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. 2010 Dec;192(24):6494-6.
doi: 10.1128/JB.01064-10. Epub 2010 Oct 1.

Sequencing of multiple clostridial genomes related to biomass conversion and biofuel production

Christopher L Hemme  1 Housna MouttakiYong-Jin LeeGengxin ZhangLynne GoodwinSusan LucasAlex CopelandAlla LapidusTijana Glavina del RioHope TiceElizabeth SaundersThomas BrettinJohn C DetterCliff S HanSam PitluckMiriam L LandLoren J HauserNikos KyrpidesNatalia MikhailovaZhili HeLiyou WuJoy D Van NostrandBernard HenrissatQiang HePaul A LawsonRalph S TannerLee R LyndJuergen WiegelMatthew W FieldsAdam P ArkinChristopher W SchadtBradley S StevensonMichael J McInerneyYunfeng YangHailiang DongDefeng XingNanqi RenAijie WangRaymond L HuhnkeJonathan R MielenzShi-You DingMichael E HimmelSafiyh TaghaviDaniël van der LelieEdward M RubinJizhong Zhou
Affiliations

Sequencing of multiple clostridial genomes related to biomass conversion and biofuel production

Christopher L Hemme et al. J Bacteriol. 2010 Dec.

Abstract

Modern methods to develop microbe-based biomass conversion processes require a system-level understanding of the microbes involved. Clostridium species have long been recognized as ideal candidates for processes involving biomass conversion and production of various biofuels and other industrial products. To expand the knowledge base for clostridial species relevant to current biofuel production efforts, we have sequenced the genomes of 20 species spanning multiple genera. The majority of species sequenced fall within the class III cellulosome-encoding Clostridium and the class V saccharolytic Thermoanaerobacteraceae. Species were chosen based on representation in the experimental literature as model organisms, ability to degrade cellulosic biomass either by free enzymes or by cellulosomes, ability to rapidly ferment hexose and pentose sugars to ethanol, and ability to ferment synthesis gas to ethanol. The sequenced strains significantly increase the number of noncommensal/nonpathogenic clostridial species and provide a key foundation for future studies of biomass conversion, cellulosome composition, and clostridial systems biology.

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