[sigma]^sup K^ of Clostridium acetobutylicum Is the First Known Sporulation-Specific Sigma Factor with Two Developmentally Separated Roles, One Early and One Late in Sporulation

Sporulation in the model endospore-forming organism Bacillus subtilis proceeds via the sequential and stage-specific activation of the sporulation-specific sigma factors, σ^sup H^ (early), σ^sup F^, σ^sup E^, &sgr^sup G^, and σ^sup K^ (late). Here we show that the Clostridium acetobutylicum σ^su...

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Veröffentlicht in:	Journal of bacteriology 2014-01, Vol.196 (2), p.287
Hauptverfasser:	Al-Hinai, Mohab A, Jones, Shawn W, Papoutsakis, Eleftherios T
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Schlagworte:	Animal reproduction Bacteria Bacteriology Proteins Transmission electron microscopy
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description	Sporulation in the model endospore-forming organism Bacillus subtilis proceeds via the sequential and stage-specific activation of the sporulation-specific sigma factors, σ^sup H^ (early), σ^sup F^, σ^sup E^, &sgr^sup G^, and σ^sup K^ (late). Here we show that the Clostridium acetobutylicum σ^sup K^ acts both early, prior to Spo0A expression, and late, past σ^sup G^ activation, thus departing from the B. subtilis model. The C. acetobutylicum sigK deletion (ΔsigK) mutant was unable to sporulate, and solventogenesis, the characteristic stationary-phase phenomenon for this organism, was severely diminished. Transmission electron microscopy demonstrated that the ΔsigK mutant does not develop an asymmetric septum and produces no granulose. Complementation of sigK restored sporulation and solventogenesis to wild-type levels. Spo0A and σ^sup G^ proteins were not detectable by Western analysis, while σ^sup F^ protein levels were significantly reduced in the ΔsigK mutant. spo0A, sigF, sigE,sigG, spoIIE, and adhE1 transcript levels were all downregulated in the ΔsigK mutant, while those of the sigH transcript were unaffected during the exponential and transitional phases of culture. These data show that σ^sup K^ is necessary for sporulation prior to spo0A expression. Plasmid-based expression of spo0A in the ΔsigK mutant from a nonnative promoter restored solventogenesis and the production of Spo0A, σ^sup F^, σ^sup E^, and σ^sup G^, but not sporulation, which was blocked past the σ^sup G^ stage of development, thus demonstrating that σ^sup K^ is also necessary in late sporulation. sigK is expressed very early at low levels in exponential phase but is strongly upregulated during the middle to late stationary phase. This is the first sporulation-specific sigma factor shown to have two developmentally separated roles. [PUBLICATION ABSTRACT]
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Here we show that the Clostridium acetobutylicum σ^sup K^ acts both early, prior to Spo0A expression, and late, past σ^sup G^ activation, thus departing from the B. subtilis model. The C. acetobutylicum sigK deletion (ΔsigK) mutant was unable to sporulate, and solventogenesis, the characteristic stationary-phase phenomenon for this organism, was severely diminished. Transmission electron microscopy demonstrated that the ΔsigK mutant does not develop an asymmetric septum and produces no granulose. Complementation of sigK restored sporulation and solventogenesis to wild-type levels. Spo0A and σ^sup G^ proteins were not detectable by Western analysis, while σ^sup F^ protein levels were significantly reduced in the ΔsigK mutant. spo0A, sigF, sigE,sigG, spoIIE, and adhE1 transcript levels were all downregulated in the ΔsigK mutant, while those of the sigH transcript were unaffected during the exponential and transitional phases of culture. These data show that σ^sup K^ is necessary for sporulation prior to spo0A expression. Plasmid-based expression of spo0A in the ΔsigK mutant from a nonnative promoter restored solventogenesis and the production of Spo0A, σ^sup F^, σ^sup E^, and σ^sup G^, but not sporulation, which was blocked past the σ^sup G^ stage of development, thus demonstrating that σ^sup K^ is also necessary in late sporulation. sigK is expressed very early at low levels in exponential phase but is strongly upregulated during the middle to late stationary phase. This is the first sporulation-specific sigma factor shown to have two developmentally separated roles. 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Here we show that the Clostridium acetobutylicum σ^sup K^ acts both early, prior to Spo0A expression, and late, past σ^sup G^ activation, thus departing from the B. subtilis model. The C. acetobutylicum sigK deletion (ΔsigK) mutant was unable to sporulate, and solventogenesis, the characteristic stationary-phase phenomenon for this organism, was severely diminished. Transmission electron microscopy demonstrated that the ΔsigK mutant does not develop an asymmetric septum and produces no granulose. Complementation of sigK restored sporulation and solventogenesis to wild-type levels. Spo0A and σ^sup G^ proteins were not detectable by Western analysis, while σ^sup F^ protein levels were significantly reduced in the ΔsigK mutant. spo0A, sigF, sigE,sigG, spoIIE, and adhE1 transcript levels were all downregulated in the ΔsigK mutant, while those of the sigH transcript were unaffected during the exponential and transitional phases of culture. These data show that σ^sup K^ is necessary for sporulation prior to spo0A expression. Plasmid-based expression of spo0A in the ΔsigK mutant from a nonnative promoter restored solventogenesis and the production of Spo0A, σ^sup F^, σ^sup E^, and σ^sup G^, but not sporulation, which was blocked past the σ^sup G^ stage of development, thus demonstrating that σ^sup K^ is also necessary in late sporulation. sigK is expressed very early at low levels in exponential phase but is strongly upregulated during the middle to late stationary phase. This is the first sporulation-specific sigma factor shown to have two developmentally separated roles. 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These data show that σ^sup K^ is necessary for sporulation prior to spo0A expression. Plasmid-based expression of spo0A in the ΔsigK mutant from a nonnative promoter restored solventogenesis and the production of Spo0A, σ^sup F^, σ^sup E^, and σ^sup G^, but not sporulation, which was blocked past the σ^sup G^ stage of development, thus demonstrating that σ^sup K^ is also necessary in late sporulation. sigK is expressed very early at low levels in exponential phase but is strongly upregulated during the middle to late stationary phase. This is the first sporulation-specific sigma factor shown to have two developmentally separated roles. [PUBLICATION ABSTRACT]</abstract><cop>Washington</cop><pub>American Society for Microbiology</pub></addata></record>
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subjects	Animal reproduction Bacteria Bacteriology Proteins Transmission electron microscopy
title	[sigma]^sup K^ of Clostridium acetobutylicum Is the First Known Sporulation-Specific Sigma Factor with Two Developmentally Separated Roles, One Early and One Late in Sporulation
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