
S. Al-Azad et al. / Advances in Bioscience and Biotechnology 4 (2013) 919-924
Copyright © 2013 SciRes.
924
OPEN ACCESS
monodon larvae. Journal of the World Aquaculture So-
ciety, 33, 991-994.
http://dx.doi.org/10.1111/j.1749-7345.2002.tb00490.x
[7] Tsygankov, A.A., Fedorov, A.S., Talipova, L.V.,
Laurinavichene, T.V., Miyake, J. and Gogotov, I.N. (1998)
Use of immobilized phototrophic microorganisms for
wastewater treatment and simultaneous production of
hydrogen. Applied Biochemistry and Microbiology, 34,
362-366.
[8] Hirotani, H., Ohigashi, H., Kobayashi, M., Koshinizu, K.
and Takashi, E. (1991) Inactivation of T5 phage by cis-
vaccenic acid and antivirus substances from Rhodopseu-
domonas capsulate, and by unsaturated fatty acids and
related alcohols. FEMS Microbiology Letters, 77, 13-18.
http://dx.doi.org/10.1111/j.1574-6968.1991.tb04314.x
[9] Brandl, H., Cross, R.A., Lenz, R.W., Lloyd, R. and Fuller,
R.C. (1991) The accumulation of poly (3-hydroxyalka-
noates) in Rhodobacter sphaeroides. Archieves of Micro-
biology, 155, 337-340.
[10] Vatsala, T.M. (1987) Uptake of metal ions by photo-
synthetic bacterium. Current Science, 56, 1225-1226.
[11] Noparatnaraporn, N. and Nagai, S. (1986) Selection of
Rhodobacter sphaeroides P47 as a useful source of single
cell protein. Journal of General and Applied Microbio-
logy, 1, 351-359. http://dx.doi.org/10.2323/jgam.32.351
[12] Tielen, P., Rosenau, F., Wilhelm, S., Jaeger, K.E., Flem-
ming, H.C. and Wingender, J. (2010) Extracellular en-
zymes affect biofilm formation of mucoid Pseudomonas
aeruginosa. Microbiology, 156, 2239-2252.
http://dx.doi.org/10.1099/mic.0.037036-0
[13] Oda, K., Tanskull, S., Oyama, H. and Noparatnaraporn, N.
(2004) Purification and characterization of alkaline serine
proteinase from photosynthetic bacterium, Rubrivivax
gelatinosus KDDS1. Bioscience, Biotechnology and Bio-
chemistry, 68, 650-655.
http://dx.doi.org/10.1271/bbb.68.650
[14] Prakash, B., Veeregowda, B.M. and Krishnappa, G. (2003)
Biofilms: A survival strategy of bacteria. Current Science
85, 1299-1307.
[15] Hanada, S.Y., Kawasw, A., Hiraishi, S., Takaichi, K.,
Matsuura, K., Shimada, and Nagashima, K.V.P. (1997)
Porphyrobacter terpidarius sp. nov., a moderately ther-
mophilic aerobic photosynthetic bacterium isolated from
a hot spring. International Journal of Systematic and
Evolutionary Microbiology, 47, 408-413.
[16] Chrost, R.J. (1991) Environmental control of the syn-
thesis and activity of aquatic microbial ectoenzymes. In:
Chrost, R.J., Ed., Microbial Enzymes in Aquatic Environ-
ments. Springer, Berlin, Heidelberg, New York, 29-59.
[17] Prasertsan, P., Choorit, W. and Suwanno, S. (1993) Opti-
misation for growth of Rhodocyclus gelatinosus in sea-
food processing effluents. World Journal of Microbiology
and Biotechnology, 9, 593-596.
http://dx.doi.org/10.1007/BF00386302
[18] Willerding, A.L., de Oliveira, L.A., Moreira, F.W., Ger-
mano, M.G. and Chagas, A.F. (2011) Lipase activity
among bacteria isolated from amazonian soils. Enzyme
Research, 2011, Article ID: 720194.
http://dx.doi.org/10.4061/2011/720194
[19] Jain, D., Pancha, I., Mishra, S.K., Shrivastav, A. and
Mishra, S. (2011) Purification and characterization of
haloalkaline thermoactive, solvent stable and SDS-in-
duced protease from Bacillus sp.: A potential additive for
laundry detergents. Bioresource Technology, 115, 228-
236. http://dx.doi.org/10.1016/j.biortech.2011.10.081
[20] Sawada, H., Parr, R.C. and Roger, P.L. (1977) Pho-
tosynthetic bacteria in waste water treatment. Journal of
Fermentation Technology, 55, 326-336.
[21] Winkler, U.K. and Stuckman, M. (1978) Glycogen, hy-
aluronate, and some other polysaccharides greatly en-
hance the formation of exolipase by serratia marcescens.
Journal of Bacteriology, 138, 663-670.
[22] Wang, Y. (2011) Use of probiotics Bacillus coagulans,
Rhodopseudomonas palustris and Lactobacillus acido-
philus as growth promoters in grass carp (Ctenopharyn-
godon idella) fingerlings. Aquaculture Nutrition, 17, 372-
78. http://dx.doi.org/10.1111/j.1365-2095.2010.00771.x
[23] Ainon, H., Tan, C.J. and Vikineswary, S. (2006) Bio-
logical characterization of Rhodomicrobium vannielii
isolated from a hot spring at Gadek, Malacca, Malaysia.
Malaysian Journal of Microbiology, 2, 15-21.
[24] Shivanand, P. and Jayaraman, G. (2009) Production of
extracellular protease from halotolerant bacterium, Ba-
cillus aquimaris strain VITP4 isolated from Kumta coast.
Process Biochemistry, 44, 1088-1094.
http://dx.doi.org/10.1016/j.procbio.2009.05.010
[25] Boominadhan, U., Rajakumar, R., Sivakumaar, P.K.V.
and Joe, M.M. (2009) Optimization of protease enzyme
production using Bacillus sp. isolated from different
wastes. Botany Research International, 2, 83-87.
[26] Bairagi, A., Ghosh, K.S., Sen, S.K. and Ray, A.K. (2002)
Enzyme producing bacterial flora isolated from fish di-
gestive tracts. Aquaculture International, 10, 109-121.
http://dx.doi.org/10.1023/A:1021355406412
[27] Lensch, M., Herrmann, R.G., and Sokolenko, A. (2001)
Identification and characterization of SppA, a novel light
inducible chloroplast proteinase complex associated with
thylakoid membranes. Journal of Biology and Chemistry,
276, 33645-33651.
http://dx.doi.org/10.1074/jbc.M100506200
[28] Singh, S. and Das, S. (2011) Screening, production, opti-
mization and characterization of cyanobacterial poly-
saccharide. World Journal of Microbiology and Biotech-
nology, 27, 1971-1980.
http://dx.doi.org/10.1007/s11274-011-0657-y
[29] Eroglu, E., Gunduz, U., Yucel, M. and Eroglu, I. (2010)
Photosynthetic bacterial growth and productivity under
continuous illumination or diurnal cycles with olive mill
wastewater as feedstock. International Journal of Hydro-
gen Energy, 35, 5293-5300.
http://dx.doi.org/10.1016/j.ijhydene.2010.03.063
[30] Liqin, S., Changhai, W. and Lei, S. (2008) Effects of light
regime on extracellular polysaccharide production by
Porphyridium cruentum cultured in flat plate photobio-
reactors. The 2nd International Conference on Bioinfor-
matics and B iom edi ca l Eng in eer in g, ICBBE 2008, Shanghai,
16-18 May 2008, 1488-1491.