一氧化碳对体外混合瘤胃微生物发酵纤维、淀粉和氨基酸的影响。
Effect of carbon monoxide on fermentation of fiber, starch, and amino acids by mixed rumen microorganisms in vitro.
作者信息
Russell J B, Jeraci J L
出版信息
Appl Environ Microbiol. 1984 Jul;48(1):211-7. doi: 10.1128/aem.48.1.211-217.1984.
Abstract
When 1 atm (101.3 kPa) of carbon monoxide was added to mixed rumen bacterial incubations containing timothy hay, methane production was inhibited by 88% without an increase in hydrogen. The molar ratio of propionate to acetate increased from 0.83 to 1.53, extracellular ammonia declined from 5.2 to 2.4 mM, and hemicellulose and cellulose digestions were inhibited by 40 and 27%, respectively. Even low levels of carbon monoxide (less than 0.1 atm [10.13 kPa]) significantly changed the products of fermentation. With starch, methane production was once again inhibited, but the magnitude of starch fermentation was unaffected. Decrease in acetate was accompanied by an equal molar increase in lactate. Ammonia production from the amino acid source, Trypticase, declined 20% as carbon monoxide was increased to 1.0 atm, and 93% of this decrease was explained by a selective inhibition of branched-chain amino acid fermentation.
摘要
当向含有梯牧草的瘤胃细菌混合培养液中添加1个标准大气压(101.3千帕)的一氧化碳时,甲烷生成受到88%的抑制,而氢气并未增加。丙酸与乙酸的摩尔比从0.83增至1.53,细胞外氨从5.2毫摩尔降至2.4毫摩尔,半纤维素和纤维素消化分别受到40%和27%的抑制。即便低水平的一氧化碳(低于0.1个标准大气压[10.13千帕])也会显著改变发酵产物。对于淀粉,甲烷生成再次受到抑制,但淀粉发酵程度未受影响。乙酸减少的同时,乳酸等摩尔增加。随着一氧化碳增至1.0个标准大气压,来自氨基酸源胰蛋白胨的氨生成下降20%,这种下降的93%可通过对支链氨基酸发酵的选择性抑制来解释。
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