瘤胃纤维素降解菌的分离鉴定及其纤维素降解特性

纤维素是地球上最丰富的可再生有机资源,但是其不溶于水和有机溶剂的难降解特性限制了它的利用.多年来,研究者们在利用纤维素资源方面做着努力,其中,利用微生物产生的纤维素酶降解纤维素,具有条件温和、产物产率高和无二次污染等特点,成为目前较有效且更接近自然的一种纤维素处理方法.同时,由微生物产生的纤维素酶在食品、酿酒、造纸、饲料和纺织等行业也有着广泛的应用.     

Pentose transport by the ruminal bacterium Butyrivibrio fibrisolvens

Abstract Butyrivibrio fibrisolvens is a fibrolytic ruminal bacterium that degrades hemicellulose and ferments the resulting pentose sugars. Washed cells of strain D1 accumulated radiolabelled xylose ( K _m= 1.5 μ M) and arabinose ( K _m= 0.2 μ M) when the organism was grown on xylose, arabinose, or glucose, but cultures grown on sucrose or cellobiose had little capacity to transport pentose. Glucose and xylose inhibited transport of each other non-competitively. Both sugars were utilized preferentially over arabinose, but since they did not inhibit transport of arabinose, it appeared that the preference was related to an internal metabolic step. Although the protonmotive force was completely abolished by ionophores, cells retained some ability to transport pentose. In contrast, the metabolic inhibitors iodoacetate, arsenate, and fluoride had little effect on protonmotive force but caused a large decrease in intracellular ATP and xylose and arabinose uptake. These results suggested that high-affinity, ATP-dependent mechanisms were responsible for pentose transport and hexose sugars affected the utilization of xylose and arabinose.     

Xylose and arabinose utilization by the rumen bacterium Butyrivibrio fibrisolvens

Abstract The rumen bacterium Butyrivibrio fibrisolvens strain D1 co-utilized xylose and glucose in batch culture, but there was a marked preference for glucose over arabinose. When both pentoses were provided, xylose was preferred over arabinose. Strain D1 co-utilized a combination of either pentose and cellobiose, but preferred pentoses over maltose. Pentose sugars were depleted less rapidly in the presence of sucrose than controls containing only pentose. In contrast, B. fibrisolvens strain A38 exhibited a strong preference for disaccharides, including maltose, over either xylose or arabinose. Theoretical maximum growth yields for strain D1v in single-substrate continuous culture were highest for sucrose and cellobiose and the maintenance energy coefficient for arabinose was at least 3.8-fold greater than for other substrates. We suggest that B. fibrisolvens may have evolved a mechanism to utilize certain sugars before arabinose in order to avoid this high maintenance energy expenditure.     

Cloning of a gene encoding cinnamoyl ester hydrolase from the ruminai bacterium Butyrivibrio fibrisolvens E14 by a novel method

Abstract A gene ( cin I) encoding a cinnamoyl ester hydrolase (CEH) has been isolated from the ruminai bacterium, Butyrivibrio fibrisohens E14, using a model substrate, MUTMAC [4-methylumbelliferoyl ( p -trimethylammonium cinnamate chloride)]. CinI has significant amino-acid similarities with members of a large and diverse family of hydrolases with a serine/aspartic acid/ histidine catalytic triad. Our analyses identified two previously unclassified amino acid sequences, the amino-terminal domain of unknown function in XynZ from Clostridium thermocellum and XynC, an acetylxylan esterase from Caldicellulosiruptor saccharolyticus , as members of the same family of hydrolases. A previously described esterase with CEH activity, XylD from Pseudomonas fluorescens ssp. cellulosa , is not similar to CinI. CinI was expressed at high levels in the periplasmic fraction of E. coli TOPP2 and released ferulic acid from Fara [5- O -( trans -feruloyl)-arabinofuranose] prepared from wheat bran.