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地衣芽孢杆菌和产肌醇红酵母固定化冷适应酵母菌株对苯酚的降解

Phenol degradation by immobilized cold-adapted yeast strains of Cryptococcus terreus and Rhodotorula creatinivora.

作者信息

Krallish Irina, Gonta Svetlana, Savenkova Ludmila, Bergauer Phillip, Margesin Rosa

机构信息

Institute of Microbiology and Biotechnology, University of Latvia, Kronvald boulv. 4, 1586 Riga, Latvia.

出版信息

Extremophiles. 2006 Oct;10(5):441-9. doi: 10.1007/s00792-006-0517-0. Epub 2006 Apr 7.

DOI:10.1007/s00792-006-0517-0
PMID:16601913
Abstract

Three strains were isolated from hydrocarbon-polluted alpine habitats and were representatives of Cryptococcus terreus (strain PB4) and Rhodotorula creatinivora (strains PB7, PB12). All three strains synthesized and accumulated glycogen (both acid- and alkali-soluble) and trehalose during growth in complex medium containing glucose as carbon source and in minimal salt medium (MSM) with phenol as sole carbon and energy source. C. terreus strain PB4 showed a lower total accumulation level of storage compounds and a lower extracellular polysaccharides (EPS) production than the two R. creatinivora strains, PB7 and PB12. Biofilm formation and phenol degradation by yeast strains attached to solid carriers of zeolite or filter sand were studied at 10 degrees C. Phenol degradation by immobilized yeast strains was always higher on zeolite compared with filter sand under normal osmotic growth conditions. The transfer of cells immobilized on both solid supports to a high osmotic environment decreased phenol degradation activity by all strains. However, both R. creatinivora PB7 and PB12 strains maintained higher ability to degrade phenol compared with C. terreus strain PB4, which almost completely lost its phenol degradation activity. Moreover, R. creatinivora strain PB7 showed the highest ability to form biofilm on both carriers under high osmotic conditions of cultivation.

摘要

从受烃污染的高山生境中分离出三株菌株,分别代表土生隐球菌(菌株PB4)和产肌醇红酵母(菌株PB7、PB12)。在以葡萄糖为碳源的复合培养基以及以苯酚为唯一碳源和能源的基本盐培养基(MSM)中生长期间,这三株菌株均合成并积累了糖原(酸溶性和碱溶性)和海藻糖。与两株产肌醇红酵母菌株PB7和PB12相比,土生隐球菌菌株PB4的储存化合物总积累水平较低,胞外多糖(EPS)产量也较低。在10℃下研究了附着在沸石或滤砂等固体载体上的酵母菌株的生物膜形成和苯酚降解情况。在正常渗透生长条件下,固定化酵母菌株在沸石上的苯酚降解率总是高于滤砂。将固定在两种固体载体上的细胞转移到高渗环境中会降低所有菌株的苯酚降解活性。然而,与几乎完全丧失苯酚降解活性的土生隐球菌菌株PB4相比,产肌醇红酵母PB7和PB12菌株保持了更高的苯酚降解能力。此外,在高渗培养条件下,产肌醇红酵母菌株PB7在两种载体上形成生物膜的能力最强。

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