ISSN : 0975-3699
EISSN : 0975-9131
Anjali Mishra1, Manoj Kumar2, Ashok Mishra3, Arvind Kumar4, Ravi Kant5, Thakur R.S.6
1Research Laboratory, Department of Chemistry, D.B.S.P.G. College, Kanpur
2Department of Applied Chemistry, Vidya Bhawan Engineering College, Kanpur
3Research Laboratory, Department of Chemistry, D.B.S.P.G. College, Kanpur
4Department of Chemistry, K.K. College, Etawah
5Department of Medicinal Chemistry, Mahatma Gandhi Institute of Pharmacy, Lucknow
6Research Laboratory, Department of Chemistry, D.B.S.P.G. College, Kanpur
Received : - Accepted : - Published : 15-06-2010
Volume : 2 Issue : 1 Pages : 28 - 31
Int J Chem Res 2.1 (2010):28-31
DOI : http://dx.doi.org/10.9735/0975-3699.2.1.28-31
Keywords : 5-Sulphosalicylic acid, amines, antibacterial activity
Conflict of Interest : None declared
Acknowledgements/Funding : The authors are highly thankful to the Director
RSIC, CDRI Lucknow for spectral and elemental
analysis. The authors are also thankful to
Principal, D.B.S. P.G. College, Kanpur for
providing necessary laboratory facility
Some new amides of 5-Sulphosalicylic acid were synthesized by the reaction of suitable amines with 5-sulphosalicylic acid in 2:1 ratio. The compounds are novel and first time screened for their biological evaluation along with general characterization with the help of elemental analysis, IR spectral analysis. These compounds showed higher to moderate biological activity against different pathogenic microbial strains.
[1] Bishayee A., Karmaker R., Mandal A.,
Kundu S.N. and Chaterjee M. (1997)
Eur. J. Cancer. Prev. 6, 58-70.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[2] Chakraborty A. and Chaterjee M. (1994)
Neoplasma, 41, 291-296.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[3] Cruz T.F., Morgon A. and Min W. (1995)
Mol. Biochem, 153, 161-166
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[4] Chitamber C.R. and Wereley J.P. (1997) J.
Biol. Chem., 272, 12151-12157
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[5] Collery P., Millart H., Pluot M. and Anghileri
L.J. (1986) Anticancer. Res., 6, 1085-
1088,
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[6] Tajmir-Riahi H.A., Naovi M. and Ahmad R.
(1990) Toxicol. Appl. Pharmacol; 106,
462-468
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[7] Barone G., Ramusino M.C,. Barbieri R. and
Manna G.L. (1999) J. Mol. Struct, 469,
143
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[8] Kayser F., Biesemans M., Gielen M. and
Willem R. (1994) Magn. Reson. Chem.,
32, 358
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[9] Mishra Anjali, Singh R.K., Singh S., Mishra
A., Kumar M., Ravi Kant and Thakur
R.S. (2009) Int. J. of Pharmaceutical
Analysis, 1(2), 1-3.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[10] Verma R.S. and Imam S.A. (1973) Ind. J.
Microbial, 13, 45
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus