Flagella-mediated motility is an important capability of many bacteria to survive in nutrient-depleted and harsh environments. Decreasing the intracellular cyclic di-GMP (c-di-GMP) level by overexpression of phosphodiesterase BifA promotes flagellar-mediated motility and induces planktonic lifestyle in Pseudomonas. The mechanism that regulates expression of bifA gene was poorly studied. Here we showed that expression of BifA was partly controlled by flagellar sigma factor FliA (σ28 ) in Pseudomonas putidaKT2440. FliA deletion led to an approximately twofold decrease in transcription of bifA. 5' race assay revealed two transcription start points in bifA promoter region, with the putative σ70 and σ28 promoter sequences upstream, respectively. Point mutation in σ28 promoter region reduced transcriptional activity of the promoter in wild-type KT2440, but showed no influence on that in fliA deletion mutant. FliA overexpression decreased the intracellular c-di-GMP level in a BifA-dependent way, suggesting that FliA was able to modulate the intracellular c-di-GMP level and BifA function was required for the modulation. Besides, FliA overexpression enhanced swimming ability of wild-type strain, while made no difference to the bifA mutant. Our results suggest that FliA acts as a negative regulator to modulate the c-di-GMP level via controlling transcription of bifA to facilitate swimming motility.
Keywords: BifA; C-di-GMP; FliA; feedback regulation; swimming motility.
© 2016 The Authors. MicrobiologyOpen published by John Wiley & Sons Ltd.