ISSN : 0975-3702
EISSN : 0975-9182
Pawar S.V.1, Gomase V.S.2, Chate P.B.3, Kayarkar N.A.4, Durgude S.G.5, Maurya B.D.6
1V.E.S. College of Arts, Science and Commerce, Chembur, Mumbai, 400 071, India.
2School of Technology, S.R.T.M. University, Sub-Centre, Latur, 413512, India.
3Bhavan's College, Andheri (west), Mumbai, 400 058, India.
4V.E.S. College of Arts, Science and Commerce, Chembur, Mumbai, 400 071, India.
5V.E.S. College of Arts, Science and Commerce, Chembur, Mumbai, 400 071, India.
6V.E.S. College of Arts, Science and Commerce, Chembur, Mumbai, 400 071, India.
Received : - Accepted : - Published : 21-12-2009
Volume : 1 Issue : 2 Pages : 1 - 7
Int J Parasitol Res 1.2 (2009):1-7
DOI : http://dx.doi.org/10.9735/0975-3702.1.2.1-7
Keywords : Immunoinformatics, Plant innate Immunity, Protein interactions, Molecular switches, Elicitors,
Suppressors, Fragment Based Drug design
Conflict of Interest : None declared
Immunoinformatics utilizes bioinformatics applications such as immune related databases with integration of mathematics, information science, computer engineering, genomics, proteomics which bridge immunology and informatics. Plants lack adaptive immune system and rely on innate immunity which consists of many protein interactions, which protect them from infections. The plant innate immunity consists of many molecular switches that help in activation of plant innate immunity. The plant innate immunity also consists of many elicitors and suppressors that elicit and suppress the plant innate immunity respectively. Fragment-based drug discovery is a new approach that builds drugs from small chemical structures.
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