Functional activity of the modA 2 gene in Methylobacterium dichloromethanicum DM4

Abstract

The putative METDI2644 (modA2) gene of Methylobacterium dichloromethanicum DM4, present in the 126-kbp chromosomal fragment associated with dichloromethane (DCM) degradation was investigated. While this gene is presumed to encode the periplasmic substrate-binding subunit of the molybdate ABC transporter, its conceptual translation also exhibits similarity to the proteins containing the ostA conservative domain and responsible for resistance of gram-negative bacteria to organic solvents. Reverse transcription polymerase chain reaction (RT-PCR) revealed the RNA transcripts of this gene in the cells grown on either DCM or methanol. The mobilizable suicide vector pK18mob was used to obtain a knockout mutant with the METDI2644 gene inactivated by insertion of the gentamycin cassette. The mutant pregrown on methanol exhibited lower growth rate on DCM than the wild-type strain DM4. The difference was not alleviated by addition of sodium molybdate. Our results suggest that the METDI2644 gene product plays a role in cell adaptation to DCM degradation.