Density-dependent enhancement of methane oxidation activity and growth of Methylocystis sp. by a non-methanotrophic bacterium Sphingopyxis sp

Density-dependent enhancement of methane oxidation activity and growth of Methylocystis sp. by a non-methanotrophic bacterium Sphingopyxis sp

Methanotrophs are a biological resource as they degrade the greenhouse gas methane and various organic contaminants. Several non-methanotrophic bacteria have shown potential to stimulate growth of methanotrophs when co-cultured, and however, the ecology is largely unknown. Effects of sp. NM1 on meth...

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Veröffentlicht in:Biotechnology reports (Amsterdam, Netherlands) Netherlands), 2014-12, Vol.4 (C), p.128-133
Hauptverfasser: Jeong, So-Yeon, Cho, Kyung-Suk, Kim, Tae Gwan
Format: Artikel
Sprache:eng
Schlagworte:
bacteria
biotechnology
cell suspension culture
coculture
enzymes
fluorescence in situ hybridization
greenhouse gases
messenger RNA
methane
Methanotrophic activity
methanotrophs
Methylocystis
Microbial interaction
mixing
oxidation
population density
Population growth
quantitative polymerase chain reaction
ribosomal RNA
Sphingomonas
Sphingopyxis
transcription (genetics)
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Zusammenfassung:Methanotrophs are a biological resource as they degrade the greenhouse gas methane and various organic contaminants. Several non-methanotrophic bacteria have shown potential to stimulate growth of methanotrophs when co-cultured, and however, the ecology is largely unknown. Effects of sp. NM1 on methanotrophic activity and growth of sp. M6 were investigated in this study. M6 and NM1 were mixed at mixing ratios of 9:1, 1:1, and 1:9 (v/v), using cell suspensions of 7.5 × 10 cells L . Methane oxidation of M6 was monitored, and M6 population was estimated using fluorescence hybridization (FISH). Real-time PCR was applied to quantify rRNA and expression of transcripts for three enzymes involved in the methane oxidation pathway. NM1 had a positive effect on M6 growth at a 1:9 ratio (  
ISSN:2215-017X
2215-017X
DOI:10.1016/j.btre.2014.09.007