However , despite the fact that the deletion of stpA did not affect s38 protein levels at LEP , our data showed that rpoS mRNA levels were significantly lower in the absence of StpA -LRB- in strain JH3003 -RRB- at LEP compared with Table S1 , Fig. 7C .
However , despite the fact that the deletion of stpA did not affect s38 protein levels at LEP , our data showed that rpoS mRNA levels were significantly lower in the absence of StpA -LRB- in strain JH3003 -RRB- at LEP compared with wild type .
sRNAs RprA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes turnover of σS indirectly through the repression of rss at various stages throughout the exponential phase of growth .
sRNAs RprA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes turnover of σS indirectly through the repression of the antiadapter protein encoding gene ira at various stages throughout the exponential phase of growth .
sRNAs RprA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes proteolysis of σS indirectly through the repression of rss at various stages throughout the exponential phase of growth .
sRNAs RprA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes proteolysis of σS indirectly through the repression of the antiadapter protein encoding gene ira at various stages throughout the exponential phase of growth .
sRNAs DsrA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes turnover of σS indirectly through the repression of rss at various stages throughout the exponential phase of growth .
sRNAs DsrA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes turnover of σS indirectly through the repression of the antiadapter protein encoding gene ira at various stages throughout the exponential phase of growth .
sRNAs DsrA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes proteolysis of σS indirectly through the repression of rss at various stages throughout the exponential phase of growth .
sRNAs DsrA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes proteolysis of σS indirectly through the repression of the antiadapter protein encoding gene ira at various stages throughout the exponential phase of growth .
The small RNAs RprA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes turnover of σS indirectly through the repression of rss at various stages throughout the exponential phase of growth .
The small RNAs RprA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes turnover of σS indirectly through the repression of the antiadapter protein encoding gene ira at various stages throughout the exponential phase of growth .
The small RNAs RprA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes proteolysis of σS indirectly through the repression of rss at various stages throughout the exponential phase of growth .
The small RNAs RprA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes proteolysis of σS indirectly through the repression of the antiadapter protein encoding gene ira at various stages throughout the exponential phase of growth .
The small RNAs DsrA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes turnover of σS indirectly through the repression of rss at various stages throughout the exponential phase of growth .
The small RNAs DsrA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes turnover of σS indirectly through the repression of the antiadapter protein encoding gene ira at various stages throughout the exponential phase of growth .
The small RNAs DsrA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes proteolysis of σS indirectly through the repression of rss at various stages throughout the exponential phase of growth .
The small RNAs DsrA have a greater role in the control of E. coli rpoS expression compared to Salmonella , whereas the H-NS paralog StpA promotes proteolysis of σS indirectly through the repression of the antiadapter protein encoding gene ira at various stages throughout the exponential phase of growth .
StpA in S. Typhimurium was recently proposed to repress the rpoS regulon during exponential-growth