Regulation of gvp genes encoding gas vesicle proteins in halophilic Archaea

Abstract

Three gas vesicle gene clusters derived from Halobacterium salinarum (p-vac and c-vac) and Haloferax mediterranei (mc-vac) are used as model systems to study gene regulation in Archaea. An unusual pair of regulatory proteins is involved here, with GvpE acting as transcription activator and GvpD exhibiting a repressing function. Both regulators are able to interact leading to the loss of GvpE and the repression (or turnoff) of the gas vesicle formation. The latter function of GvpD requires a p-loop motif and an arginine-rich region, bR1. Both regulator proteins are differentially expressed from the same gvp transcript in Hfx. mediterranei and Hbt. salinarum PHH4. GvpE appears to recognize a 20-nucleotide activator sequence (UAS) located upstream and adjacent to the TFB-recognition element BRE of the two promoters driving the transcription of the divergently oriented gvpACNO and gvpDEFGHIJKLM gene clusters. The BRE elements of these two promoters are separated by 35 nucleotides only, and the distal portions of the two GvpE-UAS overlap considerably in the center of this region. Mutations here negatively affect the GvpE-induced activities of both gvp promoters, whereas alterations in the proximal UAS portions only affect the activity of the promoter located close by.