Evidence that Cellulolysis by an Anaerobic Ruminal Fungus Is Catabolite Regulated by Glucose, Cellobiose, and Soluble Starch

Mark Morrison; Roderick I. Mackie; Albrecht Kistner

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Evidence that Cellulolysis by an Anaerobic Ruminal Fungus Is Catabolite Regulated by Glucose, Cellobiose, and Soluble Starch

机译：厌氧性瘤胃纤维素分解是由葡萄糖，纤维二糖和可溶性淀粉调节的分解代谢的证据。

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A Piromyces-like ruminal fungus was used to study preferential carbohydrate utilization of [U-14C]cellulose, both alone and in combination with several soluble sugars. For cells grown on cellulose alone, cellulolytic activity was immediate and, initially, greater than that observed in the presence of added carbohydrate. Cellulolytic activity remained minimal in cultures containing cellulose plus glucose or cellobiose until the soluble sugar was depleted. Soluble starch also regulated cellulose activity but to a lesser extent. The results presented suggest that some fungal cellulases are susceptible to catabolite regulatory mechanisms.

机译：拟皮霉菌瘤胃真菌被用于研究[U-14C]纤维素的优先碳水化合物利用，无论是单独使用还是与几种可溶性糖结合使用。对于仅在纤维素上生长的细胞，其纤维素分解活性是即时的，并且最初比在添加碳水化合物的情况下观察到的更高。在含有纤维素加葡萄糖或纤维二糖的培养物中，纤维素分解活性保持最小，直到耗尽了可溶性糖。可溶性淀粉也调节纤维素活性，但是程度较小。提出的结果表明某些真菌纤维素酶易受分解代谢调节机制的影响。

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《Applied and Environmental Microbiology 》 |1990年第10期| 共3页
作者
Mark Morrison; Roderick I. Mackie; Albrecht Kistner;
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1. Production of succinate from glucose, cellobiose, and various cellulosic materials by the ruminal anaerobic bacteria Fibrobacter succinogenes and Ruminococcus flavefaciens [J] . Gokarn RR, Eiteman MA, Martin SA, Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology . 1997 ,第1a2期

机译：瘤胃厌氧细菌琥珀酸纤维杆菌和黄褐球菌由葡萄糖，纤维二糖和各种纤维素材料生产琥珀酸酯
2. Principles of Carbon Catabolite Repression in the Rice Blast Fungus: Tps1, Nmr1-3, and a MATE–Family Pump Regulate Glucose Metabolism during Infection [J] . Jessie Fernandez, Janet D. Wright, David Hartline, PLoS Genetics . 2012 ,第5期

机译：稻瘟病菌中碳分解代谢物阻遏的原理：Tps1，Nmr1-3和MATE家庭泵在感染过程中调节葡萄糖代谢。
3. Effects of emulsified octadecanic acids on gas production and cellulolysis by the rumen anaerobic fungus, Piromyces communis M014. [J] . Kim CH, Lee SJ, Ha JK, Anaerobe . 2008 ,第1期

机译：乳化十八烷酸对瘤胃厌氧真菌Piromyces communis M014产气和纤维素分解的影响。
4. A Study on Anaerobic Textile Dye Decolorization with Soluble Starch as Co-substrate [C] . A. Boonyakamol, T. Imai, P. Chairattanamanokorn, The Fifth International Symposium on Southeast Asian Water Environment(Poster Presentation Proceedings) . 2007

机译：可溶性淀粉为基质的厌氧纺织品染料脱色研究
5. Evidence that Cellulolysis by an Anaerobic Ruminal Fungus Is Catabolite Regulated by Glucose Cellobiose and Soluble Starch [O] . 1991

机译：厌氧性瘤胃纤维素的分解作用是由葡萄糖纤维二糖和可溶性淀粉调节的分解代谢的证据。
6. Evidence That Cellulolysis by An Anaerobic Ruminal Fungus Is Catabolite Regulated by Glucose, Cellobiose, and Soluble Starch [O] . Morrison M, Mackie RI, Kistner A 1990

机译：厌氧性瘤胃纤维素的分解作用受葡萄糖，纤维二糖和可溶性淀粉调控的分解代谢的证据

Evidence that Cellulolysis by an Anaerobic Ruminal Fungus Is Catabolite Regulated by Glucose, Cellobiose, and Soluble Starch

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