Chandrasekhar Gopalakrishnan scite author profile

BCR-ABL protein is one of the most potent target to treat chronic myeloid leukemia (CML). Apart from other mutations, T315I is especially challenging as it confers resistance to all first-and second-generation tyrosine kinase inhibitors. So, a thorough study of altered behavior upon mutation is crucially needed. To understand the resistance mechanism of mutant BCR-ABL protein, we organized a long-term molecular dynamics simulation (500 ns) and performed the detailed comparative conformational analysis. We found that due to mutation at 315th position (threonine to isoleucine), original structures deviated from normal, and attained a flexible conformation. Our observations pave a clear path toward designing new inhibitors against resistant BCR-ABL1 protein and suggest a strategy where additional flexibility governed by mutation could be given an appropriate consideration.

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Impact of point mutation P29S in RAC1 on tumorigenesis

Rajendran

Gopalakrishnan

Purohit

2016

Tumor Biol.

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A point mutation (P29S) in the RAS-related C3 botulinum toxin substrate 1 (RAC1) was considered to be a trigger for melanoma, a form of skin cancer with highest mortality rate. In this study, we have investigated the pathogenic role of P29S based on the conformational behavior of RAC1 protein toward guanosine triphosphate (GTP). Molecular interaction, molecular dynamics trajectory analysis (RMSD, RMSF, Rg, SASA, DSSP, and PCA), and shape analysis of binding pocket were performed to analyze the interaction energy and the dynamic behavior of native and mutant RAC1 at the atomic level. Due to this mutation, the RAC1 switch I region acquired more flexibility and, to compensate it, the switch II region becomes rigid in their conformational space, as a result of which the interaction energy of the protein for GTP increased. The overall results strongly implied that the changes in atomic conformation of the switch I and II regions in mutant RAC1 protein were a significant reason for its malignant transformation and tumorigenesis. We raised the opportunity for researchers to design possible therapeutic molecule by considering our findings.

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Inhibitory effect of brazilein on tyrosinase and melanin synthesis: Kinetics and in silico approach

Hemachandran

Anantharaman

Mohan

et al. 2015

International Journal of Biological Macromolecules

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Mutations in microRNA Binding Sites of CEP Genes Involved in Cancer

Gopalakrishnan

Kamaraj

Purohit

2014

Cell Biochem Biophys

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The CEP genes play a pivotal role in the replication of the cell. CEP family proteins form the major constituents of the centrosome and play a prominent role in centriole biogenesis and in cell replication. Alteration in CEP genes will result in disruption of cell cycle that may in turn cause cancer. In our study, we found that 16 of the CEP genes are a potential target to miRNA that binds to complementary sequences in 3'untranslated regions (UTR) of mRNA and stop them from translation. Single nucleotide polymorphisms (SNPs) occurring naturally in such miRNA binding site can alter the miRNA: mRNA interaction and can significantly alter gene expression. We developed a systematic computational pipeline that integrates data from well-established databases, followed stringent selection criteria and identified a panel of 44 high-confidence SNPs that may impair miRNA target sites in the 3'UTR of 16 genes. Further we performed expression analysis to shed light on the potential tissues that might be affected by mutation, enrichment analysis to find the metabolic functions of the gene, and network analysis to highlight the important interactions of CEP genes with other genes to provide insight that complex network will be disturbed upon mutation. In this study, we explored and prioritised the SNPs in CEP gene which could act as a potential target in centrosome-associated human disease. Our analysis would provide a thoughtful insight to wet lab researches to understand the expression pattern of CEP genes and binding phenomenon of mRNA and miRNA upon mutation, which is responsible for inhibition of translation process at genomic levels.

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Active contour with modified Otsu method for automatic detection of polycystic ovary syndrome from ultrasound image of ovary

Gopalakrishnan

Iyapparaja

2019

Multimed Tools Appl

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