Schopf (1994) suggests that this slow mode of evolution is in acc

Schopf (1994) suggests that this slow mode of evolution is in accordance with what Simpson defined in his study ‘Tempo and Mode in Evolution’ (1944). Hypobradytely would apply to species with a large population size, ecologic versatility and a large degree of adaptation to an ecological position and continuously available environment. Cyanobacteria fit this definition, being a remarkable lineage

considering their longevity, ease of dispersal (resulting in a wide cosmopolitan distribution), as seen in low-temperature ecotypes (Jungblut et al., 2010), and their ability to survive wide abiotic ranges, including intense desiccation and radiation. Also, analysis of cyanobacterial populations from hot springs and geothermal environments following a molecular ecology approach has shown that geographic isolation can play an important role in shaping phylogenies and distribution patterns in find protocol certain environments Forskolin mw (Papke et al., 2003). The need to generate additional information aimed at unraveling the evolutionary relationships within Cyanobacteria is evident. To date, approximately 50 sequenced cyanobacterial genomes (complete or in

progress) are available. However, 41 represent members of the unicellular subsection/group I, with the vast majority being representatives of only two genera: Prochlorococcus and Synechococcus. Only eight genomes of the genus-rich group IV heterocystous cyanobacteria have been sequenced despite their obvious evolutionary and ecological importance, and deeper phylogenetic inferences are needed to clear relationships within this group. This work was funded by a cooperation program between Sweden and Mexico (STINT: The Swedish Foundation for International Cooperation in Research and Higher Education) awarded to B.B., B.D. and L.I.F.: SEP-CONACyT No. 56045 (LIF), PAPIIT No. IN225709-3

(LIF) and FONSEC Rebamipide SEMARNAT CONACyT No. 0023459 (VS). The authors acknowledge L. Espinosa-Asuar (UNAM, México) and S. Lindvall (SU, Sweden) for technical assistance. “
“The community structure and diversity of endophytic bacteria in reed (Phragmites australis) roots growing in the Beijing Cuihu Wetland, China was investigated using the 16S rRNA library technique. Primers 799f and 1492r were used to amplify the specific bacterial 16S rRNA fragments successfully and construct the clone library. In total, 166 individual sequences were verified by colony PCR and used to assess the diversity of endophytic bacteria in reed roots. Phylogenetic analysis revealed that 78.9% of the clones were affiliated with Proteobacteria and included all five classes. Other clones belonged to Firmicutes (9.0%), Cytophaga/Flexibacter/Bacteroids (6.6%), Fusobacteria (2.4%), and nearly 3.0% were unidentified bacteria.

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