shibae genome and those

of other Roseobacter clade specie

shibae genome and those

of other selleck chemical Roseobacter clade species. Most of these strains contain two putative genes, except for D. shibae DFL12T which exhibits 10 genes [using IMG; [35]]. This observation might explain the high kanamycin tolerance of D. shibae. The MICs for tetracycline and chloramphenicol were in a range of 10 – 50 μg/ml and 10 – 30 μg/ml, respectively. None of the tested species showed resistance to these two antibiotics. In summary, we identified at least three antibiotics for every strain which are suitable as selective makers for use in molecular biology and genetic protocols. In the following experiments we used twice the amount of the MIC for the selection of plasmid-containing strains and for the maintenance of the plasmids within the Roseobacter strains. Several groups reported that the MICs of bacteria grown in liquid cultures can be lower than for the same bacteria grown on agar plates as biofilms [36, 37]. Control CYC202 clinical trial experiments Alvocidib clinical trial demonstrated that only plasmid-containing cells survived twice of the MIC via expression of the plasmid-encoded resistance gene. Also in case of differences between MICs determined

in static liquid culture and in aerated liquid cultures, the use of twice of the MIC ensured selection of plasmid-containing cells. Roseobacter clade bacteria are resistant to common chemical transformation approaches First, chemical transformation methods [38] were tested for the transformation of the various Roseobacter strains. Chemo-competent cells were prepared with CaCl2 and furthermore with RbCl2. Plasmid-DNA transfer experiments Gefitinib were carried out by mixing bacteria with 50 ng plasmid-DNA (pBBR1MCS), followed by a 30 min-incubation on ice and a subsequent 2 min heat shock at 42°C similar to the standard procedure for E. coli [38]. Transformation of Roseobacter strains led to no transformants, either with CaCl2-competent or with RbCl2-competent cells. No transformants were observed for any of the 12 tested

strains. Similar observations were made for Rhodobacter strains, which are close relatives of the Roseobacter strains [39]. Only one successful approach was described for R. sphaeroides in 1982 [16]. Initial experiments using the published method did not lead to transformants of Roseobacter clade bacteria. Transformation of Roseobacter clade bacteria via electroporation Since common chemical transformation methods as described by Sambroock et al. [1989] did not lead to successful DNA transfer in Roseobacter clade bacteria (see above), the electroporation method was tested. Electroporation was performed following the protocol of Miller and Belas [2006]. This method was successfully used for other members of the Roseobacter clade as Silicibacter sp. [19, 20] and S. pomeroyi [22]. Salt-free cell suspensions were prepared by washing with 10% (v/v) glycerol in ultra-pure water. We tested the washing procedure with increasing numbers of separate washing steps.

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