, DL
    ZERBE, O
    VASAK, M
    [J]. PROTEIN SCIENCE, 1993, 2 (10) : 1756 - 1764
  • [10] RESONANCE RAMAN STUDIES OF NICKEL TETRATHIOLATES AND NICKEL-SUBSTITUTED RUBREDOXINS AND DESULFOREDOXIN
    HUANG, YH
    MOURA, I
    MOURA, JJG
    LEGALL, J
    PARK, JB
    ADAMS, MWW
    JOHNSON, MK
    [J]. INORGANIC CHEMISTRY, 1993, 32 (04) : 406 - 412
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