Abstract

The soil bacterium Agrobacterium fabrum C58 infects plants by a unique DNA transfer mechanism. A. fabrum has two phytochrome photoreceptors, Agp1 and Agp2. We found that DNA transfer into plants by A. fabrum is down regulated by light and that phytochrome knockout mutants have diminished DNA transfer rates. The regulation pattern matches with that of bacterial conjugation reported earlier. Growth, swimming and interbacterial competition were also affected in phytochrome knockout mutants, although these effects were often not affected by light. We can thus distinguish between light-regulated and light-independent phytochrome responses. In microarray studies, transcription of only 4 genes was affected by light, indicating that most light responses are regulated post-transcriptionally. In a mass spectrometery-based proteomic study, 24 proteins were different between light and dark grown bacteria, whereas 382 proteins differed between wild type and phytochrome knockout mutants, pointing again to light-dependent and light-independent roles of Agp1 and Agp2.