Although some bacterial OTUs were detected on seeds, cotyledons a

Although some bacterial OTUs were detected on seeds, cotyledons and plants, the breadth of new sequences indicates the importance of multiple sources outside the seed in shaping phyllosphere see more community. Most classified sequences were from previously undescribed taxa, highlighting the benefits of pyrosequencing in describing seed diversity and phyllosphere bacterial communities.

Bacterial community richness increased from 250 different OTUs for spinach seeds and cotyledons, to 800 OTUs for seedlings. To our knowledge this is the first comprehensive characterization of the spinach microbiome, complementing previous culture-based and clone library studies. “
“Horizontal gene transfer by conjugation is common among bacterial populations in soil. It is well known that the host range of plasmids depends on several factors, including the identity of the plasmid host cell. In the present study,

however, we demonstrate that the composition of the recipient community is also determining for click here the dissemination of a conjugative plasmid. We isolated 15 different bacterial strains from soil and assessed the conjugation frequencies of the IncP1 plasmid, pKJK10, by flow cytometry, from two different donors, Escherichia coli and Pseudomonas putida, to either 15 different bacterial strains or to the mixed community composed of all the 15 strains. We detected transfer of pKJK10 from P. putida to Stenotrophomonas rhizophila in a diparental mating, but no transfer was observed to

the mixed community. In contrast, for E. coli, transfer was observed only to the mixed community, where Ochrobactrum rhizosphaerae was identified as the dominating plasmid recipient. Our results indicate that the presence of a bacterial community impacts the plasmid permissiveness by affecting the ability of strains to receive the conjugative plasmid. Horizontal gene transfer (HTG) is a driving force in bacterial evolution as it allows bacteria to rapidly acquire complex new traits. Plasmids are one of the key vectors of HTG, enabling genetic exchange between bacterial cells Venetoclax clinical trial across species and domain barriers (Poole, 2009; Boto, 2010), and they very often encode genes that confer adaptive traits to their host, such as antibiotic resistance, biodegradation pathways and virulence (de la Cruz & Davies, 2000). Transfer of these traits by conjugation requires the donor and the recipient cells to be in direct contact. Different abiotic and biotic factors affect the range of conjugal exchange of genetic material between environmental bacteria, such as nutrient availability, spatial architecture of the bacterial community, plasmid donor and recipient relatedness and plasmid host type (van Elsas & Bailey, 2002; De Gelder et al., 2005; Sørensen et al., 2005; Seoane et al., 2011). The fraction of the cells in a community capable of receiving and maintaining conjugative plasmids is highly dependent on several of these factors and has been described as the plasmid permissiveness (Musovic, 2010).

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