Poly-gamma-glutamic acid (gamma PGA) production by Bacillus subtilis is regulated by the quorum sensing system where DegQ transmits the cell density signal to a DNA-binding protein DegU. A mutation suppressing the gamma PGA-negative phenotype of degQ gene knock-out mutant (degQ) was identified through whole genome sequencing. The mutation conferred an amino acid substitution of Ser103 to phenylalanine (S103F) in yabJ that belongs to the highly conserved YjgF/YER057c/UK114 family. Genetic experiments including LacZ-fusion assay of gamma PGA synthetic operon confirmed that the suppressor mutation (yabJ(S103F).) was responsible for the recovery of gamma PGA production. The yabJ itself was not essential for the gamma PGA production and the mutant allele enabled gamma PGA production of the Delta degQ strain even in the presence of wild type yabJ. Thus, yabJ(S103F) was a dominant positive allele. degU-lacZ fusion gene was hyper-expressed in cells carrying the yabJ(S103F), but disruption of yabJ did not affect the transcription level of the degU-lacZ. These observations suggested that YabJ acquired a function to stimulate expression of degU by the S103F mutation which is involved in the regulation of gamma PGA synthesis. (C) 2019, The Society for Biotechnology, Japan. All rights reserved.