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Correlation of genomic and physiological traits to biofuel yields in Thermoanaerobacter species
Christopher H; Matthew F; Hu Q; Deng Y; Lin L; Tu Q; Housna M; Zhou A; Feng X; Zuo Z; Ramsay B; He Z; Wu L; Joy Van Nostrand; Xu J; Tang Y; Juergen W, Tommy P; Zhou J
2011
Source PublicationApplied and Environmental Microbiology
Issue11
Abstract

Thermophilic anaerobic noncellulolytic Thermoanaerobacter species are of great biotechnological importance in cellulosic ethanol production due to their ability to produce high ethanol yields by simultaneous fermentation of hexose and pentose. Understanding the genome structure of these species is critical to improving and implementing these bacteria for possible biotechnological use in consolidated bioprocessing schemes (CBP) for cellulosic ethanol production. Here we describe a comparative genome analysis of two ethanologenic bacteria, Thermoanaerobacter sp. X514 and Thermoanaerobacter pseudethanolicus 39E. Compared to 39E, X514 has several unique key characteristics important to cellulosic biotechnology, including additional alcohol dehydrogenases and xylose transporters, modifications to pentose metabolism, and a complete vitamin B12 biosynthesis pathway. Experimental results from growth, metabolic flux, and microarray gene expression analyses support genome sequencing-based predictions which help to explain the distinct differences in ethanol production between these strains. The availability of whole-genome sequence and comparative genomic analyses will aid in engineering and optimizing Thermoanaerobacter strains for viable CBP strategies.

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Thermophilic anaerobic noncellulolytic Thermoanaerobacter species are of great biotechnological importance in cellulosic ethanol production due to their ability to produce high ethanol yields by simultaneous fermentation of hexose and pentose. Understanding the genome structure of these species is critical to improving and implementing these bacteria for possible biotechnological use in consolidated bioprocessing schemes (CBP) for cellulosic ethanol production. Here we describe a comparative genome analysis of two ethanologenic bacteria, Thermoanaerobacter sp. X514 and Thermoanaerobacter pseudethanolicus 39E. Compared to 39E, X514 has several unique key characteristics important to cellulosic biotechnology, including additional alcohol dehydrogenases and xylose transporters, modifications to pentose metabolism, and a complete vitamin B12 biosynthesis pathway. Experimental results from growth, metabolic flux, and microarray gene expression analyses support genome sequencing-based predictions which help to explain the distinct differences in ethanol production between these strains. The availability of whole-genome sequence and comparative genomic analyses will aid in engineering and optimizing Thermoanaerobacter strains for viable CBP strategies.

KeywordCorrelation Of Genomic And Physiological Traits To biOfuel Yields In Thermoanaerobacter Species
Subject Area功能基因组
Document Type期刊论文
Identifierhttp://ir.qibebt.ac.cn/handle/337004/960
Collection单细胞中心组群
Recommended Citation
GB/T 7714
Christopher H,Matthew F,Hu Q,et al. Correlation of genomic and physiological traits to biofuel yields in Thermoanaerobacter species[J]. Applied and Environmental Microbiology,2011(11).
APA Christopher H.,Matthew F.,Hu Q.,Deng Y.,Lin L.,...&Zhou J.(2011).Correlation of genomic and physiological traits to biofuel yields in Thermoanaerobacter species.Applied and Environmental Microbiology(11).
MLA Christopher H,et al."Correlation of genomic and physiological traits to biofuel yields in Thermoanaerobacter species".Applied and Environmental Microbiology .11(2011).
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