Regulation of Phosphotransferases in Glucose- and Xylose-Fermenting Yeasts

机译：葡萄糖和木糖发酵酵母中磷酸转移酶的调控

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This research examined the titers of hexokinase (HK), phosphofruc-tokinase (PFK), and xylulokinase (XUK) in Saccharomyces cerevisiae and two xylose fermenting yeasts, Pachysolen tannophilus and Candida she-hatae, following shifts in carbon source and aeration. Xylose-grown C. shehatae, glucose-grown P. tannophilus, and glucose-grown S. cerevisiae, had the highest specific activities of XUK, HK, and PFK, respectively. XUK was induced by xylose to moderate levels in both P. tannophilus and C. shehatae, but was present only in trace levels in S. cerevisiae. HK activities in P. tannophilus were two to three fold higher when cells were grown on glucose than when grown on xylose, but HK levels were less inducible in C. shehatae. The PFK activities in S. cerevisiae were 1.5 to 2 times higher than in the two xylose-fermenting yeasts. Transfer from glucose to xylose rapidly inactivated HK in P. tannophilus, and transfer from xylose to glucose inactivated XUK in C. shehatae. The patterns of induction and inactivation indicate that the basic regulatory mechanisms differ in the two xylose fermenting yeasts.

机译：这项研究检查了酿酒酵母和两种木糖发酵酵母Pachysolen tannophilus和Candida she-hatae中的己糖激酶（HK），磷酸果糖激酶（PFK）和木酮糖酶（XUK）的效价，其原因是碳源和曝气发生了变化。木糖生长的C. shehatae，葡萄糖生长的P. tannophilus和葡萄糖生长的酿酒酵母（S. cerevisiae）分别具有最高的XUK，HK和PFK比活度。木糖诱导的XUK在单核嗜酸杆菌和C. shehatae中均达到中等水平，但在酿酒酵母中仅以痕量存在。当细胞在葡萄糖上生长时，其在嗜酸伯劳球菌中的HK活性要比在木糖上生长的HK高2到3倍，但是在Shehatae中诱导HK的水平却较低。酿酒酵母中的PFK活性比两种木糖发酵酵母中的PFK活性高1.5至2倍。从葡萄糖到木糖的转移在丹参假单胞菌中迅速使HK失活，而在谢哈德酵母中从木糖到葡萄糖的XUK失活。诱导和失活的模式表明，两种木糖发酵酵母的基本调控机制不同。

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《Biotechnology for Fuels and Chemicals》|1997年|p.97-108|共12页
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VINA W. YANG; THOMAS W. JEFFRIES;
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中图分类生物化学;
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saccharomyces cerevisiae; pachysolen tannophilus; candida shehatae; 6-phosphofructokinase; hexokinase; d-xylulokinase; regulation; phosphotransferase;

机译：酿酒酵母;厚朴单宁假丝酵母念珠菌6-磷酸果糖激酶;己糖激酶d-木酮糖激酶;规;磷酸转移酶;

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1. Regulation of phosphotransferases in glucose- and xylose-fermenting yeasts [J] . Yang VW, Jeffries TW Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology . 1997,第0期

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3. Reusable Floating Beads with Immobilized Xylose-Fermenting Yeast Cells for Simultaneous Saccharification and Fermentation of Lime-Pretreated Rice Straw [J] . Di Guan, Rui Zhao, Yuan Li, Journal of Applied Glycoscience . 2019,第1期

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6. Metabolic flux analysis for metabolome data validation of naturally xylose-fermenting yeasts [O] . Henrique C. T. Veras, Christiane G. Campos, Igor F. Nascimento, 2019

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7. Scheffersomyces cryptocercus: a new xylose-fermenting yeast associated with the gut of wood roaches and a taxonomic revision of the Sugiyamaella yeast clade [O] . Urbina, Hector, Frank, Robert, Blackwell, Meredith 2012

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Regulation of Phosphotransferases in Glucose- and Xylose-Fermenting Yeasts

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