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Linking genome content to biofuel production yields: a meta-analysis of major catabolic pathways among select H2 and ethanol-producing bacteria

机译：将基因组含量与生物燃料产量联系起来：荟萃分析选择的H2和产乙醇细菌之间的主要分解代谢途径

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BackgroundFermentative bacteria offer the potential to convert lignocellulosic waste-streams into biofuels such as hydrogen (H2) and ethanol. Current fermentative H2 and ethanol yields, however, are below theoretical maxima, vary greatly among organisms, and depend on the extent of metabolic pathways utilized. For fermentative H2 and/or ethanol production to become practical, biofuel yields must be increased. We performed a comparative meta-analysis of (i) reported end-product yields, and (ii) genes encoding pyruvate metabolism and end-product synthesis pathways to identify suitable biomarkers for screening a microorganism’s potential of H2 and/or ethanol production, and to identify targets for metabolic engineering to improve biofuel yields. Our interest in H2 and/or ethanol optimization restricted our meta-analysis to organisms with sequenced genomes and limited branched end-product pathways. These included members of the Firmicutes, Euryarchaeota, and Thermotogae.

机译：背景技术发酵细菌提供了将木质纤维素废物流转化为生物燃料（例如氢气（H2）和乙醇）的潜力。但是，目前发酵的H2和乙醇产量低于理论最大值，在生物体之间差异很大，并且取决于所利用的代谢途径的程度。为了使发酵的H2和/或乙醇生产成为现实，必须提高生物燃料的产量。我们对（i）报告的最终产物收率和（ii）编码丙酮酸代谢和最终产物合成途径的基因进行了比较荟萃分析，以鉴定合适的生物标记物，以筛选微生物潜在的H2和/或乙醇产生，以及确定代谢工程的目标，以提高生物燃料的产量。我们对H2和/或乙醇优化的兴趣将我们的荟萃分析限制在具有测序的基因组和有限的分支最终产物途径的生物。这些成员包括Firmicutes，Euryarchaeota和Thermotogae的成员。

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期刊名称 BMC Microbiology
作者
Carlo R Carere; Thomas Rydzak; Tobin J Verbeke; Nazim Cicek; David B Levin; Richard Sparling;
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年(卷),期 2012(12),-1
年度 2012
页码 295
总页数 21
原文格式 PDF
正文语种
中图分类微生物学;
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专利

1. Linking genome content to biofuel production yields: a meta-analysis of major catabolic pathways among select H2 and ethanol-producing bacteria [J] . Carlo R Carere, Thomas Rydzak, Tobin J Verbeke, BMC Microbiology . 2012,第1期

机译：将基因组含量与生物燃料产量联系起来：对精选H2和产乙醇细菌中主要分解代谢途径的荟萃分析
2. Calvin Cycle Flux, Pathway Constraints, and Substrate Oxidation State Together Determine the H2 Biofuel Yield in Photoheterotrophic Bacteria [J] . James B. McKinlay, Caroline S. Harwood MBio . 2011,第2期

机译：卡尔文循环通量，途径限制和底物氧化态共同决定了光异养细菌中的H2生物燃料产量
3. Ethanol Production by Thermophilic Bacteria: Relationship Between Fermentation Product Yields of and Catabolic Enzyme Activities in Clostridium thermocellum and Thermoanaerobium brockii [J] . R. Lamed, J. G. Zeikus Journal of bacteriology . 1980,第2期

机译：嗜热细菌生产乙醇：热纤梭菌和嗜热厌氧杆菌的发酵产物产率与分解酶活性之间的关系
4. Comparison of Life Cycle GHG Emissions and Energy Consumption of combined Electricity and H2 production pathways with CCS : Selection of technologies with Natural Gas, Coal and Lignite as fuel for the European HYPOGEN Programme [C] . Frédérique Bouvart, Anne Prieur GHGT-9 . 2009

机译：CCS的生命周期GHG排放和能源消耗的比较和CCS的H2生产途径：用天然气，煤炭和褐煤的选择为欧洲的低位生成燃料
5. Calvin Cycle Flux Pathway Constraints and Substrate Oxidation State Together Determine the H2 Biofuel Yield in Photoheterotrophic Bacteria [O] . James B. McKinlay, Caroline S. Harwood 2011

机译：卡尔文循环通量途径限制和底物氧化态共同决定了光异养细菌中的H2生物燃料产量
6. Linking genome content to biofuel production yields: a meta-analysis of major catabolic pathways among select Hand ethanol-producing bacteria [O] . 2012

机译：将基因组含量与生物燃料产量联系起来：荟萃分析精选的手用乙醇生产细菌中的主要分解代谢途径

Linking genome content to biofuel production yields: a meta-analysis of major catabolic pathways among select H2 and ethanol-producing bacteria

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