产甲烷八叠球菌与脱硫弧菌属种的协同作用对乳酸的厌氧降解及 H(2)对乙酸降解的影响。
Anaerobic Degradation of Lactate by Syntrophic Associations of Methanosarcina barkeri and Desulfovibrio Species and Effect of H(2) on Acetate Degradation.
机构信息
Departments of Dairy Science and Microbiology, University of Illinois, Urbana, Illinois 61801.
出版信息
Appl Environ Microbiol. 1981 Feb;41(2):346-54. doi: 10.1128/aem.41.2.346-354.1981.
When grown in the absence of added sulfate, cocultures of Desulfovibrio desulfuricans or Desulfovibrio vulgaris with Methanobrevibacter smithii (Methanobacterium ruminantium), which uses H(2) and CO(2) for methanogenesis, degraded lactate, with the production of acetate and CH(4). When D. desulfuricans or D. vulgaris was grown in the absence of added sulfate in coculture with Methanosarcina barkeri (type strain), which uses both H(2)-CO(2) and acetate for methanogenesis, lactate was stoichiometrically degraded to CH(4) and presumably to CO(2). During the first 12 days of incubation of the D. desulfuricans-M. barkeri coculture, lactate was completely degraded, with almost stoichiometric production of acetate and CH(4). Later, acetate was degraded to CH(4) and presumably to CO(2). In experiments in which 20 mM acetate and 0 to 20 mM lactate were added to D. desulfuricans-M. barkeri cocultures, no detectable degradation of acetate occurred until the lactate was catabolized. The ultimate rate of acetate utilization for methanogenesis was greater for those cocultures receiving the highest levels of lactate. A small amount of H(2) was detected in cocultures which contained D. desulfuricans and M. barkeri until after all lactate was degraded. The addition of H(2), but not of lactate, to the growth medium inhibited acetate degradation by pure cultures of M. barkeri. Pure cultures of M. barkeri produced CH(4) from acetate at a rate equivalent to that observed for cocultures containing M. barkeri. Inocula of M. barkeri grown with H(2)-CO(2) as the methanogenic substrate produced CH(4) from acetate at a rate equivalent to that observed for acetate-grown inocula when grown in a rumen fluid-vitamin-based medium but not when grown in a yeast extract-based medium. The results suggest that H(2) produced by the Desulfovibrio species during growth with lactate inhibited acetate degradation by M. barkeri.
当在没有添加硫酸盐的情况下生长时,脱硫弧菌或普通脱硫弧菌与 Methanobrevibacter smithii(产甲烷杆菌)共培养(产甲烷杆菌利用 H(2) 和 CO(2) 进行甲烷生成),可降解乳酸盐,生成乙酸盐和 CH(4)。当脱硫弧菌或普通脱硫弧菌在与 Methanosarcina barkeri(模式株)的共培养物中在没有添加硫酸盐的情况下生长时,Methanosarcina barkeri 既利用 H(2)-CO(2) 也利用乙酸盐进行甲烷生成,乳酸盐被化学计量地降解为 CH(4),并可能降解为 CO(2)。在脱硫弧菌-Methanosarcina barkeri 共培养物的前 12 天孵育过程中,乳酸盐完全降解,几乎等量生成乙酸盐和 CH(4)。之后,乙酸盐降解为 CH(4),并可能降解为 CO(2)。在向脱硫弧菌-Methanosarcina barkeri 共培养物中添加 20mM 乙酸盐和 0 到 20mM 乳酸盐的实验中,直到乳酸盐被代谢掉,才检测到乙酸盐的可检测降解。对于接受最高水平乳酸盐的共培养物,乙酸盐用于甲烷生成的最终利用速率更高。在含有脱硫弧菌和 Methanosarcina barkeri 的共培养物中,直到所有乳酸盐降解后,才检测到少量的 H(2)。向生长培养基中添加 H(2),而不是乳酸盐,会抑制 Methanosarcina barkeri 的纯培养物降解乙酸盐。Methanosarcina barkeri 的纯培养物以相当于含有 Methanosarcina barkeri 的共培养物中观察到的速率从乙酸盐产生 CH(4)。当在含有酵母提取物的培养基中生长时,用 H(2)-CO(2) 作为产甲烷基质生长的 Methanosarcina barkeri 接种物从乙酸盐产生 CH(4)的速率与在含有酵母提取物的培养基中生长的乙酸盐接种物的速率相当,但在基于瘤胃液-维生素的培养基中则不然。结果表明,脱硫弧菌在生长过程中产生的 H(2)抑制了 Methanosarcina barkeri 对乙酸盐的降解。
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