Rhodobacter marinus sp. nov.: A new marine hydrogen producing photosynthetic bacterium which is sensitive to oxygen and sulphide

J. G. Burgess; R. Kawaguchi; A. Yamada; Tadashi Matsunaga

Rhodobacter marinus sp. nov. A new marine hydrogen producing photosynthetic bacterium which is sensitive to oxygen and sulphide

J. G. Burgess^*, R. Kawaguchi, A. Yamada, Tadashi Matsunaga

^*この研究の対応する著者

研究成果: Article › 査読

17 被引用数 (Scopus)

抄録

A new non sulphur photosynthetic bacterium, strain NKPB 0021, was isolated from sea water samples and assigned to the genus Rhodobacter on the basis of morphology and presence of vesicular photosynthetic membranes. Cells are motile rods, 0.6-1.2 μm in diameter and multiply by binary fission. This isolate is unusual since it is oxygen sensitive and cannot grow aerobically. Strain NKPB 0021 grows best anaerobically in the light and requires NaCl for growth (optimum 1.5%). Cells are capable of assimilatory sulphate reduction, and are sensitive to sulphide, with no growth above 0.7 mM sulphide. The mean DNA base composition is 66.7 mol% G+C. On the basis of this study, we propose strain NKPB 0021 to be the type strain of a new species, Rhodobacter marinus.

本文言語	English
ページ（範囲）	965-970
ページ数	6
ジャーナル	Microbiology
巻	140
号	4
出版ステータス	Published - 1994
外部発表	はい

ASJC Scopus subject areas

微生物学

UN SDG

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keywords = "Marine hydrogen photoproduction, Non sulphur photosynethetic bacteria, Rhodobacter marinus sp. nov., Sulphate reduction",

author = "Burgess, {J. G.} and R. Kawaguchi and A. Yamada and Tadashi Matsunaga",

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T2 - A new marine hydrogen producing photosynthetic bacterium which is sensitive to oxygen and sulphide

AU - Burgess, J. G.

AU - Kawaguchi, R.

AU - Yamada, A.

AU - Matsunaga, Tadashi

PY - 1994

Y1 - 1994

N2 - A new non sulphur photosynthetic bacterium, strain NKPB 0021, was isolated from sea water samples and assigned to the genus Rhodobacter on the basis of morphology and presence of vesicular photosynthetic membranes. Cells are motile rods, 0.6-1.2 μm in diameter and multiply by binary fission. This isolate is unusual since it is oxygen sensitive and cannot grow aerobically. Strain NKPB 0021 grows best anaerobically in the light and requires NaCl for growth (optimum 1.5%). Cells are capable of assimilatory sulphate reduction, and are sensitive to sulphide, with no growth above 0.7 mM sulphide. The mean DNA base composition is 66.7 mol% G+C. On the basis of this study, we propose strain NKPB 0021 to be the type strain of a new species, Rhodobacter marinus.

AB - A new non sulphur photosynthetic bacterium, strain NKPB 0021, was isolated from sea water samples and assigned to the genus Rhodobacter on the basis of morphology and presence of vesicular photosynthetic membranes. Cells are motile rods, 0.6-1.2 μm in diameter and multiply by binary fission. This isolate is unusual since it is oxygen sensitive and cannot grow aerobically. Strain NKPB 0021 grows best anaerobically in the light and requires NaCl for growth (optimum 1.5%). Cells are capable of assimilatory sulphate reduction, and are sensitive to sulphide, with no growth above 0.7 mM sulphide. The mean DNA base composition is 66.7 mol% G+C. On the basis of this study, we propose strain NKPB 0021 to be the type strain of a new species, Rhodobacter marinus.

KW - Marine hydrogen photoproduction

KW - Non sulphur photosynethetic bacteria

KW - Rhodobacter marinus sp. nov.

KW - Sulphate reduction

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