Therefore, it might not be surprising that the number of known ol

Therefore, it might not be surprising that the number of known oligoploid and polyploid prokaryotic species outnumbers the monoploid species and it seems that monoploidy is not typical for prokaryotes, in contrast to the general belief. Polyploid, oligoploid, and monoploid species can co-exist within one group of prokaryotes, an example is the gamma-proteobacteria (Pecoraro et al., 2011), whereas other groups like the euryarchaeota seem to be devoid of monoploid species (Hildenbrand et al., 2011). Therefore, we found it interesting to clarify the situation for another group of prokaryotes, the cyanobacteria. It has been described more than 30 years ago that Anabaena

cylindrica and Anabaena variabilis are polyploid and contain MK-2206 clinical trial 25 and 8–9 genome copies, respectively (Simon, 1977, 1980). In contrast, other species like Synechococcus WH8101 were shown to be monoploid PF-01367338 concentration (Armbrust et al., 1989). Three species of cyanobacteria, representing a salt water species, a fresh water species, and a widely used laboratory species, were selected, and their genome copy numbers were quantified. A fast, sensitive, and precise real time PCR method was used that had originally been established for genome copy number quantification of haloarchaea (Breuert et al., 2006), but has recently been applied successfuly to proteobacteria (Pecoraro et al., 2011). In addition, a literature survey was performed and an overview of all

cyanobacterial species Ketotifen with experimentally determined ploidy levels is given. Two Synechocystis PCC 6803 wild-type strains were obtained from Annegret Wilde (University of Giessen, Germany). Synechocystis PCC6803 was isolated in 1968 by R. Kunisawa from a freshwater lake in California (Stanier et al., 1971) and deposited at the Pasteur Culture Collection (PCC6803) and the American Type Culture Collection (ATCC 27184). Several variants arose and are currently under investigation. One strain will be called ‘motile strain’ (originally obtained from the lab of Sergey Shestakov,

Moscow State University, in the cyanobacteria community known as ‘Moscow strain’), the other will be called ‘GT strain’ (glusose tolerant; originally obtained from the lab of Martin Tichy, Trebon; in the cyanobacteria community known as ‘Vermaas strain’). The genome sequence was determined from a third strain not used in this study. It was derived from the GT strain, and is known in the cyanobacteria community as the ‘Kazusa strain’ (Okamoto et al., 1999). Synechococcus elongatus PCC 7942 and Synechococcus sp. WH7803 were obtained from Wolfgang R. Hess (University of Freiburg, Germany). Synechocystis and S. elongatus were grown in BG11 medium (Rippka et al., 1979). The marine Synechococcus sp. WH7803 was grown in artificial sea water (ASW; Waterbury & Wiley, 1988). All strains were grown at a temperature of 28 °C on a rotary shaker (120 r.p.m.

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