Bioenergetics of lactate vs. acetate outside TCA enhanced the hydrogen evolution levels in two newly isolated strains of the photosynthetic bacterium Rhodopseudomonas

A. Danial, A. M. Abdel Wahab, Houssam H Arafat, R. Abdel-Basset
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引用次数: 3

Abstract

Abstract Two local hydrogen-evolving strains of purple nonsulfur bacteria have been isolated, characterized, and identified as Rhodopseudomonas sp. TUT (strains Rh1 and Rh2). Lactate followed by succinate and malate supported the highest amounts of H2 production, growth (O.D.660nm, proteins and bacteriochlorphyll contents), nitrogenase activity, and uptake hydrogenase; the least of which was acetate. Alginate-immobilized cells evolved higher hydrogen amounts than free cell counterparts. Rh1 was more productive than Rh2 at all circumstances. Lactate-dependent hydrogen evolution was more than twice that of acetate, due to ATP productivity (2/–1, respectively), which is limiting to the nitrogenase activity. The preference of lactate over other acids indicates the feasibility of using these two strains in hydrogen production from dairy wastewater.
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两株新分离的光合细菌红假单胞菌(Rhodopseudomonas)中,TCA外乳酸与乙酸的生物能量学提高了析氢水平
摘要分离并鉴定了两株本地紫色非硫细菌,鉴定为Rhodopseudomonas sp. TUT(菌株Rh1和Rh2)。乳酸、琥珀酸和苹果酸对H2产量、生长(od值为660nm,蛋白质和细菌叶绿素含量)、氮酶活性和摄取氢化酶的影响最大;其中最少的是醋酸盐。海藻酸固定的细胞进化出比自由细胞更高的氢含量。Rh1在任何情况下都比Rh2生产效率高。由于ATP产量(分别为2/ -1),乳酸依赖的析氢量是醋酸盐的两倍多,这限制了氮酶的活性。乳酸对其他酸的偏好表明这两种菌株在乳品废水制氢中的可行性。
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