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2. Computational investigation of novel synthetic analogs of C-1′β substituted remdesivir against RNA-dependent RNA-polymerase of SARS-CoV-2

Author

Savio Cardoza, Anirudh Singh, Souvik Sur, Mintu Singh, Kshatresh D. Dubey, Sintu Kumar Samanta, Ajay Mandal, and Vibha Tandon

Subjects
Remdesivir analogs, Molecular docking, MD simulations, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Remdesivir, a C-nucleotide prodrug binds to the viral RNA-dependent-RNA polymerase (RdRp) and inhibits the viral replication by terminating RNA transcription prematurely. It is reported in literature that interaction between the C-1’β–CN moiety of Remdesivir (RDV) and the Ser861 residue in RdRp enzyme, causes a delayed chain termination during the RNA replication process and is one of the important aspect of its mechanism of action. In the pursuance of increasing the biological activity of RDV and enhancing the SAR studies, against RNA viruses, we have designed its fourteen C1’β substituted analogs, 10 –23 bearing 4/5-membered heterocyclic rings. The docking and 100 ns molecular dynamics (MD) simulations of 10-23 to the RdRp protein (PDB ID: 7L1F) revealed important interactions between 2’,3’-diol, oxo group of phosphoramidate, nitrogen residues of heterocyclic rings of synthetic molecules with Arg555, Arg553, Ser759, Cys622, Asn691, Asp623 amino acid residues of protein. The docking score of 2-ethylbutyl ((S)-(((2R,3S,4R,5R)-5-(4-aminopyrrolo[2,1-f][1,2,4]triazin-7-yl)-3,4-dihydroxy-5-(1H-1,2,3-triazol-4-yl)tetrahydrofuran-2-yl)methoxy)(phenoxy)phosphoryl)-L-alaninate, 11 was found to be the higher than RDV among 14 new compounds i.e. -5.20 kcal/mol. Out of 3 compounds, 10, 12 and 13 submitted for MD simulations and Molecular Mechanics Poisson-Boltzmann Surface Area (MMPBSA) analysis, trifluoro-oxadiazole derivative, 13 showed higher binding energy as compared to Remdesivir. The predicted ADMET properties of 14 compounds showed their potential for being drug candidates. The present study suggests that substitution at the C1’β position by 4/5-membered rings plays an important role in the interactions between nucleoside/tide and target protein.

Published
2024
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3. Biodegradable solid waste management by microorganism: Challenge and potential for composting

Author

Asim Ahmad and Souvik Sur

Subjects
compost, biodegradable, waste-management, cow-dung, microbial inoculum, synthetic fertilizer, Agriculture (General), S1-972, Environmental technology. Sanitary engineering, TD1-1066
Abstract

Purpose Composting is known since long for reducing the use of synthetic chemical fertilizers. These fertilizers are applied to the crops for the supply of required macro/micronutrients. The present study describes how to decompose biodegradable solid wastes quickly into compost without harming the environment.Method The microbial inoculums were developed from cow dung concentrate. The cow dung concentrate was mixed with water. The cow dung concentrates, and water mixture was then mixed with another water solution containing Jiggery. After a week, a creamy layer was observed to have formed. This confirms the development of microbial inoculum.Results After 2-3 days, temperature started to increase slowly. On the 15th day, temperature of the compost pile was 40 °C. At this temperature, the waste changed its colour and showed rapid decomposition. On the 25th day, temperature was noted to be around 60 °C. This showed the completion of the process. After 30 days, the compost was ready and showed signs of the process of maturation. Decrease in temperature confirmed completion of maturation process and complete conversion into compost.Conclusion The cow dung microbial inoculum consists of decomposing bacteria, protozoa and fungi which are effective to convert biodegradable waste into bio-fertilizer. The regular application of synthetic fertilizers causes adverse effect on greenhouse, environmental pollution, killing of earthworms and other beneficial micro-organisms of the soil, marine inhabitants, depletion of ozone layer, increase of toxicity among human beings due to excessive heavy metals, spoilage of soil fertility, and change in the soil pH.

Published
2023
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4. Natural flavonoid pectolinarin computationally targeted as a promising drug candidate against SARS-CoV-2

Author

Mukta Rani, Amit Kumar Sharma, R.S. Chouhan, Souvik Sur, Rani Mansuri, and Rajesh K. Singh

Subjects
Coronaviruses, SARS-CoV2, S-glycoproteins, Motif, Computational analysis, Biology (General), QH301-705.5
Abstract

Coronavirus disease-2019 (COVID-19) has become a global pandemic, necessitating the development of new medicines. In this investigation, we identified potential natural flavonoids and compared their inhibitory activity against spike glycoprotein, which is a target of SARS-CoV-2 and SARS-CoV. The target site for the interaction of new inhibitors for the treatment of SARS-CoV-2 has 82% sequence identity and the remaining 18% dissimilarities in RBD S1-subunit, S2-subunit, and 2.5% others. Molecular docking was employed to analyse the various binding processes used by each ligand in a library of 85 natural flavonoids that act as anti-viral medications and FDA authorised treatments for COVID-19. In the binding pocket of the target active site, remdesivir has less binding interaction than pectolinarin, according to the docking analysis. Pectolinarin is a natural flavonoid isolated from Cirsiumsetidensas that has anti-cancer, vasorelaxant, anti-inflammatory, hepatoprotective, anti-diabetic, anti-microbial, and anti-oxidant properties. The S-glycoprotein RBD region (330–583) is inhibited by kaempferol, rhoifolin, and herbacetin, but the S2 subunit (686–1270) is inhibited by pectolinarin, morin, and remdesivir. MD simulation analysis of S-glycoprotein of SARS-CoV-2 with pectolinarin complex at 100ns based on high dock-score. Finally, ADMET analysis was used to validate the proposed compounds with the highest binding energy.

Published
2024
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5. Interaction of HIV-1 integrase with polypyrimidine tract binding protein and associated splicing factor (PSF) and its impact on HIV-1 replication

Author

Pooja Yadav, Souvik Sur, Dipen Desai, Smita Kulkarni, Vartika Sharma, and Vibha Tandon

Subjects
PSF, HIV, HIV-1 integrase, Host–pathogen interaction, Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background The different interactions between viral proteins and cellular host proteins are required for efficient replication of HIV-1. Various reports implicated host cellular proteins as a key factor that either interact directly with HIV-1 integrase (IN) or get involved in the integration process of virus resulting in the modulation of integration step. Polypyrimidine tract binding protein and associated splicing factor (PSF) has diverse functions inside the cell such as transcriptional regulation, DNA repair, acts as nucleic acids binding protein and regulate replication and infectivity of different viruses. Results The protein binding study identified the association of host protein PSF with HIV-1 integrase. The siRNA knockdown (KD) of PSF resulted in increased viral replication in TZM-bl cells, suggesting PSF has negative influence on viral replication. The quantitative PCR of virus infected PSF knockdown TZM-bl cells showed more integrated DNA and viral cDNA as compared to control cells. We did not observe any significant difference between the amount of early reverse transcription products as well as infectivity of virus in the PSF KD and control TZM-bl cells. Molecular docking study supported the argument that PSF hinders the binding of viral DNA with IN. Conclusion In an attempt to study the host interacting protein of IN, we have identified a new interacting host protein PSF which is a splicing factor and elucidated its role in integration and viral replication. Experimental as well as in silico analysis inferred that the host protein causes not only change in the integration events but also targets the incoming viral DNA or the integrase-viral DNA complex. The role of PSF was also investigated at early reverse transcript production as well as late stages. The PSF is causing changes in integration events, but it does not over all make any changes in the virus infectivity. MD trajectory analyses provided a strong clue of destabilization of Integrase-viral DNA complex occurred due to PSF interaction with the conserved bases of viral DNA ends that are extremely crucial contact points with integrase and indispensable for integration. Thus our study emphasizes the negative influence of PSF on HIV-1 replication.

Published
2019
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