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MeSH Disease

HGNC Genes

SARS-CoV-2 proteins

ComplexRdRp (3)

ProteinS (3)

ORF7a (2)

ORF3a (2)

NSP3 (1)


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    Unravelling Vitamins as Wonder Molecules for Covid-19 MESHD Management via Structure-based Virtual Screening

    Authors: Medha Pandya; Sejal Shah; Dhanalakshmi Menamadathil; Ayushman Gadnayak; Tanzil Juneja; Amisha Patel; Kajari Das; Jayashankar Das

    doi:10.21203/rs.3.rs-144177/v1 Date: 2021-01-09 Source: ResearchSquare

    The emergence situation of coronavirus disease 2019 MESHD ( COVID-19 MESHD) pandemic has realised the global scientific communities to develop strategies for immediate priorities and long-term approaches for utilization of existing knowledge and resources which can be diverted to pandemic preparedness planning. Lack of proper vaccine candidate and therapeutic management has accelerated the researchers to repurpose the existing drugs with known preclinical and toxicity MESHD profiles, which can easily enter Phase 3 or 4 or can be used directly in clinical settings. We focused to justify even exploration of supplements, nutrients and vitamins to dampen the disease burden of the current pandemic may play a crucial role for its management. We have explored structure based virtual screening of 15 vitamins against non-structural ( NSP3 HGNC NSP3 PROTEIN, NSP5 PROTEIN NSP5 HGNC, ORF7a PROTEIN, NSP12 PROTEIN, ORF3a PROTEIN), structural (Spike & Hemagglutinin esterase) and host protein furin HGNC. The in silico analysis exhibited that vitamin B12, Vitamin B9, Vitamin D3 determined suitable binding while vitamin B15 manifested remarkable H-bond interactions with all targets. Vitamin B12 bestowed the lowest energies with human furin HGNC and SARS-COV-2 RNA dependent RNA polymerase PROTEIN. Furin HGNC mediated cleavage of the viral spike glycoprotein PROTEIN is directly related to enhanced virulence of SARS-CoV-2. In contrast to these, vitamin B12 showed zero affinity with SARS-CoV-2 spike PROTEIN protein. These upshots intimate that Vitamin B12 could be the wonder molecule to shrink the virulence by hindering the furin HGNC mediated entry of spike to host cell. These identified molecules may effectively assist in SARS-CoV-2 therapeutic management to boost the immunity by inhibiting the virus imparting relief in lung inflammation MESHD.

    RNA-Dependent RNA Polymerase PROTEIN and Spike Protein PROTEIN Mutant Variants of SARS-CoV-2 Predominate in Severely Affected COVID-19 MESHD Patients

    Authors: Subrata K. Biswas; Sonchita R. Mudi

    id:10.20944/preprints202007.0251.v1 Date: 2020-07-12 Source: Preprints.org

    The severity of coronavirus disease 2019 MESHD ( COVID-19 MESHD), caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), greatly varies from patient to patient. In the present study, we explored and compared mutation profiles of SARS-CoV-2 isolated from mildly affected and severely affected COVID-19 MESHD patients in order to explore any relationship between mutation profile and disease severity. Genomic sequences of SARS-CoV-2 were downloaded from GISAID database. With the help of Genome Detective Coronavirus Typing Tool, genomic sequences were aligned with the Wuhan seafood market pneumonia MESHD virus reference sequence and all the mutations were identified. Distribution of mutant variants was then compared between mildly and severely affected groups. Among the numerous mutations detected, 14,408C>T and 23,403A>G mutations resulting in RNA-dependent RNA polymerase PROTEIN ( RdRp PROTEIN) P323L and spike protein PROTEIN D614G mutations, respectively, were found predominantly in severely affected group (>82%) compared with mildly affected group (<46%, p<0.001). The 241C>T mutation in the non-coding region of the genome was also found predominantly in severely affected group. The 3,037C>T, a silent mutation, also appeared in relatively high frequency in severely affected group. We concluded that RdRp PROTEIN P323L and spike protein PROTEIN D614G mutations predominate in severely affected COVID-19 MESHD patients. Further studies will be required to explore whether these mutations have any impact on the severity of COVID-19 MESHD.

    Comparative Genomic Analysis of Rapidly Evolving SARS CoV-2 Viruses Reveal Mosaic Pattern of Phylogeographical Distribution

    Authors: Roshan Kumar; Helianthous Verma; Nirjara Singhvi; Utkarsh Sood; Vipin Gupta; Mona Singh; Rashmi Sharma; Princy Hira; Shekhar Nagar; Chandni Talwar; Namita Nayyar; Shailly Anand; Charu Dogra Rawat; Mansi Verma; Ram Kishan Negi; Yogendra Singh; Rup Lal

    doi:10.1101/2020.03.25.006213 Date: 2020-03-30 Source: bioRxiv

    The Coronavirus Disease-2019 ( COVID-19 MESHD) that started in Wuhan, China in December 2019 has spread worldwide emerging as a global pandemic. The severe respiratory pneumonia MESHD caused by the novel SARS-CoV-2 has so far claimed more than 60,000 lives and has impacted human lives worldwide. However, as the novel SARS-CoV-2 displays high transmission rates, their underlying genomic severity is required to be fully understood. We studied the complete genomes of 95 SARS-CoV-2 strains from different geographical regions worldwide to uncover the pattern of the spread of the virus. We show that there is no direct transmission pattern of the virus among neighboring countries suggesting that the outbreak is a result of travel of infected humans to different countries. We revealed unique single nucleotide polymorphisms (SNPs) in nsp13-16 (ORF1b polyprotein) and S-Protein PROTEIN within 10 viral isolates from the USA. These viral proteins are involved in RNA replication, indicating highly evolved viral strains circulating in the population of USA than other countries. Furthermore, we found an amino acid addition in nsp16 (mRNA cap-1 methyltransferase) of the USA isolate (MT188341) leading to shift in amino acid frame from position 2540 onwards. Through the construction of SARS-CoV-2-human interactome, we further revealed that multiple host proteins (PHB, PPP1CA HGNC, TGF-{beta} HGNC, SOCS3 HGNC, STAT3 HGNC, JAK1/2, SMAD3 HGNC, BCL2 HGNC, CAV1 HGNC & SPECC1 HGNC) are manipulated by the viral proteins ( nsp2 HGNC, PL-PRO, N-protein PROTEIN, ORF7a PROTEIN, M-S- ORF3a PROTEIN complex, nsp7-nsp8-nsp9- RdRp complex PROTEIN) for mediating host immune evasion. Thus, the replicative machinery of SARS-CoV-2 is fast evolving to evade host challenges which need to be considered for developing effective treatment strategies.

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MeSH Disease
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SARS-CoV-2 Proteins


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