Abstract
Xanthomonas oryzae pv. oryzicola (Xoc) causes bacterial leaf streak (BLS) in rice, a serious bacterial disease of rice in Asia and parts of Africa. The virulence mechanisms of Xoc are not entirely clear and control measures for BLS are poorly developed. The solo LuxR proteins are widespread and shown to be involved in virulence in some plant associated bacteria (PAB). Here, we have cloned and characterized a PAB LuxR solo from Xoc, named as XocR. Mutation of xocR almost completely impaired the virulence ability of Xoc on host rice, but did not alter the ability to trigger HR (hypersensitive response, a programmed cell death) on non-host (plant) tobacco, suggesting the diversity of function of xocR in host and non-host plants. We also provide evidence to show that xocR is involved in the regulation of growth-independent cell motility in response to a yet-to-be-identified rice signal, as mutation of xocR impaired cell swimming motility of wild-type Rs105 in the presence but not absence of rice macerate. We further found that xocR regulated the transcription of two characterized virulence-associated genes (recN and trpE) in the presence of rice macerate. The promoter regions of recN and trpE possessed a potential binding motif (an imperfect pip box-like element) of XocR, raising the possibility that XocR might directly bind the promoter regions of these two genes to regulate their transcriptional activity. Our studies add a new member of PAB LuxR solos and also provide new insights into the role of PAB LuxR solo in the virulence of Xanthomonas species.
Highlights
Quorum sensing (QS) is a cell-density dependent cell-cell communication system that relies on small chemical signal molecules to control bacterial behavior and coordinate gene expression in a cell-density dependent manner (Fuqua et al, 1994)
XocR of Xanthomonas oryzae pv. oryzicola (Xoc) Belongs to a Sub-Family of plant associated bacteria (PAB) LuxR Solos To examine whether the genome of Xoc has potential LuxR solos, OryR which is a PAB LuxR solo from Xanthomonas oryzae pv. oryzae (Xoo; which is a very closely species to Xoc), was selected as a subject to perform a BlastP search in the genome of Xoc strain BLS256 (Accession number: NC_017267)
To determine whether XocR is a member of the PAB LuxR solos, the sequence features of XocR and its genomic organization in Xoc were further analyzed
Summary
Quorum sensing (QS) is a cell-density dependent cell-cell communication system that relies on small chemical signal molecules to control bacterial behavior and coordinate gene expression in a cell-density dependent manner (Fuqua et al, 1994). A LuxR-family protein that is part of a QS system has a N-terminal AHL-binding and a C-terminal DNAbinding domains These LuxR-family proteins can bind AHLs, and the stable LuxR-AHL complex binds at specific gene regulatory sequences called as lux box to activate or repress the transcription of target genes (Fuqua et al, 2001). These two proteins are in most cases genetically adjacent to each other in a canonical AHL QS system
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