PCA aims to quantify the variability within a sample set resultin

PCA aims to quantify the variability within a sample set resulting from particular components within the samples. The components of samples, in this case bands within each DGGE profile, are ranked and similarities identified. The resulting scatter plot shows these relationships graphically, where groupings along the two-component axes represent similarity. Separation along axis 1 is indicative of higher variability than that along axis 2. Diesel-degrading site isolates were

subcultured Talazoparib mw on M9 and diesel agar as above, transferred to M9 broth containing 1 g L−1 diesel and grown at room temperature for 48 h. Although the hydrocarbons are not entirely water soluble at this concentration, it was chosen to reflect that found at the RAD001 nmr study site. These cultures were then used to inoculate triplicate M9 broths containing one of 11 carbon sources (nine n-alkanes, C13–C21; naphthalene; and diesel) at 1 g L−1 and for 1 week at room temperature, agitated at 100 r.p.m. The increase in biomass was quantified by measuring OD600 nm at the start and the end of the week. A reading of OD600 nm is frequently used in studies characterizing the physiology of hydrocarbon utilization (Peng et al., 2007;

Zeinali et al., 2007; Bouchez-Naitali & Vandecasteele, 2008; Binazadeh et al., 2009; Isaza & Daugulis, 2009). OD600 nm readings of negative controls containing only hydrocarbons were subtracted from the final reading to allow for any OD600 nm difference caused by factors other than microbial growth. The two main aims of the study were to ascertain to what extent site organisms were able to utilize diesel fuel constituents and to investigate whether there

was any carbon source preference or specificity among the organisms. In order to address the latter aim, the diesel-degrading consortium used in the remediation system at the study site was cultured on the diesel constituents C-X-C chemokine receptor type 7 (CXCR-7) separately in order to identify the communities responsible for the utilization of each compound. The subsequent DGGE profiles and their corresponding PCA scatter plot clearly showed community variation according to the carbon source. This was seen in the scatter plot through the separation along the axes (Fig. 2). Specifically, three distinct groups emerged during PCA analyses of DGGE profiles. The community profiles indicated that despite the uniform diversity present within the starting consortium inocula, consistent enrichment occurred for subpopulations that were dependent upon carbon source type. The DGGE community profile of the site-derived multispecies consortium (data not shown here) used as the inoculum showed a very diverse community with little hierarchy. Overall, three distinct sets could be identified, which all derived from the diesel-degrading consortium obtained from the study site: naphthalene utilizers, mid-chain alkane (C13–C18) utilizers, and long-chain alkane (C19–C21) utilizers.

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