Bock A K, Schönheit P
Institut für Pflanzenphysiologie und Mikrobiologie, Fachbereich Biologie, Freie Universität Berlin, Germany.
J Bacteriol. 1995 Apr;177(8):2002-7. doi: 10.1128/jb.177.8.2002-2007.1995.
A mutant of Methanosarcina barkeri (Fusaro) is able to grow on pyruvate as the sole carbon and energy source. During growth, pyruvate is converted to CH4 and CO2, and about 1.5 mol of ATP per mol of CH4 is formed (A.-K. Bock, A. Prieger-Kraft, and P. Schönheit, Arch. Microbiol. 161:33-46, 1994). The pyruvate-utilizing mutant of M. barkeri could also grow on pyruvate when methanogenesis was completely inhibited by bromoethanesulfonate (BES). The mutant grew on pyruvate (80 mM) in the presence of 2 mM BES with a doubling time of about 30 h up to cell densities of about 400 mg (dry weight) of cells per liter. During growth on pyruvate, the major fermentation products were acetate and CO2 (about 0.9 mol each per mol of pyruvate). Small amounts of acetoin, acetolactate, alanine, leucine, isoleucine, and valine were also detected. CH4 was not formed. The molar growth yield (Yacetate) was about 9 g of cells (dry weight) per mol of acetate, indicating an ATP yield of about 1 mol/mol of acetate formed. Growth on pyruvate in the presence of BES was limited; after six to eight generations, the doubling times increased and the final cell densities decreased. After 9 to 11 generations, growth stopped completely. In the presence of BES, suspensions of pyruvate-grown cells fermented pyruvate to acetate, CO2, and H2. CH4 was not formed. Conversion of pyruvate to acetate, in the complete absence of methanogenesis, was coupled to ATP synthesis. Dicyclohexylcarbodiimide, an inhibitor of H(+)-translocating ATP synthase, did not inhibit ATP formation. In the presence of dicyclohexylcarbodiimide, stoichiometries of up to 0.9 mol of ATP per mol of acetate were observed. The uncoupler arsenate completely inhibited ATP synthesis, while the rates of acetate, CO2, and H2 formation were stimulated up to fourfold. Cell extracts of M. barkeri grown on pyruvate under nonmethenogenic conditions contained pyruvate: ferredoxin oxidoreductase (0.5 U/mg), phosphate acetyltransferase (12 U/mg), and acetate kinase (12 U/mg). From these data it is concluded that ATP was synthesized by substrate level phosphorylation during growth of the M. barkeri mutant on pyruvate in the absence of methanogenesis. This is the first report of growth of a methanogen under nonmethanogenic conditions at the expense of a fermentative energy metabolism.
巴氏甲烷八叠球菌(Fusaro)的一个突变体能够以丙酮酸作为唯一的碳源和能源生长。在生长过程中,丙酮酸被转化为CH₄和CO₂,每摩尔CH₄形成约1.5摩尔ATP(A.-K.博克、A.普里格-克拉夫特和P.舍恩海特,《微生物学档案》161:33 - 46,1994)。当产甲烷作用被溴乙烷磺酸盐(BES)完全抑制时,巴氏甲烷八叠球菌利用丙酮酸的突变体也能在丙酮酸上生长。该突变体在2 mM BES存在下于丙酮酸(80 mM)上生长,倍增时间约为30小时,直至细胞密度达到约每升400毫克(干重)细胞。在丙酮酸上生长期间,主要发酵产物是乙酸盐和CO₂(每摩尔丙酮酸各约0.9摩尔)。还检测到少量的乙偶姻、乙酰乳酸、丙氨酸、亮氨酸、异亮氨酸和缬氨酸。未形成CH₄。摩尔生长产率(Y乙酸盐)约为每摩尔乙酸盐9克细胞(干重),表明每形成1摩尔乙酸盐的ATP产率约为1摩尔。在BES存在下于丙酮酸上的生长受到限制;六至八代后,倍增时间增加且最终细胞密度降低。九至十一代后,生长完全停止。在BES存在下,丙酮酸生长细胞的悬浮液将丙酮酸发酵为乙酸盐、CO₂和H₂。未形成CH₄。在完全没有产甲烷作用的情况下,丙酮酸向乙酸盐的转化与ATP合成相偶联。二环己基碳二亚胺,一种H⁺转运ATP合酶的抑制剂,不抑制ATP的形成。在二环己基碳二亚胺存在下,观察到每摩尔乙酸盐高达0.9摩尔ATP的化学计量关系。解偶联剂砷酸盐完全抑制ATP合成,而乙酸盐、CO₂和H₂的形成速率被刺激高达四倍。在非产甲烷条件下于丙酮酸上生长的巴氏甲烷八叠球菌的细胞提取物含有丙酮酸:铁氧还蛋白氧化还原酶(0.5 U/mg)、磷酸乙酰转移酶(12 U/mg)和乙酸激酶(12 U/mg)。从这些数据可以得出结论,在没有产甲烷作用的情况下,巴氏甲烷八叠球菌突变体在丙酮酸上生长期间通过底物水平磷酸化合成ATP。这是关于产甲烷菌在非产甲烷条件下以发酵能量代谢为代价生长的首次报道。
