Genome sequence of the edible cyanobacterium Arthrospira sp. PCC 8005.

We determined the genome sequence of Arthrospira sp. PCC 8005, a cyanobacterial strain of great interest to the European Space Agency for its nutritive value and oxygenic properties in the Micro-Ecological Life Support System Alternative (MELiSSA) biological life support system for long-term manned missions into space.

Identification of a DNA restriction-modification system in Pectobacterium carotovorum strains isolated from Poland.

AIMS: Polish isolates of pectinolytic bacteria from the species Pectobacterium carotovorum were screened for the presence of a DNA restriction-modification (R-M) system. METHODS AND RESULTS: Eighty-nine strains of P. carotovorum were isolated from infected potato plants. Sixty-six strains belonged to P. carotovorum ssp. atrosepticum and 23 to P. carotovorum ssp. carotovorum. The presence of restriction enzyme Pca17AI, which is an isoschizomer of EcoRII endonuclease, was observed in all isolates of P. c. atrosepticum but not in P. c. carotovorum. The biochemical properties, PCR amplification, and sequences of the Pca17AI restriction endonuclease and methyltransferase genes were compared with the prototype EcoRII R-M system genes. Only when DNA isolated from cells of P. c. atrosepticum was used as a template, amplification of a 680 bp homologous to the gene coding EcoRII endonuclease. CONCLUSIONS: Endonuclease Pca17AI, having a relatively low temperature optimum, was identified. PCR amplification revealed that the nucleotide sequence of genes for EcoRII and Pca17AI R-M are different. Dcm methylation was observed in all strains of Pectobacterium and other Erwinia species tested. The sequence of a DNA fragment coding Dcm methylase in P. carotovorum was different from that of Escherichia coli. SIGNIFICANCE AND IMPACT OF THE STUDY: Pca17AI is the first psychrophilic isoschizomer of EcoRII endonuclease. The presence of specific Dcm methylation in chromosomal DNA isolated from P. carotovorum is described for the first time. A 680 bp PCR product, unique for P. c. atrosepticum strains, could serve as a molecular marker for detection of these bacteria in environmental samples.

Mesophilic cyanobacteria producing thermophilic restriction endonucleases.

When searching for the site-specific endonucleases in several strains of Phormidium we made the following observations. Among the 16 strains that originated from 15 species of Phormidium, 12 produced one or more restriction enzymes, of which two produced the highly thermophilic restriction endonucleases PtaI and PpaAII with their optimum activity at 65-80 degrees C, which is far above the lethal temperature for the host microorganism (40 degrees C). These two temperature-resistant enzymes are isoschizomers of known BspMII and TaqI endonucleases, respectively. The presence of the thermophilic TaqI isoschizomer does not seem to play any role in the mesophilic host microorganism, which does not even contain an active cognate methyltransferase. Among the remaining 10 strains, six produced isoschizomers of endonucleases which we first described in cyanobacteria, namely: PfaAII (NdeI), PinBII and PtaI (BspMII), PlaAII (RsalI), PpaAII, PpeI (ApaI). Two enzymes, PauAII (AhaIII) and PfaAII (NdeI), belong to a group of a very rarely occurring isoschizomers. Out of 21 cyanobacterial endonucleases investigated by us, four were active in a wide range of temperatures (from 15 to 60 degrees C) which also extended the optimal growth temperature of the hosts. We assume that our observation on the presence of temperature-resistant restriction enzymes in mesophilic hosts supports the idea of horizontal gene transfer. Restriction modification systems may be an excellent tool for investigation of that phenomenon.