High-throughput identification and screening of novel Methylobacterium species using whole-cell MALDI-TOF/MS analysis

Methylobacterium species are ubiquitous α-proteobacteria that reside in the phyllosphere and are fed by methanol that is emitted from plants. In this study, we applied whole-cell matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis (WC-MS) to evaluate the diversity o...

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Bibliographic Details
Published in:PloS one 2012-07, Vol.7 (7), p.e40784-e40784
Main Authors: Tani, Akio, Sahin, Nurettin, Matsuyama, Yumiko, Enomoto, Takashi, Nishimura, Naoki, Yokota, Akira, Kimbara, Kazuhide
Format: Article
Language:English
Subjects:
Analysis
Bacteria
Bacterial Proteins - metabolism
Bacterial Typing Techniques
Base Sequence
Biodiversity
Biology
Bryophytes
Classification
Cluster Analysis
Cultivation
Culture Media
Dehydrogenases
Enterobacter
Flowers & plants
Funaria hygrometrica
Gene sequencing
Genes
Gnaphalium
High-Throughput Screening Assays - methods
Identification
Ionization
Magnoliophyta
Mass spectrometry
Mass spectroscopy
Media (culture)
Medical screening
Metabolism
Methylobacterium - classification
Methylobacterium - cytology
Methylobacterium - genetics
Methylobacterium - isolation & purification
Methylobacterium extorquens
Phyllosphere
Phylogeny
Physiology
Plant sciences
Plants (botany)
Plants - microbiology
Proteins
Pseudomonas fluorescens
Racomitrium
Ribosomal proteins
Ribosomal Proteins - metabolism
Ribosome Subunits - metabolism
RNA
RNA, Ribosomal, 18S - genetics
rRNA 16S
Scientific imaging
Sequence Analysis, DNA
Similarity
Species
Species diversity
Species Specificity
Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods
Strains (organisms)
Studies
Time Factors
VOCs
Volatile organic compounds
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Summary:Methylobacterium species are ubiquitous α-proteobacteria that reside in the phyllosphere and are fed by methanol that is emitted from plants. In this study, we applied whole-cell matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis (WC-MS) to evaluate the diversity of Methylobacterium species collected from a variety of plants. The WC-MS spectrum was reproducible through two weeks of cultivation on different media. WC-MS spectrum peaks of M. extorquens strain AM1 cells were attributed to ribosomal proteins, but those were not were also found. We developed a simple method for rapid identification based on spectra similarity. Using all available type strains of Methylobacterium species, the method provided a certain threshold similarity value for species-level discrimination, although the genus contains some type strains that could not be easily discriminated solely by 16S rRNA gene sequence similarity. Next, we evaluated the WC-MS data of approximately 200 methylotrophs isolated from various plants with MALDI Biotyper software (Bruker Daltonics). Isolates representing each cluster were further identified by 16S rRNA gene sequencing. In most cases, the identification by WC-MS matched that by sequencing, and isolates with unique spectra represented possible novel species. The strains belonging to M. extorquens, M. adhaesivum, M. marchantiae, M. komagatae, M. brachiatum, M. radiotolerans, and novel lineages close to M. adhaesivum, many of which were isolated from bryophytes, were found to be the most frequent phyllospheric colonizers. The WC-MS technique provides emerging high-throughputness in the identification of known/novel species of bacteria, enabling the selection of novel species in a library and identification without 16S rRNA gene sequencing.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0040784