References
- IEEE Engineering in Medicine and Biology, O. P. Gandhi, 1987; 6, 1
- Smith C. W., Best S. Electromagnetic Man. J.M. Dent & Sons, London 1989
- Rai S. Electromagnetic Environmental Health Hazards. Kala Prakashan, VaranasiIndia 1992
- Rippaka R., Deruelles J., Waterbury J. B., Herdman M., Stanier R. Y. Genetic assignments, strain, histories, and properties of pure cultures of cyanobacterium. J. Gen. Microbiol 1979; 11: 1–1
- Pandey K. D., Kashyap A. K. Factors affecting formation of spores in cyanobacterium Anabaena doliolum (Ads strain). J. Plant Physiol 1987; 127: 123–134
- Lowry O. H., Rosenbrough N. J., Farr A. L., Randall R. J. Protein measurement with Folin phenol reagent. J. Biol. Chem 1951; 193: 265–275
- Herbert D., Phipps P. J., Strange R. E. Chemical analysis of microbial cells. Methods in Microbiology, J. R. Norris, D. W. Ribbons. Academic Press, London 1971; 209–344
- Myers J., Kratz W. A. Relation between pigment content and photosynthetic characterization in a blue green alga. J. Gen. Physiol 1955; 39: 11–32
- Allen M. M. Photosynthetic membrane system in Anacystis nidulans. J. Bacteriol 1968; 96: 836–841
- Brody S. S., Brody M. A quantitative assay for the number of chromatophores on a chromoprotein: its application to phycoerythrin and phycocyanin. Biophys. Acta 1961; 50: 348–352
- Peschek G. A. Aerobic hydrogenase activity in Anacystis nidulans. The oxyhydrogenase reaction. Biochim. Biophys. Acta 1979; 548: 203–215
- Nicholas D. J.D. Chemical Tissue Tests for Determining the Mineral Status of Plants. Tintimeter, SalisburyEngland 1953
- Wootten I. D.P. Microanalysis in Medical Biochemistry, 5th ed. J&A Churchill Urea Ltd. 1974; 79–99
- Ihlenfeldt M. A.J., Gibson J. Phosphatase utilization and alkaline phosphatase activity in Anacystis nindulans (Synechococcus). Arch. Microbiol 1975; 102: 23–28
- Shampiro M., Stadman E. R. Glutamine synthetase (E. coli). Methods in Microbiology XVIIA, H. Tabor, C. W. Tabor. Academic Press, New York 1970; 910–922
- Hofmeister F. Zeur Lehre Vonder wirkungder slaze Ueber Regelmassigkeiten in der eiwei stallenden wirkung der slaze und ihre Beziehung zum physiologischen verhalten derhalten derselben. Arch. Exp. Pathol. Pharmakal. Sci 1988; 24: 247–260
- Healey F. P., Stewart W. D.P. Inorganic nitrate uptake and deficiency in algae. CRC Crit. Rev. Microbiol 1973; 3: 69–113
- Rai S. Effect mechanisms of NER fields. Electro- Magnetobiol 1997; 16: 59–67
- Singh S. P., Rai S., Tiwari S. P., Singh S. S., Abraham J., Rai A. K., Samarketu. Athermal physiological effects of microwaves on a cyanobacterium Nostoc muscorum: an evidence for EM-memory bits in water. Med. Biol. Eng. Comput 1994; 32: 175–180
- Rai S., Singh U. P., Mishra G. D., Singh S. P., Samarketu. Additional evidence of stable EMF-induced changes in water revealed by fungal spore germination. Electro-Magnetobiol 1994; 13: 253–259
- Rai S., Singh U. P., Mishra G. D., Singh S. P., Samarketu. Effect of water's microwaves power density memory on fungal spore germination. Electro-Magnetobiol 1994; 13: 247–252
- Fesenko E. E., Gluvstein A. Y. Changes in the states of water induced by radio-frequency electromagnetic field. FEBS Lett 1995; 367: 53–56
- Rai S., Singh U. P., Singh K. P., Singh A. Germination responses of fungal spores to magnetically restructured water. Electro-Magnetobiol 1994; 13: 237–246
- Rai S., Singh N. N., Mishra R. N. Magnetic restructuring of water. Med. Biol. Eng. Comput 1994; 32: 614–617
- Rai S., Singh U. P., Singh A. K. X-ray determination of magnetically treated water structure. Electro-Magnetobiol 1994; 14: 23–30
- Del Guidice E., Preparata G., Vitiello G. Water as a free electric dipole laser. Phys. Rev. Lett 1988; 61: 1085–1088
- Wiggins P. M. Role of water in some biological processes. Microbiol. Rev 1990; 54: 432–449