Studies on Bioenergetic Transformation of Molasses Pollutant to Ethanol by Saccharomyces Cerevisiae Ncim - 2086 Exposed To 4-Acetyl-1-Methylnaphthalene

Authors

  • Dr. Ravi Ranjan  TGT, (Science), S.R.P.S. Govt. +2 School Gardanibagh, Patna, Bihar, India

Keywords:

Molasses, Mutagen, Ethanol, Fermentation, 4-acetyl -1-methylnaphthalene, saccharomyces cerevisiae NCIM-2086)

Abstract

The efficacy of 4-acetyl-1-methylnaphthalene on bioenergetic transformation of molasses pollutant to ethanol by saccharomyces cerevisiae NCIM-2086 has been assessed. It has been found that the mutagen i.e; 4-acetyl-1- methylnaphthalene under trial has stimulatory effect on bioenergetic transformation of molasses pollutant to ethanol by saccharomyces cerevisiae NCIM-2086 and enhances the yield of ethanol to an extent of 9.72222% higher in comparison to control fermentor flasks i.e; 6.32 ml/100 ml in 46 hours of incubation period, 4.8 pH and 32

References

  1. Johnson, Paige. "Atomic Gardens". Retrieved 20 April 2011.
  2. Hastings, P J; Lupski, JR; Rosenberg, SM; Ira, G . "Mechanisms of change in gene copy number". Nature Reviews. Genetics 10 (8): 551–564. (2009)
  3. Carroll SB, Grenier J, Weatherbee SD. From DNA to Diversity:
  4. Molecular Genetics and the Evolution of Animal Design.Second Edition. Oxford: Blackwell Publishing. ISBN 1-4051-1950-0.(2005)
  5. Orengo CA, Thornton JM . "Protein families and their evolution a structural perspective". Annu. Rev. Biochem. 74: 867–900. (2005)
  6. Long M, Betrán E, Thornton K, Wang W . "The origin of new genes: glimpses from the young and old". Nat. Rev. Genet. 4 (11): 865–75. (2003)
  7. Wang M, Caetano-Anollés G. "The evolutionary mechanics of
  8. domain organization in proteomes and the rise of modularity in the protein world". Structure 17 (1): 66–78. (2009)
  9. Bowmaker JK . "Evolution of colour vision in vertebrates". Eye (London, England) 12 (Pt 3b): 541–7. (1998)
  10. Gregory TR, Hebert PD . "The modulation of DNA content: proximate causes and ultimate consequences". Genome Res. 9 (4): 317–24. (1999)
  11. Hurles M . "Gene Duplication: The Genomic Trade in Spare Parts". PLoS Biol. 2 (7): (2004)
  12. Liu N, Okamura K, Tyler DM . "The evolution and functional diversification of animal microRNA genes". Cell Res. 18 (10): 985–96. (2008)
  13. Siepel A. "Darwinian alchemy: Human genes from noncoding DNA". Genome Res. 19 (10): 1693–5. (2009)
  14. Smith, Peter (2011-04-12). "How Radiation is Changing the Foods that You Eat". GOOD. GOOD Worldwide, Inc.. Retrieved 2011-07-16.
  15. Ahloowali, B.S. "Global impact of mutation-derived varieties". Euphytica 135: 187–204. Retrieved 20 April 2011. (2004)
  16. Maluszynsk, M.K.; K. Nichterlein, L. van Zanten & B.S. Ahloowalia "Officially released mutant varieties – the FAO/IAEA Database". Mutation Breeding Review (12): 1–84.(2000)
  17. Sawyer SA, Parsch J, Zhang Z, Hartl DL. "Prevalence of positive
  18. selection among nearly neutral amino acid replacements in Drosophila". Proc. Natl. Acad. Sci. U.S.A. 104 (16): 6504–10. (2007)
  19. Aminetzach YT, Macpherson JM, Petrov DA . "Pesticide resistance via transposition-mediated adaptive gene truncation in Drosophila". Science 309 (5735): 764–7. (2005)
  20. Zhang J, Wang X, Podlaha O. "Testing the Chromosomal Speciation Hypothesis for Humans and Chimpanzees". Genome Res. 14 (5): 845–51. (2004)
  21. Freese, E. : Molecular mechanism of mutations. In chemical
  22. Mutagens Vol 1, Hollaender, 1.a. (ed), Plenum Press New-York, PP.1-56 (1971).
  23. Singh, S.P., Sinha, A.C., Singh, B.K., Sinha, A.K., and Suraiya, A. : Asian Journal of Pure and Applied Chemistry,1, 125, (1995).
  24. Clam, C.T. : "Methods in Microbiology" (Nome, J.R. and Ribbons, N.W. Eds), Vol. 3A, Chapt. VII pp. 435, Academic Press New-York (1969).
  25. Pavlenko, V.V., and Trubachaeva, L.Ya,: Vliyanic Fenol Soedin Na Gidrobiontov. Irkutski, 40-52, (1981).
  26. Pandey, A. : D. Phil. Thesis Chemistry. Univ. of Allahabad, Allahabad pp. 56-57(1979).
  27. Freese, E. and Strack, M.B. : Biochemistry, 4, 2419 (1965).
  28. Plantova, R.N. and Svarinskoya, R.A. : I.V.C. Akad. Nauk SSSR. Ser. Biol (3), 350-355 (1980).
  29. Yamamoto, Hisako Inhids, Miyaki, Tomimori, Tsuyoshi :Shoyakugaku Zasshi, 35,(1) 15-20 (1980).
  30. Singh, S. P., Singh, A., Kumar, V. and Singh, B. : Vijanana Parishad Anusandhan Patrika, 48, 215, (2005).
  31. Prasad M. , S. K. Srivastava, R. Prasad, M.Imam, R.Kumar and S. P. Singh : J. Chemtracks 13(1), 231-234, (2011)
  32. Wuhrmaun, K., Mechsner, K. and Kappeler, T.Eur. : J.Appl. Microbial. Biotechnol, 9, (4) 325-338 (1980).
  33. Reddi, V.R and Padmaja, D. : J. Nucl. Agric. Biol, 7(4), 145 -147 (1978).
  34. Chug, King-Than, Fulk, George, E.and Andrews, A.W : Mutate Res., 58, (2-3) 375-379 (1978).
  35. Salle, A.G. : Fundamental Principles of Bacteriology Kogokusha Co. Ltd. Tokyo, 5th Edn., 4

International Journal of Scientific Research in Science and Technology

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Published

2017-10-31

Issue

Volume 3, Issue 7, September-October-2017

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Research Articles

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[1]
Dr. Ravi Ranjan "Studies on Bioenergetic Transformation of Molasses Pollutant to Ethanol by Saccharomyces Cerevisiae Ncim - 2086 Exposed To 4-Acetyl-1-Methylnaphthalene" International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011,Volume 3, Issue 7, pp.1433-1439, September-October-2017.