;The gene, pixJ1 (formerly pisJ1), is predicted to encode a phytochrome-like photoreceptor that is essential for positive phototaxis in the unicellular cyanobacterium
BLUF (a sensor of Blue-Light Using FAD) is a novel putative photoreceptor domain that is found in many bacteria and some eukaryotic algae. As found on genome analysis, certain cyanobacteria have BLUF proteins with a short C-terminal extension. As typical examples, Tll0078 from thermophilic Thermosynechococcus elongatus BP-1 and Slr1694 from mesophilic Synechocystis sp. PCC 6803 were comparatively studied. FAD of both proteins was hardly reduced by exogenous reductants or mediators except methylviologen but showed a typical spectral shift to a longer wavelength upon excitation with blue light. In particular, freshly prepared Tll0078 protein showed slow but reversible aggregation, indicative of light-induced conformational changes in the protein structure. Tll0078 is far more stable as to heat treatment than Slr1694, as judged from flavin fluorescence. The slr1694-disruptant showed phototactic motility away from the light source (negative phototaxis), while the wild type Synechocystis showed positive phototaxis toward the source. Yeast two-hybrid screening with slr1694 showed self-interaction of Slr1694 (PixD) with itself and interaction with a novel PatA-like response regulator, Slr1693 (PixE). These results were discussed in relation to the signaling mechanism of the "short" BLUF proteins in the regulation of cyanobacterial phototaxis.
;The unicellular motile cyanobacterium Synechocystis sp. PCC 6803 exhibits phototactic motility that depends on the type IV-like thick pilus structure. By gene disruption analysis, we showed that a gene cluster of slr1041, slr1042, slr1043 and slr1044, whose predicted products are homologous to PatA, CheY, CheW and MCP, respectively, was more or less required for pilus assembly, motility and natural transformation competency with extraneous DNA. By sequence homology, the missing cheA-like gene in this cluster was identified as novel split genes, slr0073 and slr0322, at separate loci on the genome. This was confirmed by nonmotile phenotype of their disruptants. Unique hyperpiliation was observed in the slr1042 and slr0073 disruptants, suggestive of their specific interaction with pilT1. The genes, thus identified as pil genes in this study, were designated pilG (slr1041), pilH (slr1042), pilI (slr1043), pilJ (slr1044), pilL-N (slr0073) and pilL-C (slr0322).
On the basis of the genome sequence, the unicellular motile cyanobacterium Synechocystis sp. PCC 6803 harbors seven putative genes for eukaryotic-type protein kinase belonging to Pkn2 subfamily ( spkA approximately spkG). Previously, SpkA was shown to have protein kinase activity and to be required for cell motility. Here, the role of the spkB was examined. The spkB gene was expressed in Escherichia coli as a fusion protein with His-tag, and the protein was purified by Ni(2+) affinity chromatography. The eukaryotic-type protein kinase activity of the expressed SpkB was demonstrated as autophosphorylation to itself and phosphorylation of the general substrate proteins. SpkB showed autophosphorylation activity in the presence of both Mg(2+) and Mn(2+), but not in Ca(2+). Phenotype analysis of spkB disruptant of Synechocystis revealed that spkB is required for cell motility, but not for phototaxis. These results suggest that SpkB is the eukaryotic-type protein kinase, which regulates cellular motility via protein phosphorylation like SpkA.
The complete genome of the unicellular motile cyanobacterium Synechocystis sp. PCC 6803 harbors seven putative genes for a subfamily Pkn2 of the eukaryotic-type (or "Hanks-type") protein kinase. Previously, SpkA and SpkB were shown to have protein kinase activity and to be required for cell motility. Here, the other five genes were examined. These genes, except for spkG (slr0152), were successfully expressed in Escherichia coli. Eukaryotic-type protein kinase activity of the expressed SpkC (Slr0599), SpkD (S110776) and SpkF (Slr1225) was demonstrated as autophosphorylation and phosphorylation of the general substrate proteins. SpkE (Slr1443) did not show any activity, a finding consistent with its lack of several key amino acid residues in its kinase motif. Gene-disrupted mutants showed no discernible defect in phenotype except that spkD was apparently essential for survival.
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