盐胁迫下中性曲霉甘油积累的生物合成途径

Rajendra J. Redkar, Robert D. Locy, Narendra K. Singh
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引用次数: 39

摘要

瑞德卡,r.j.,洛伊。r.d.和Singh, n.k. 1995。中性曲霉在盐胁迫下甘油积累的生物合成途径。真菌学学报,19,241-246。细粒曲霉(Aspergillus nidulans, FGSC 359)培养物逐渐适应在含高达2 M NaCl的培养基中生长或暴露于2 M NaCl的盐冲击中。与未适应的培养相比,盐适应培养的细胞内甘油水平增加了约7.9倍,盐冲击培养的细胞内甘油水平增加了2.4倍。研究了长期盐适应和短期盐休克下参与甘油积累的生物合成途径。甘油3-磷酸脱氢酶(EC 1.1.1.8)在盐休克培养中被诱导1.4倍,而在盐适应培养中没有。NaCl诱导了甘油脱氢酶(NADP+依赖)利用二羟基丙酮(DHA)和/或dl -甘油醛(DL-GAD)的替代酶途径。dha依赖的甘油脱氢酶活性在盐适应培养中诱导为6.3倍,在盐冲击培养中诱导为1.35倍,而dl - gad依赖的甘油脱氢酶活性在盐适应培养中诱导为6.1倍,在盐冲击培养中诱导为1.2倍。然而,以DL-GAD为底物的甘油脱氢酶活性水平是dha依赖活性的7%。我们得出结论,盐诱导的NADP+依赖的甘油脱氢酶活性在电泳上与先前描述的甘油脱氢酶I难以区分,导致盐胁迫下a . nidulans的甘油积累。
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Biosynthetic Pathways of Glycerol Accumulation under Salt Stress in Aspergillus nidulans

Redkar, R. J., Locy. R. D., and Singh, N. K. 1995. Biosynthetic pathways of glycerol accumulation under salt stress in Aspergillus nidulans. Experimental Mycology 19, 241-246. A culture of Aspergillus nidulans (FGSC 359) was gradually adapted for growth in media containing up to 2 M NaCl or was exposed to a salt shock with 2 M NaCl. The intracellular glycerol level increased by about 7.9-fold in salt-adapted and 2.4-fold in salt-shocked cultures when compared to the unadapted culture. The biosynthetic pathway involved in the accumulation of glycerol was investigated under long-term salt adaptation and short-term salt shock. Glycerol 3-phosphate dehydrogenase (EC 1.1.1.8) was induced 1.4-fold in salt-shocked but not in salt-adapted cultures. An alternate enzymatic pathway involving glycerol dehydrogenase (NADP+-dependent) utilizing dihydroxyacetone (DHA) and/or DL-glyceraldehyde (DL-GAD) was induced by NaCl. DHA-dependent glycerol dehydrogenase activity was induced about 6.3-fold in salt adapted and 1.35-fold in salt-shocked cultures, while DL-GAD-dependent activity was induced about 6.1-fold in salt-adapted and 1.2-fold in salt shocked cultures. However, the level of glycerol dehydrogenase activity with DL-GAD as substrate was 7% of the DHA-dependent activity. We conclude that a salt-inducible NADP+-dependent glycerol dehydrogenase activity electrophoretically indistinguishable from previously described glycerol dehydrogenase I results in glycerol accumulation in salt-stressed A. nidulans.

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