Ogawa Keiko, Sonoyama Takafumi, Takeda Taku, Ichiki Shin-Ichi, Nakamura Shota, Kobayashi Yuji, Uchiyama Susumu, Nakasone Kaoru, Takayama Shin-Ichi J, Mita Hajime, Yamamoto Yasuhiko, Sambongi Yoshihiro
Graduate School of Biosphere Science, Hiroshima University, Higashi-Hiroshima, Hiroshima, 739-8528, Japan.
Extremophiles. 2007 Nov;11(6):797-807. doi: 10.1007/s00792-007-0099-5. Epub 2007 Jul 27.
Cys-59 and Cys-62, forming a disulfide bond in the four-residue loop of Shewanella violacea cytochrome c (5) (SV cytc (5)), contribute to protein stability but not to redox function. These Cys residues were substituted with Ala in SV cytc (5), and the structural and functional properties of the resulting C59A/C62A variant were determined and compared with those of the wild-type. The variant had similar features to those of the wild-type in absorption, circular dichroic, and paramagnetic (1)H NMR spectra. In addition, the redox potentials of the wild-type and variant were essentially the same, indicating that removal of the disulfide bond from SV cytc (5) does not affect the redox function generated in the vicinity of heme. However, calorimetric analysis of the wild-type and variant showed that the mutations caused a drastic decrease in the protein stability through enthalpy, but not entropy. Four residues are encompassed by the SV cytc (5) disulfide bond, which is the shortest one that has been proved to affect protein stability. The protein stability of SV cytc (5) can be controlled without changing the redox function, providing a new strategy for regulating the stability and function of cytochrome c.
在紫色希瓦氏菌细胞色素c(5)(SV cytc(5))的四残基环中形成二硫键的半胱氨酸-59和半胱氨酸-62有助于蛋白质稳定性,但对氧化还原功能无贡献。这些半胱氨酸残基在SV cytc(5)中被丙氨酸取代,并测定了所得C59A/C62A变体的结构和功能特性,并与野生型进行了比较。该变体在吸收光谱、圆二色光谱和顺磁(1)H NMR光谱方面具有与野生型相似的特征。此外,野生型和变体的氧化还原电位基本相同,这表明从SV cytc(5)中去除二硫键不会影响血红素附近产生的氧化还原功能。然而,对野生型和变体的量热分析表明,这些突变通过焓导致蛋白质稳定性急剧下降,但熵没有变化。SV cytc(5)二硫键包含四个残基,这是已被证明会影响蛋白质稳定性的最短的二硫键。可以在不改变氧化还原功能的情况下控制SV cytc(5)的蛋白质稳定性,为调节细胞色素c的稳定性和功能提供了一种新策略。
