Genome-scale flux balance analysis reveals redox trade-offs in the metabolism of the thermoacidophile Methylacidiphilum fumariolicum under auto-, hetero-and methanotrophic conditions

Alexis Saldivar, Patricia Ruiz-Ruiz, Sergio Revah, C. Zuñiga
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Abstract

Members of the genus Methylacidiphilum are thermoacidophile methanotrophs with optimal growth temperatures between 50°C and 60°C, and pH between 1.0 and 3.0. These microorganisms, as well as other extremophile bacteria, offer an attractive platform for environmental and industrial biotechnology because of their robust operating conditions and capacity to grow using low-cost substrates. In this study, we isolated Methylacidiphilum fumariolicum str. Pic from a crater lake located in the state of Chiapas, Mexico. We sequenced the genome and built a genome-scale metabolic model. The manually curated model contains 667 metabolites, 729 reactions, and 473 genes. Predicted flux distributions using flux balance analysis identified changes in redox trade-offs under methanotrophic and autotrophic conditions (H2+CO2). This was also predicted under heterotrophic conditions (acetone, isopropanol, and propane). Model validation was performed by testing the capacity of the strains to grow using four substrates: CH4, acetone, isopropanol, and LP-Gas. The results suggest that the metabolism of M. fumariolicum str. Pic is limited by the regeneration of redox equivalents such as NAD(P)H and reduced cytochromes.
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基因组尺度的通量平衡分析揭示了嗜热菌 Methylacidiphilum fumariolicum 在自养、异养和甲烷养分条件下的新陈代谢中的氧化还原权衡问题
Methylacidiphilum 属的成员是嗜热甲烷菌,其最佳生长温度为 50°C 至 60°C,pH 值为 1.0 至 3.0。这些微生物和其他嗜极细菌一样,因其稳健的操作条件和使用低成本底物生长的能力,为环境和工业生物技术提供了一个极具吸引力的平台。在本研究中,我们从位于美国加利福尼亚州的火山口湖中分离出了 Methylacidiphilum fumariolicum str.Pic。我们对其基因组进行了测序,并建立了一个基因组尺度的代谢模型。经人工编辑的模型包含 667 个代谢物、729 个反应和 473 个基因。利用通量平衡分析预测的通量分布确定了甲烷营养和自养条件(H2+CO2)下氧化还原权衡的变化。在异养条件(丙酮、异丙醇和丙烷)下也能预测到这种变化。通过测试菌株在四种底物条件下的生长能力,对模型进行了验证:CH4、丙酮、异丙醇和液化石油气。结果表明,M. fumariolicum str.Pic 的新陈代谢受到氧化还原当量(如 NAD(P)H 和还原型细胞色素)再生的限制。
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