TY - JOUR
T1 - The unique set of putative membrane-associated anti-σ factors in Clostridium thermocellum suggests a novel extracellular carbohydrate-sensing mechanism involved in gene regulation
AU - Kahel-Raifer, Hamutal
AU - Jindou, Sadanari
AU - Bahari, Liat
AU - Nataf, Yakir
AU - Shoham, Yuval
AU - Bayer, Edward A.
AU - Borovok, Ilya
AU - Lamed, Raphael
PY - 2010/7
Y1 - 2010/7
N2 - Genome analysis of the Gram-positive cellulolytic bacterium Clostridium thermocellum revealed the presence of multiple negative regulators of alternative σ factors. Nine of the deduced proteins share a strong similarity in their N-terminal sequences to the Bacillus subtilis membrane-associated anti-σI factor RsgI and have an unusual domain organization. In six RsgI-like proteins, the C-terminal sequences contain predicted carbohydrate-binding modules. Three of these modules were overexpressed and shown to bind specifically to cellulose and/or pectin. Bioinformatic analysis of >1200 bacterial genomes revealed that the C. thermocellum RsgI-like proteins are unique to this species and are not present in other cellulolytic clostridial species (e.g. Clostridium cellulolyticum and Clostridium papyrosolvens). Eight of the nine genes encoding putative C. thermocellum RsgI-like anti-σ factors form predicted bicistronic operons, in which the first gene encodes a putative alternative σ factor, similar to B. subtilis σI, but lacking in one of its domains. These observations suggest a novel carbohydrate-sensing mechanism in C. thermocellum, whereby the presence of polysaccharide biomass components is detected extracellularly and the signal is transmitted intracellularly, resulting in the disruption of the interaction between RsgI-like proteins and σI-like factors, the latter of which serve to activate appropriate genes encoding proteins involved in cellulose utilization.
AB - Genome analysis of the Gram-positive cellulolytic bacterium Clostridium thermocellum revealed the presence of multiple negative regulators of alternative σ factors. Nine of the deduced proteins share a strong similarity in their N-terminal sequences to the Bacillus subtilis membrane-associated anti-σI factor RsgI and have an unusual domain organization. In six RsgI-like proteins, the C-terminal sequences contain predicted carbohydrate-binding modules. Three of these modules were overexpressed and shown to bind specifically to cellulose and/or pectin. Bioinformatic analysis of >1200 bacterial genomes revealed that the C. thermocellum RsgI-like proteins are unique to this species and are not present in other cellulolytic clostridial species (e.g. Clostridium cellulolyticum and Clostridium papyrosolvens). Eight of the nine genes encoding putative C. thermocellum RsgI-like anti-σ factors form predicted bicistronic operons, in which the first gene encodes a putative alternative σ factor, similar to B. subtilis σI, but lacking in one of its domains. These observations suggest a novel carbohydrate-sensing mechanism in C. thermocellum, whereby the presence of polysaccharide biomass components is detected extracellularly and the signal is transmitted intracellularly, resulting in the disruption of the interaction between RsgI-like proteins and σI-like factors, the latter of which serve to activate appropriate genes encoding proteins involved in cellulose utilization.
KW - Alternative σ factor
KW - Anti-σ factor
KW - Carbohydrate-binding module (CBM)
KW - Glycoside hydrolase (GH)
KW - σ<sup>I</sup>- modulating factor RsgI
UR - http://www.scopus.com/inward/record.url?scp=77953143732&partnerID=8YFLogxK
U2 - 10.1111/j.1574-6968.2010.01997.x
DO - 10.1111/j.1574-6968.2010.01997.x
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AN - SCOPUS:77953143732
SN - 0378-1097
VL - 308
SP - 84
EP - 93
JO - FEMS Microbiology Letters
JF - FEMS Microbiology Letters
IS - 1
ER -