The genus Thermotoga: recent developments

被引：46

作者：

Frock, Andrew D. ^{[1
]}

Notey, Jaspreet S. ^{[1
]}

Kelly, Robert M. ^{[1
]}

机构：

[1] N Carolina State Univ, Dept Chem & Biomol Engn, Raleigh, NC 27695 USA

来源：

ENVIRONMENTAL TECHNOLOGY | 2010年 / 31卷 / 10期

基金：

美国国家科学基金会;

关键词：

Thermotoga; extreme thermophiles; genomics; microbial physiology; ARCHAEON PYROCOCCUS-FURIOSUS; HYPERTHERMOPHILIC-BACTERIUM; SP-NOV; THERMOPHILIC BACTERIUM; HYDROGEN-PRODUCTION; CYCLIC DIGUANYLATE; BIOFILM FORMATION; XYLANASE-B; GLUCOSE FERMENTATION; ESCHERICHIA-COLI;

D O I：

10.1080/09593330.2010.484076

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

The genus Thermotoga comprises extremely thermophilic (Topt epsilon 70 degrees C) and hyperthermophilic (Topt epsilon 80 degrees C) bacteria, which have been extensively studied for insights into the basis for life at elevated temperatures and for biotechnological opportunities (e.g. biohydrogen production, biocatalysis). Over the past decade, genome sequences have become available for a number of Thermotoga species, leading to functional genomics efforts to understand growth physiology as well as genomics-based identification and characterization of novel high-temperature biocatalysts. Discussed here are recent developments along these lines for this group of microorganisms.

引用

页码：1169 / 1181

页数：13

共 99 条

[51] Colocation of genes encoding a tRNA-mRNA hybrid and a putative signaling peptide on complementary strands in the genome of the hyperthermophilic bacterium Thermotoga maritima [J].

Montero, Clemente I. ;

Lewis, Derrick L. ;

Johnson, Matthew R. ;

Conners, Shannon B. ;

Nance, Elizabeth A. ;

Nichols, Jason D. ;

Kelly, Robert M. .

JOURNAL OF BACTERIOLOGY, 2006, 188 (19) :6802-6807

[52] The Fermentation Stoichiometry of Thermotoga neapolitana and Influence of Temperature, Oxygen, and pH on Hydrogen Production [J].

Munro, Sarah A. ;

Zinder, Stephen H. ;

Walker, Larry P. .

BIOTECHNOLOGY PROGRESS, 2009, 25 (04) :1035-1042

[53]

Muralidharan V, 1997, BIOTECHNOL BIOENG, V56, P268, DOI 10.1002/(SICI)1097-0290(19971105)56:3<268::AID-BIT4>3.0.CO

[54]

2-H

[55] Evidence for lateral gene transfer between Archaea and Bacteria from genome sequence of Thermotoga maritima [J].

Nelson, KE ;

Clayton, RA ;

Gill, SR ;

Gwinn, ML ;

Dodson, RJ ;

Haft, DH ;

Hickey, EK ;

Peterson, LD ;

Nelson, WC ;

Ketchum, KA ;

McDonald, L ;

Utterback, TR ;

Malek, JA ;

Linher, KD ;

Garrett, MM ;

Stewart, AM ;

Cotton, MD ;

Pratt, MS ;

Phillips, CA ;

Richardson, D ;

Heidelberg, J ;

Sutton, GG ;

Fleischmann, RD ;

Eisen, JA ;

White, O ;

Salzberg, SL ;

Smith, HO ;

Venter, JC ;

Fraser, CM .

NATURE, 1999, 399 (6734) :323-329

[56] Recombination in thermotoga: Implications for species concepts and biogeography [J].

Nesbo, CL ;

Dlutek, M ;

Doolittle, WF .

GENETICS, 2006, 172 (02) :759-769

[57] Suppressive subtractive hybridization detects extensive genomic diversity in Thermotoga maritima [J].

Nesbo, CL ;

Nelson, KE ;

Doolittle, WF .

JOURNAL OF BACTERIOLOGY, 2002, 184 (16) :4475-4488

[58]

NGUYEN TA, 2009, BIORESOUR TECHNOL S1, V101, P38

[59] CspB and CspL, thermostable cold-shock proteins from Thermotoga maritima [J].

Phadtare, S ;

Hwang, JW ;

Severinov, K ;

Inouye, M .

GENES TO CELLS, 2003, 8 (10) :801-810

[60] Transcriptional analysis of biofilm formation processes in the anaerobic, hyperthermophilic bacterium Thermotoga maritima [J].

Pysz, MA ;

Conners, SB ;

Montero, CI ;

Shockley, KR ;

Johnson, MR ;

Ward, DE ;

Kelly, RA .

APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 2004, 70 (10) :6098-6112

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