期刊
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
卷 105, 期 39, 页码 14849-14854出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.0803428105
关键词
metalloenzyme; modification; sulfinic acid; sulfenic acid; chaperone
资金
- Ministry of Education, Culture, Sports, Science, and Technology (MEXT)
Several general mechanisms of metallocenter biosynthesis have been reported and reviewed, and in all cases, the components or subunits of an apoprotein remain in the final holoprotein. Here, we first discovered that one subunit of an apoenzyme did not remain in the functional holoenzyme. The cobalt-containing low-molecularmass nitrile hydratase (L-NHase) of Rhodococcus rhodochrous J1 consists of beta- and alpha-subunits encoded by the nhlBA genes, respectively. An ORF, nhlE, just downstream of nhlBA, was found to be necessary for L-NHase activation. In contrast to the cobalt-containing L-NHase (holo-L-NHase containing Cys-SO2- and Cys-SO- metal ligands) derived from nhlBAE, the gene products derived from nhlBA were cobalt-free L-NHase (apo-L-NHase lacking oxidized cysteine residues). We discovered an L-NHase maturation mediator, NhlAE, consisting of NhlE and the cobalt-and oxidized cysteine-containing alpha-subunit of L-NHase. The incorporation of cobalt into L-NHase was shown to depend on the exchange of the nonmodified cobalt-free alpha-subunit of apo-L-NHase with the cobalt-containing cysteine-modified alpha-subunit of NhlAE. This is a posttranslational maturation process different from general mechanisms of metallocenter biosynthesis known so far: the unexpected behavior of a protein in a protein complex, which we named self-subunit swapping.''
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