Abstract

Bacillus catabolite control protein (CcpA) mediates carbon catabolite repression (CCR) by binding with catabolite response elements (CREs) of genes or operons. Although numerous CREs had been predicted and identified, the influence of the changes in sequence and structure of CREs on recognition and binding for CcpA has yet to be unclear. This study aimed at revealing how CcpA could bind such diverse sites and focused on the analysis of multiple mutants of the CRE motif derived from the α-amylase promoter. Molecular docking and free energy calculation insights into the binding ability between the CRE sequences composition and CcpA protein. Disruption of conserved nucleotides in the CRE motifs, as well as altering the symmetric structure of the CRE sequences and the relative position of the displaced CRE motifs near the transcription start site contribute to some extent to weakening the strength of CcpA - dependent regulation. These main factors contribute to the understanding of the subtle changes in CRE motifs leading to differential regulatory effects of CcpA. Finally, an engineered promoter with a high level of transcription was obtained, and elevated extracellular enzyme activity was achieved in the expression system of Bacillus amyloliquefaciens, including alkaline protease, keratinase, aminopeptidase and acid-stable alpha amylase. The study also provides a reference for the application of other promoters with CRE motifts.

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