Purification of aquaculture water with a purple non-sulfur photosynthetic bacterial strain
LiuFang; WangMin; YangHui; SunJunDe; GaoJunLian
Journal Of Microbiology: 2, 95-96
2008
Accession: 033039776
The purification of aquaculture water was conducted with a purple non-sulfur photosynthetic bacterial strain isolated from a fish pond of the West Lake in Hangzhou, China. The aquaculture water in fish and shrimp ponds was treated with HZ-1 and a commercial photosynthetic bacterium (as a control). The elimination rates of COD (chemical oxygen demand) and NH3NO2- were determined.
PDF emailed within 1 workday: $29.90
Related References
LiuFang; WangMin; YangHui; SunJunDe; GaoJunLian 2008: Screening and identification of purple non-sulfur photosynthetic bacteria purifying aquaculture water China Biotechnology: 8, 91-95Shiung, I-Iun; Chang, M-Jung; Chang, Y-Tang; Yeh, S-Lih; Chang, S-Jung; Ying, C; Chao, W-Liang 2018: Photosynthetic purple sulfur bacterium Marichromatium purpuratum RuA2 induces changes in water quality parameters, the occurrence of sulfonamide resistance gene and microbial community structure of marine aquaculture Aquaculture 493: 68-78
Inui, M.; Momma, K.; Matoba, R.; Ikuta, M.; Yamagata, H.; Yukawa, H. 1995: Characterization of alcohol-assimilating photosynthetic purple non-sulfur bacteria and cloning of molecular chaperones from a purple non-sulfur bacterium Energy Convers. Manage 36(6-9): 767-770
Lerluck Buranakarl; Kazutoshi Ito; Kazuo Izaki; Hajime Takahashi 1988: Purification and characterization of a raw starch-digestive amylase from non-sulfur purple photosynthetic bacterium Enzyme and Microbial Technology 10(3): 173-179
Moon-Sik Hyun; Shin-ichi Okuda; Kazuo Izaki 1989: Purification and characterization of a neutral serine protease from non-sulfur purple photosynthetic bacterium Current Microbiology 18(6): 379-383
Wei, H.; Okunishi, S.; Yoshikawa, T.; Kamei, Y.; Maeda, H. 2016: Isolation and Characterization of a Purple Non-Sulfur Photosynthetic Bacterium Rhodopseudomonas faecalis Strain a from Swine Sewage Wastewater Biocontrol Science 21(1): 29-36
Do, Y.S.; Schmidt, T.M.; Zahn, J.A.; Boyd, E.S.; de la Mora, A.; DiSpirito, A.A. 2003: Role of Rhodobacter sp. strain PS9, a purple non-sulfur photosynthetic bacterium isolated from an anaerobic swine waste lagoon, in odor remediation Applied and Environmental Microbiology 69(3): 1710-1720
Russell, N.J.; Coleman, J.K.; Howard, T.D.; Johnston, E.; Cogdell, R.J. 2002: Rhodopseudomonas acidophila strain 10050 contains photosynthetic LH2 antenna complexes that are not enriched with phosphatidylglycerol, and the phospholipids have a fatty acyl composition that is unusual for purple non-sulfur bacteria Biochimica et Biophysica Acta 1556(2-3): 247-253
Kovács, A.T.; Rákhely, Gábor.; Kovács, Kél.L. 2003: Genes involved in the biosynthesis of photosynthetic pigments in the purple sulfur photosynthetic bacterium Thiocapsa roseopersicina Applied and Environmental Microbiology 69(6): 3093-3102
Sasikala, K.; Ramana, C.V.; Subrahmanyam, M. 1991: Photoproduction of hydrogen from waste water of a lactic acid fermentation plant by a purple non sulfur photosynthetic bacterium rhodobacter sphaeroides o.u.001 Indian Journal of Experimental Biology 29(1): 74-75
Eckert, C.A.; Freed, E.; Wawrousek, K.; Smolinski, S.; Yu, J.; Maness, P.-C. 2019: Inactivation of the uptake hydrogenase in the purple non-sulfur photosynthetic bacterium Rubrivivax gelatinosus CBS enables a biological water-gas shift platform for H2 production Journal of Industrial Microbiology and Biotechnology 46(7): 993-1002
Mekhtieva, V.L.; Kondrat'eva, E.N. 1966: The fractionation of stable sulfur isotopes by purple photosynthetic sulfur bacteria of the genus Rhodopseudomonas Doklady Akademii Nauk SSSR 166(2): 465-468
Khanam, A.; Powar, Z.; Fayyaz, M.; Chaudhary, A. 1974: Occurrence of purple sulfur and green sulfur photosynthetic bacteria in therapeutic mud from bari imam and hasan abdal Proceedings of the Pakistan Science Conference 25(3): C-9-C-10
Kovacs, A.T. 2003: Studies on the signal transduction cascades responsible for the control of the expression of NiFe hydrogenases and photosynthetic apparatus in purple sulfur photosynthetic bacteria Acta Biologica Szegediensis 47(1-4): 73
Tedro, S.M.; Meyer, T.E.; Kamen, M.D. 1976: Primary structure of a high potential iron-sulfur protein from the purple non-sulfur photosynthetic bacterium Rhodopseudomonas gelatinosa Journal of Biological Chemistry 251(1): 129-136
Tedro, S.M.; Meyer, T.E.; Kamen, M.D. 1976: Primary structure of a high potential iron-sulfur protein from the purple non-sulfur photosynthetic bacterium Rhodopseudomonas gelatinosa Journal of Biological Chemistry 251(1): 129-136
Sundström, V.; Pullerits, T.; van Grondelle, R. 1999: Photosynthetic Light-Harvesting: Reconciling Dynamics and Structure of Purple Bacterial LH2 Reveals Function of Photosynthetic Unit The Journal of Physical Chemistry B 103(13): 2327-2346
Sugio, T.; Oda, K.; Matsumoto, K.; Takai, M.; Wakasa, S.; Kamimura, K. 1998: Purification and characterization of sulfur reductase from a moderately thermophilic bacterial strain, TI-1, that oxidizes iron Bioscience Biotechnology and Biochemistry 62(4): 705-709
Lambina, V.A. 1962: Effect of X-rays on photosynthetic purple sulfur bacteria Mikrobiologiya Transl 30(4): 506-510
Davidson, V.L.; Knaff, D.B. 1982: ATP-dependent K+ uptake by a photosynthetic purple sulfur bacterium Archives of Biochemistry and Biophysics 213(2): 358-362