Synthesis and Biological activity for 4-methoxyphenyl (pyrazin-2-yl) methanone and its Detection by GC-MS Techniques

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Synthesis and Biological activity for 4-methoxyphenyl (pyrazin-2-yl) methanone and its Detection by GC-MS Techniques

Author Affiliations

¹Dept. of Physics, SN Arts, DJM Commerce and BNS Science College, Sangamner, Ahmednagar, Pin– 422605 INDIA
²PDF Applied research and Development Institute, Ahmednagar, Maharashtra INDIA

Res.J.chem.sci., Volume 1, Issue (5), Pages 85-87, August,18 (2011)

Abstract

The synthesis of 4-methoxyphenyl (pyrazin-2-yl) methanone and its detection by GC-MS technique by p-methoxybenzaldehyde reacted with pyrazin-2-yl in the presence of suitable solvent in different conditionto form p-methoxybenzaldehyde. The structure detected with GC-MS and the compound identified with T.L.C. technique and then examined for antibacterial activity.

References

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[ref1] Anzai K., Isono K., Okuma K. and Suzuki S., antibiotics, questiomycins A and B., 125-132, (1960)

[ref2] Hollstein U., Spectroscopic analysis of theand kinetic DNA binding propertiesactinomycin analogs, Chem. Rev., 74,625-652 (1974)

[ref3] ButenandtA.Biekert E., Kubler H.,Pigments in the pupal integuments of twoof cabbage white butterfly, Physiol Chem.256 (1960)

[ref4] Lalehzari A., Desper J. and Levy C.J., Synthesis, crystal structures, and antibacterial activities of two copper(II) complexes derived from 1-[(2-ylethylimino) methyl]-naphthalen- 2-ol transition metal chemistry, Inorg. Chem., 47, 1120 (2008)

[ref5] Yamaguchi T., Sato K., Izumi R., Tomoda A. and Tohoku J., In Vitro antibacterial activity of Phx-3 elicobacter pyloriiwata, J. Exp.Med., 200,161-165 (2003)

[ref6] Uruma T., Yamaguchi H., Fukuda M., Kawakami H., Goto H., Kishimoto T., Yamamoto Y., Tomoda A. and Chlamydia pneumoniae resists antibiotics Med. Microbiol., 541143-1149 (2005) Kadzewski A. and Gdaniec M., Phenazine-diamine–water, Acta Cryst., E62,03498-03500 (2006)

[ref7] Kadzewski A. and Gdaniec M., Phenazine naphthalene-1,5-diamine water, Acta Cryst., E62, 03498-03500 (2006)

[ref8] Ziegler J., Schuerle T., Pasierb L., Kelly C., Elamin Wright D. W., Self- assembled synthesis, characterization and antimicrobial activity (II) salicylaldimine complexes,Inorg. Chem.,39, 3731(2009)

[ref9] Leese C.L. and Rydon H.N., Polyazanaphthalenes, Some derivatives of 1:4:5-triazanaphthalene and J. Chem. Soc., Part I, 303 (1955)

[ref10] Arun V.,Sridevi N., Robinson P.P., Manju S. and K.K.M., Ni(II) and Ru(II) Schiff base complexes as catalysts for the reduction of benzene, J. 304(1-2), 191 (2009)

[ref11] Dyke S.F., Floyd A.J., Sainsbury M. and Theobald R. S., Organic spectroscopy – An Introduction, Penguin Harmondsworth, London, 249-262 (1971)