Research A Proteomic Analysis Reveals Differential S - Regulation of the Dependent yciGFE Locus by H-NS in Salmonella r , and Françoise Norel § Norel § ¶ ‡ The stationary-phase s controls a regulon required for general stress resistance of the closely related enterobacteria Salmonella and Esch .
Our results indicate that differences between E. coli K-12 , in the architecture of cis-acting regulatory sequences upstream of pyciG , contribute to the differential regulation of the yciGFE -LRB- katN -RRB- genes by H-NS in these two enterobacteria .
Our results indicate that differences between Salmonella , in the architecture of cis-acting regulatory sequences upstream of pyciG , contribute to the differential regulation of the yciGFE -LRB- katN -RRB- genes by H-NS in these two enterobacteria .
The results reveal differential regulation of the yciGFE locus by H-NS in these two closely related bacteria .
H-NS are also able to bind to the promoter region of the E. coli K-12 yciGFE genes .
However , the sequence , the length , , relative to the yciGFE promoter , are different in Salmonella , resulting in differential mechanisms of regulation of these genes by H-NS .
However , the position of H-NS binding regions , relative to the yciGFE promoter , are different in Salmonella , resulting in differential mechanisms of regulation of these genes by H-NS .
However , the position of the McbR/YncC , relative to the yciGFE promoter , are different in Salmonella , resulting in differential mechanisms of regulation of these genes by H-NS .
It is remarkable that in E. coli K-12 , regulation of yciGFE by H-NS are intimately linked , whereas in Salmonella , YncC directly activates transcription
A proteomic analysis reveals differential regulation of the S-dependent yciGFE locus by H-NS in Escherichia coli K-12 .
A proteomic analysis reveals differential regulation of the S-dependent yciGFE locus by H-NS in Salmonella .