酵母卡斯泰拉氏施万酵母中的葡萄糖代谢:磷酸化位点I和一条替代呼吸途径的作用
Glucose metabolism in the yeast Schwanniomyces castellii: role of phosphorylation site I and an alternative respiratory pathway.
作者信息
Zimmer E, Blanchard S, Boze H, Moulin G, Galzy P
机构信息
ENSA-INRA, Montpellier, France.
出版信息
Appl Environ Microbiol. 1997 Jul;63(7):2779-84. doi: 10.1128/aem.63.7.2779-2784.1997.
Glucose metabolism in a Crabtree-negative yeast, Schwanniomyces castellii, and a cytochrome b-deficient mutant of this strain was investigated in chemostat culture. The wild-type and mutant strains exhibited the same behavior. Oxidative metabolism was observed when the substrate uptake rate (qS) was low. Fermentative metabolites were excreted when the qS value was higher than 0.40 g.g-1.h-1, indicating the occurrence of a respirofermentative metabolism; however, the respiratory quotient (RQ) remained near 1. When fermentation occurred, the cytochrome pathway was repressed but not the salicylhydroxamic acid (SHAM)-sensitive pathway. The presence of an alternative SHAM-sensitive respiratory pathway and the presence of phosphorylation site I in all metabolic conditions explained the RQ value of 1 and accounted for high biomass yields in oxidative metabolism conditions (0.62 g.g-1 for the wild-type strain and 0.31 g.g-1 for the cytochrome b-deficient mutant strain).
在恒化器培养中研究了一种克勒勃屈利阴性酵母——卡氏施万酵母及其细胞色素b缺陷型突变体的葡萄糖代谢。野生型和突变型菌株表现出相同的行为。当底物摄取率(qS)较低时,观察到氧化代谢。当qS值高于0.40 g·g⁻¹·h⁻¹时,会分泌发酵代谢产物,表明发生了呼吸发酵代谢;然而,呼吸商(RQ)仍接近1。当发生发酵时,细胞色素途径受到抑制,但水杨羟肟酸(SHAM)敏感途径不受抑制。在所有代谢条件下,存在一条替代的SHAM敏感呼吸途径以及磷酸化位点I,这解释了RQ值为1,并说明了在氧化代谢条件下较高的生物量产量(野生型菌株为0.62 g·g⁻¹,细胞色素b缺陷型突变体菌株为0.31 g·g⁻¹)。
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