Genomic Variations in the Structural Proteins of SARS-CoV-2 and Their Deleterious Impact on Pathogenesis: A Comparative Genomics Approach

Mohammad, Taj; Choudhury, Arunabh; Habib, Insan; Asrani, Purva; Mathur, Yash; Umair, Mohd; Anjum, Farah; Shafie, Alaa; Yadav, Dharmendra Kumar; Hassan, Md. Imtaiyaz

doi:10.3389/fcimb.2021.765039

Cited by 59 publications

(61 citation statements)

References 167 publications

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“…Fitness-enhancing mutations have been reported in nsp3, namely F206F, S1197R and T1198K, that has been associated with increased severity of infection for B.1.1 lineages ( 52 ). Further, certain mutations in 3CLpro: T45I, K90R, R279C, A266V, A234Vand N151D have been found in the VOCs B.1.1.7, B.1.351, P.1 and B1.617 ( 58 ). Mohammad et al ( 58 ) further speculate T190I and A191V in 3CLpro can alter polarity and affect the binding of therapeutic molecules.…”

Section: Variations In Sars-cov-2 Genome and Proteomementioning

confidence: 99%

“…Further, certain mutations in 3CLpro: T45I, K90R, R279C, A266V, A234Vand N151D have been found in the VOCs B.1.1.7, B.1.351, P.1 and B1.617 ( 58 ). Mohammad et al ( 58 ) further speculate T190I and A191V in 3CLpro can alter polarity and affect the binding of therapeutic molecules. Moreover, several geographical studies have been published, where Indian samples reveal a high mutation frequency in nsp2, nsp3, nsp4, nsp5, nsp6, nsp12, nsp14, and nsp16 ( 59 ).…”

Section: Variations In Sars-cov-2 Genome and Proteomementioning

confidence: 99%

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SARS-CoV-2 Mutations and Their Impact on Diagnostics, Therapeutics and Vaccines

Thakur¹,

Sasi²,

et al. 2022

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With the high rate of COVID-19 infections worldwide, the emergence of SARS-CoV-2 variants was inevitable. Several mutations have been identified in the SARS-CoV-2 genome, with the spike protein as one of the mutational hot spots. Specific amino acid substitutions such as D614G and N501Y were found to alter the transmissibility and virulence of the virus. The WHO has classified the variants identified with fitness-enhancing mutations as variants of concern (VOC), variants of interest (VOI) or variants under monitoring (VUM). The VOCs pose an imminent threat as they exhibit higher transmissibility, disease severity and ability to evade vaccine-induced and natural immunity. Here we review the mutational landscape on the SARS-CoV-2 structural and non-structural proteins and their impact on diagnostics, therapeutics and vaccines. We also look at the effectiveness of approved vaccines, antibody therapy and convalescent plasma on the currently prevalent VOCs, which are B.1.17, B.1.351, P.1, B.1.617.2 and B.1.1.529. We further discuss the possible factors influencing mutation rates and future directions.

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Section: Variations In Sars-cov-2 Genome and Proteomementioning

confidence: 99%

Section: Variations In Sars-cov-2 Genome and Proteomementioning

confidence: 99%

SARS-CoV-2 Mutations and Their Impact on Diagnostics, Therapeutics and Vaccines

Thakur¹,

Sasi²,

et al. 2022

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“…The recent outbreak of the COVID-19 pandemic from Wuhan province of China has shackled the world, causing severe damage to the world population and economy, which is still persistent and threatening the nations despite the fast development of various vaccines claiming to be up to >90% efficacy against the virus [ 92 – 94 ]. Human coronavirus has been linked to mild to severe respiratory tract infections in humans.…”

Section: Resultsmentioning

confidence: 99%

“…The genome of the human coronavirus is made up of ssRNA that encodes various structural and non-structural genes. Envelope protein (E), membrane protein (M), and spike protein (S) embedded in lipid bilayers aid the virus in host entry and assimilation [ 94 ]. S protein is responsible for virus binding and cell entry into a host body.…”

Section: Resultsmentioning

confidence: 99%

Investigating host-virus interaction mechanism and phylogenetic analysis of viral proteins involved in the pathogenesis

et al. 2021

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Since the emergence of yellow fever in the Americas and the devastating 1918 influenza pandemic, biologists and clinicians have been drawn to human infecting viruses to understand their mechanisms of infection better and develop effective therapeutics against them. However, the complex molecular and cellular processes that these viruses use to infect and multiply in human cells have been a source of great concern for the scientific community since the discovery of the first human infecting virus. Viral disease outbreaks, such as the recent COVID-19 pandemic caused by a novel coronavirus, have claimed millions of lives and caused significant economic damage worldwide. In this study, we investigated the mechanisms of host-virus interaction and the molecular machinery involved in the pathogenesis of some common human viruses. We also performed a phylogenetic analysis of viral proteins involved in host-virus interaction to understand the changes in the sequence organization of these proteins during evolution for various strains of viruses to gain insights into the viral origin’s evolutionary perspectives.

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“…PARK7 acts as both a causative and carcinogenic gene and plays a crucial role in oxidative stress [10]. Because mutations in PARK7 cause various complex diseases, we studied several variants of PARK7 using state-of-the-art computational approaches [12][13][14][15][16]. We took 152 mutations of the whole protein to explore their consequences in disease progression.…”

Section: Introductionmentioning

confidence: 99%

Impact of Single Amino Acid Substitutions in Parkinsonism-Associated Deglycase-PARK7 and Their Association with Parkinson’s Disease

Anjum

Joshia

Shafie

et al. 2022

JPM

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Parkinsonism-associated deglycase-PARK7/DJ-1 (PARK7) is a multifunctional protein having significant roles in inflammatory and immune disorders and cell protection against oxidative stress. Mutations in PARK7 may result in the onset and progression of a few neurodegenerative disorders such as Parkinson’s disease. This study has analyzed the non-synonymous single nucleotide polymorphisms (nsSNPs) resulting in single amino acid substitutions in PARK7 to explore its disease-causing variants and their structural dysfunctions. Initially, we retrieved the mutational dataset of PARK7 from the Ensembl database and performed detailed analyses using sequence-based and structure-based approaches. The pathogenicity of the PARK7 was then performed to distinguish the destabilizing/deleterious variants. Aggregation propensity, noncovalent interactions, packing density, and solvent accessible surface area analyses were carried out on the selected pathogenic mutations. The SODA study suggested that mutations in PARK7 result in aggregation, inducing disordered helix and altering the strand propensity. The effect of mutations alters the number of hydrogen bonds and hydrophobic interactions in PARK7, as calculated from the Arpeggio server. The study indicated that the alteration in the hydrophobic contacts and frustration of the protein could alter the stability of the missense variants of the PARK7, which might result in disease progression. This study provides a detailed understanding of the destabilizing effects of single amino acid substitutions in PARK7.

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Genomic Variations in the Structural Proteins of SARS-CoV-2 and Their Deleterious Impact on Pathogenesis: A Comparative Genomics Approach

Cited by 59 publications

References 167 publications

SARS-CoV-2 Mutations and Their Impact on Diagnostics, Therapeutics and Vaccines

SARS-CoV-2 Mutations and Their Impact on Diagnostics, Therapeutics and Vaccines

Investigating host-virus interaction mechanism and phylogenetic analysis of viral proteins involved in the pathogenesis

Impact of Single Amino Acid Substitutions in Parkinsonism-Associated Deglycase-PARK7 and Their Association with Parkinson’s Disease

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