In Colombia, epidemiological data relating to PMQR is limited. A single case reporting PMQR in Colombia described the qnrB19 gene in E. coli isolates recovered from GDC-0199 in vivo blood cultures of a hospital patient in Monteria
(Cattoir et al., 2008). The gene was linked with ISEcp1-like insertion element responsible for its mobilization and was carried by a novel transposon designated Tn2012 identified on pR4525 (Cattoir et al., 2008). No linkage of qnrB19 with transposon or integron structures was observed in our isolates (data not shown). A high prevalence of qnrB determinants was reported recently in commensal microbial communities cultured from healthy children in Peru and Bolivia (Pallecchi click here et al., 2009). In a follow-up study, the involvement of ColE-type plasmids and their role in dissemination in these two countries was described (Palecchi et al., 2010). The most prevalent plasmid, designated pECY6-7, was investigated in detail,
and was found to be identical to the plasmid characterized by Hammerl et al. (2010). Both plasmids are indistinguishable from those characterized in the S. Infantis isolate (denoted as S20). These data extend our understanding of the molecular epidemiology of the qnrB19 determinant. In this study, the marker was identified for the first time in Salmonella spp. in Colombia. The fact that the isolates include different serovars, and that they were recovered in different areas of the country from a variety of food samples and over the years (2002–2009), suggests that the reservoir may not be restricted to a specific ecological niche. Further epidemiological studies are required to determine the full extent of the dissemination of PMQR in Colombia and its implications for public health. The authors acknowledge financial support from the Research Stimulus Fund of the Department of Agriculture, Fisheries and Food of Ireland (RSF) (06/TNI-UCD10) and
COST (ATENS) grant COST-STSM-BM0701-05056. Bacterial isolates E. coli Lo qnrA1+, K. pneumoniae B1 qnrB1+ and E. coli S7 qnrS1+ were a kind gift from Professor Patrice Nordmann, E. coli TOP10+pCR2.1WqepA was kindly Non-specific serine/threonine protein kinase provided by Dr Marc Galimand and E. coli 78-01 aac(6′)-Ib-cr+ by Professor Johann Pitout. “
“Plastocyanin, encoded by the petE gene, can transfer electrons to photosystem I (PSI) and cytochrome c oxidase during photosynthetic and respiratory metabolism in cyanobacteria. We constructed a petE mutant of Synechocystis sp. strain PCC 6803 and investigated its phenotypic properties under different light conditions. When cultured under continuous light, inactivation of petE accelerated the plastoquinone pool reoxidation, slowed the reoxidation rate of the primary quinone-type acceptor, and decreased the connectivity factor between the individual photosystem II (PSII) photosynthetic units.