Hemanga Gogoi scite author profile

Hemanga Gogoi

5Publications

29Citation Statements Received

274Citation Statements Given

How they've been cited

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214

272

Affiliations

University of Oslo, National Institute of Mental Health and Neurosciences, Tezpur University

Publications

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Exploring rotavirus proteome to identify potential B- and T-cell epitope using computational immunoinformatics

Devi

Gogoi

et al. 2020

Heliyon

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Rotavirus is the most common cause of acute gastroenteritis in infants and children worldwide. The functional correlation of B-and T-cells to long-lasting immunity against rotavirus infection in the literature is limited. In this work, a series of computational immuno-informatics approaches were applied and identified 28 linear B-cells, 26 conformational B-cell, 44 T C cell and 40 T H cell binding epitopes for structural and non-structural proteins of rotavirus. Further selection of putative B and T cell epitopes in the multi-epitope vaccine construct was carried out based on immunogenicity, conservancy, allergenicity and the helical content of predicted epitopes. An in-silico vaccine constructs was developed using an N-terminal adjuvant (RGD motif) followed by T C and T H cell epitopes and B-cell epitope with an appropriate linker. Multi-threading models of multi-epitope vaccine construct with Band T-cell epitopes were generated and molecular dynamics simulation was performed to determine the stability of designed vaccine. Codon optimized multi-epitope vaccine antigens was expressed and affinity purified using the E. coli expression system. Further the T cell epitope presentation assay using the recombinant multi-epitope constructs and the T cell epitope predicted and identified in this study have not been investigated. Multiepitope vaccine construct encompassing predicted B-and T-cell epitopes may help to generate long-term immune responses against rotavirus. The computational findings reported in this study may provide information in developing epitope-based vaccine and diagnostic assay for rotavirus-led diarrhea in children's.

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Molecular insights into α‐synuclein interaction with individual human core histones, linker histone, and dsDNA

et al. 2021

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α-Synuclein (αS) plays a key role in Parkinson's disease (PD). The αS nuclear role, its binding affinity and specificity to histones and dsDNA remains unknown. Here, we have measured the binding affinity (K d ) between αS wildtype (wt) and PD-specific αS S129-phosphorylation mimicking (S129E) mutant with full-length and flexible tail truncated individual core histones (H2a, H2b, H3, and H4), linker histone (H1), and carried out αS-dsDNA interaction studies. This study revealed that αS(wt) interacts specifically with N-terminal flexible tails of histone H3, H4, and flexible tails of H1. The αS(S129E) mutant recognizes histones similar to αS(wt) but binds with higher affinity. Intriguingly, αS(S129E) showed a binding affinity for control proteins (bovine serum albumin and lysozyme), while no interaction was seen for αS(wt). Based on our above observation, we contemplate that the physio-chemical properties of αS with S129-phosphorylation has changed compared to αS(wt), resulting in interaction for other proteins, which is the basis for Lewy body formation.Besides, this study showed αS binding to dsDNA is weak and nonspecific. Overall, αS specificity for histone binding suggests that its nuclear role is possibly driven through histone interaction.

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Crystal structure of enoyl-CoA hydratase from Thermus thermophilus HB8

et al. 2021

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Fatty-acid degradation is an oxidative process that involves four enzymatic steps and is referred to as the β-oxidation pathway. During this process, long-chain acyl-CoAs are broken down into acetyl-CoA, which enters the mitochondrial tricarboxylic acid (TCA) cycle, resulting in the production of energy in the form of ATP. Enoyl-CoA hydratase (ECH) catalyzes the second step of the β-oxidation pathway by the syn addition of water to the double bond between C2 and C3 of a 2-trans-enoyl-CoA, resulting in the formation of a 3-hydroxyacyl CoA. Here, the crystal structure of ECH from Thermus thermophilus HB8 (TtECH) is reported at 2.85 Å resolution. TtECH forms a hexamer as a dimer of trimers, and wide clefts are uniquely formed between the two trimers. Although the overall structure of TtECH is similar to that of a hexameric ECH from Rattus norvegicus (RnECH), there is a significant shift in the positions of the helices and loops around the active-site region, which includes the replacement of a longer α3 helix with a shorter α-helix and 310-helix in RnECH. Additionally, one of the catalytic residues of RnECH, Glu144 (numbering based on the RnECH enzyme), is replaced by a glycine in TtECH, while the other catalytic residue Glu164, as well as Ala98 and Gly141 that stabilize the enolate intermediate, is conserved. Their putative ligand-binding sites and active-site residue compositions are dissimilar.

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Insecticide resistance among field populations of Hyposidra talaca Walker (Geometridae: Lepidoptera) in tea plantations of Assam, India: detection through a biochemical approach

et al. 2021

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Author response: The structural basis of the multi-step allosteric activation of Aurora B kinase

Segura-Peña

Hovet

Gogoi

et al. 2023

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Hemanga Gogoi

Exploring rotavirus proteome to identify potential B- and T-cell epitope using computational immunoinformatics

Molecular insights into α‐synuclein interaction with individual human core histones, linker histone, and dsDNA

Crystal structure of enoyl-CoA hydratase from Thermus thermophilus HB8

Insecticide resistance among field populations of Hyposidra talaca Walker (Geometridae: Lepidoptera) in tea plantations of Assam, India: detection through a biochemical approach

Author response: The structural basis of the multi-step allosteric activation of Aurora B kinase

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