期刊
TALANTA
卷 80, 期 5, 页码 1758-1770出版社
ELSEVIER
DOI: 10.1016/j.talanta.2009.10.020
关键词
Marine bacteria; MALDI-TOF MS; HR-MAS NMR; 16S rDNA taxonomy; Physiological adaptation; Brown algae
资金
- GIS EUROPOLE-Mer Project
Recent developments in whole-cell spectroscopic methods allow rapid characterization of microorganisms of interest to human health, but have yet to be widely applied to marine microbiological studies. In this study of bacteria associated with the kelp Laminaria digitata, we have Isolated 18 epiphytic bacterial strains from several thalli, sequenced their 16S rDNA, built corresponding phylogenetic trees, and characterized them using spectroscopic methods Molecular taxonomy revealed Gram(+) Actinobacteria and Gram(-) Alphaproteobacteria,Gammaproteobacteria and Bacteroidetes Twelve marine reference strains (Gram(+) Firmicutes, and Gram(-) Alphaproteobacteria,Ganunaproteobactena and Bacteroidetes) were treated accordingly Whole-cell MALDI-TOF MS spectral profiles of 29 of the 30 strains were built into a database against which 16 replicate spectra of each strain were compared and categorized into groups. The proton HR-MAS NMR stack plots allowed visual delineation into taxonomic groups according to their most common peaks, in agreement with identifiable compounds from corresponding D2O solution spectra. With both methods, these groups corresponded to taxa identified by 16S rDNA sequences, MALDI-TOF MS being more discriminative than HR-MAS NMR. Culture age did not influence the spectral signatures in both approaches. Most cells grown under minimal conditions (VNSS medium) afforded HR-MAS NMR profiles markedly different to those grown in enriched conditions (ZoBell medium), indicating different adaptive metabolic responses between the two media. Spectral signatures obtained under strictly controlled conditions can be used as rapid and reliable tools for taxonomic purposes and as markers of physiological status. (C) 2009 Elsevier B.V. All rights reserved.
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