Malini Manoharan

MSc.Biotechnology

Universite de La Reunion · Laboratoire de Biochimie et Genetique Moleculaire

Grad Student who loves Science and research

Research interests

Interests

Bioinformatics, Molecular Biology

Research experience

Oct 2008–
Oct 2011

Research: Genomic Stucture and Functional Characterisation of odorant binding proteins in Mosquito genome

Universite de la reunion · Universite de la reunion

Dr.R.Sowdhamini,Dr.Bernard OFFMANN
Dec 2007–
Jul 2008

Research: Molecular modeling and docking studies of agonists and antagonists of 5ht2a receptor

National centre of Biological science · National centre of Biological science

DR.R.Sowdhamini,Dr.M.M.Panniker
Jun 2007–
Jul 2007

Research: De novo drug designing for dopamine receptor (D2) associated with Schizoprenia and Parkinsons

PSG,College of Arts and Science · PSG,College of Arts and Science

Dr.K.Mani

Other

Other Interests

Music, Plos.Computational Biology,
Bioinformatics,
Nature,
Proteins,
Nature neuroscience,
Genome Biology,
Genome research,
Trends in Biotechnogy,
BMC Struture biology,
NAR
, Crystal structure of the human beta2 adrenergic G-protein-coupled receptor.
Rasmussen SG, Choi HJ, ..., Weis WI, Kobilka BK
Nature 2007 Nov 15 450 (7168):383-7S.

Sandhya, S.S. Rani, B. Pankaj, M.K. Govind, B. Offmann, N. Srinivasan & R. Sowdhamini (2009) Length variations amongst protein domain superfamilies and consequences on structure and function. PLoS ONE, 4, e4981.

G. Agarwal, M. Rajavel, B. Gopal & N. Srinivasan (2009) Structure-based phylogeny as a diagnostic for functional characterization of proteins with a cupin fold. PLoS ONE, 4, e5736.

Si, K., Choi, Y.-B., White-Grindley, E., Majumdar, A., and Kandel, E.R. 2010. Aplysia CPEB Can Form Prion-like Multimers in Sensory Neurons that Contribute to Long-Term Facilitation. Cell 140(Feb. 5): 421-435 DOI 10.1016/j.cell.2010.01.008, Biochemistry,Lehninger
Recombinant DNA technology,TA.Brown,
Molecular Biology,Voet and Voet
Bioinformatics,David Mount

Publications

4.02

Impact points

Molecular modeling and docking studies of human 5-hydroxytryptamine 2A (5-HT2A) receptor for the identification of hotspots for ligand binding.

Karuppiah Kanagarajadurai, Manoharan Malini, Aditi Bhattacharya, Mitradas M Panicker, Ramanathan Sowdhamini

Molecular bioSystems. 09/2009;

The serotonergic system has been implicated in emotional and cognitive function. In particular, 5-HT2A (5-hydroxytrytamine receptor 2A) is attributed to a number of disorders like schizophrenia, depression, eating disorders and anxiety. 5-HT2A, being a GPCR (G-protein coupled receptor), is important... [more] The serotonergic system has been implicated in emotional and cognitive function. In particular, 5-HT2A (5-hydroxytrytamine receptor 2A) is attributed to a number of disorders like schizophrenia, depression, eating disorders and anxiety. 5-HT2A, being a GPCR (G-protein coupled receptor), is important in the pharmaceutical industry as a proven target for these disorders. Despite their extensive clinical importance, the structural studies of this protein is lacking due to difficulties in determining its crystal structure. We have performed sequence analysis and molecular modeling of 5-HT2A that has revealed a set of conserved residues and motifs considered to play an important role in maintaining structural integrity and function of the receptor. The analysis also revealed a set of residues specific to the receptor which distinguishes them from other members of the subclass and their orthologs. Further, starting from the model structure of human 5-HT2A receptor, docking studies were attempted to envisage how it might interact with eight of its ligands (such as serotonin, dopamine, DOI, LSD, haloperidol, ketanserin, risperidone and clozapine). The binding studies of dopamine to 5-HT2A receptor can bring up better understanding in the etiology of a number of neurological disorders involving both these two receptors. Our sequence analysis and study of interactions of this receptor with other ligands reveal additional residue hotspots such as Asn 363 and Tyr 370. The function of these residues can be further analyzed by rational design of site-directed mutagenesis. Two distinct binding sites are identified which could play important roles in ligand binding and signaling.
Analysis on conservation of disulphide bonds and their structural features in homologous protein domain families

Ratna R Thangudu, Malini Manoharan, N Srinivasan, Frédéric Cadet, R Sowdhamini, Bernard Offmann