Like STM1344 , STM1697 suppresses the transcription of class 3 flagella regulon genes by binding to a component of the master regulator of the flagella regulon FlhD4C2 .
Like STM1344 , STM1697 suppresses the transcription of class 3 flagella regulon genes by binding to a component of the master regulator of the flagella regulon FlhD4C2 .
Like STM1344 , STM1697 suppresses the transcription of class 2 flagella regulon genes by binding to a component of the master regulator of the flagella regulon FlhD4C2 .
Like STM1344 , STM1697 suppresses the transcription of class 2 flagella regulon genes by binding to a component of the master regulator of the flagella regulon FlhD4C2 .
In this work , we characterize a molecular mechanism for how STM1697 affects invasion through interaction with the master regulator of the flagella regulon FlhD4C2 .
Schematic diagram _ illustrating the interplay between STM1697 in the regulation of FlhD4C2 functionality
STM1697 suppress the functionality of the master regulator of the flagella regulatory cascade , FlhD4C2 .
The right figure presents the model of the STM16972FlhD4C2 hetero-hexamer The binding of STM1697 to FlhD4C2 restrains RNA poly - merase recruitment Previous studies showed that class II flagellar genes are only transcribed by 70-containing RNA polymerase in the presence of the FlhD4C2 complex .
The binding of STM1697 to FlhD4C2 restrains RNAP recruitment .