Zhou Zhemin, Hashimoto Yoshiteru, Shiraki Kentaro, Kobayashi Michihiko
Institute of Applied Biochemistry and Graduate School of Life and Environmental Sciences, University of Tsukuba, 1-1-1 Tennodai, Tsukuba, Ibaraki 305-8572, Japan.
Proc Natl Acad Sci U S A. 2008 Sep 30;105(39):14849-54. doi: 10.1073/pnas.0803428105. Epub 2008 Sep 22.
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-molecular-mass 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-SO(2)(-) 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."
关于金属中心生物合成的几种一般机制已有报道和综述,在所有情况下,脱辅基蛋白的组分或亚基都保留在最终的全蛋白中。在此,我们首次发现一种脱辅酶的一个亚基并未保留在功能性全酶中。红平红球菌J1含钴的低分子量腈水合酶(L-NHase)分别由nhlBA基因编码的β-亚基和α-亚基组成。发现nhlBA下游的一个开放阅读框nhlE是L-NHase激活所必需的。与源自nhlBAE的含钴L-NHase(含有Cys-SO(2)(-)和Cys-SO(-)金属配体的全L-NHase)相反,源自nhlBA的基因产物是无钴L-NHase(缺乏氧化半胱氨酸残基的脱辅基L-NHase)。我们发现了一种L-NHase成熟介质NhlAE,它由NhlE和L-NHase含钴及氧化半胱氨酸的α-亚基组成。已表明钴掺入L-NHase取决于脱辅基L-NHase未修饰的无钴α-亚基与NhlAE含钴的半胱氨酸修饰α-亚基的交换。这是一个不同于迄今已知的金属中心生物合成一般机制的翻译后成熟过程:蛋白质复合物中一种蛋白质的意外行为,我们将其命名为“自身亚基交换”。