grant

Effect of natural and engineered variations on structure and biophysics of SARS-CoV-2 spike

Organization DUKE UNIVERSITYLocation DURHAM, UNITED STATESPosted 1 Feb 2022Deadline 31 Jan 2027
NIHUS FederalResearch GrantFY20262019 novel corona virus2019 novel coronavirus2019-nCoV2019-nCoV S protein2019-nCoV spike glycoprotein2019-nCoV spike proteinAntibodiesAntigensB.1.1.7B.1.351B.1.617.2BiochemicalBiochemistryBiologicalBiological ChemistryBiophysicsCOVID-19COVID-19 S proteinCOVID-19 predispositionCOVID-19 spikeCOVID-19 spike glycoproteinCOVID-19 spike proteinCOVID-19 susceptibilityCOVID-19 virusCOVID-19 vulnerabilityCOVID19 virusCV-19CoV S proteinCoV glycoprotein SCoV spike glycoproteinCoV spike proteinCoV-2CoV2CommunicationComputing MethodologiesCoronaviridaeCoronavirusCoronavirus Infectious Disease 2019Coronavirus disease 2019 predispositionCoronavirus disease 2019 susceptibilityCoronavirus disease 2019 vulnerabilityCoronavirus glycoprotein SCoronavirus spike proteinCryo-electron MicroscopyCryoelectron MicroscopyDNA mutationDataData SetDelta variantDevelopmentEconomicsElectron CryomicroscopyElectron MicroscopyEmergenciesEmergency SituationEngineeringEpitheliasin GeneEsteroproteasesEvolutionFundingGenetic ChangeGenetic defectGenetic mutationGenetics-MutagenesisGoalsGrantImmune EvasionIn VitroKineticsLife CycleLife Cycle StagesLinkMeasuresMethodsMinkMolecularMolecular ConfigurationMolecular ConformationMolecular StereochemistryMutagenesisMutagenesis Molecular BiologyMutationNational Institutes of HealthNegative StainingOrthocoronavirinaePRSS10PathogenesisPeptidasesPeptide HydrolasesPeptidesPopulationPositionPositioning AttributePredisposed to COVID-19Predisposed to SARS-CoV-2Predisposed to Severe acute respiratory syndrome coronavirus 2PredispositionPropertyProtease GeneProteasesProtein CleavageProtein ConformationProteinasesProteinsProteolysisProteolytic EnzymesProtomerReceptor ProteinRecurrenceRecurrentReportingResearchResistanceResolutionRoleSARS corona virus 2SARS-CO-V2SARS-COVID-2SARS-CoV-2SARS-CoV-2 B.1.1.7SARS-CoV-2 B.1.351SARS-CoV-2 B.1.617.2SARS-CoV-2 SSARS-CoV-2 S proteinSARS-CoV-2 alphaSARS-CoV-2 betaSARS-CoV-2 deltaSARS-CoV-2 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respiratory syndrome coronavirus 2 susceptibilitySevere acute respiratory syndrome coronavirus 2 vulnerabilitySevere acute respiratory syndrome related corona virus 2Single Crystal DiffractionSiteSouth Africa strainSouth Africa variantSouth African strainSouth African variantStructureSurfaceSusceptibilityTMPRSS2TMPRSS2 geneTechniquesTechnologyU.K. variantUK strainUK variantUnited Kingdom variantUnited States National Institutes of HealthVaccinesVariantVariationViralVirusWorkWuhan coronavirusX Ray CrystallographiesX-Ray CrystallographyX-Ray Diffraction CrystallographyX-Ray/Neutron CrystallographyXray Crystallographyadvanced simulationanti-viral developmentanti-viral drug developmentanti-viral therapeutic developmentanti-viral therapy developmentantiviral developmentantiviral drug developmentantiviral therapeutic developmentantiviral therapy developmentbeta CoVbeta coronavirusbetaCoVbetacoronavirusbiologicbiophysical analysisbiophysical foundationbiophysical principlesbiophysical 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Full Description

Effect of natural and engineered variations on structure and biophysics of SARS-CoV-2 spike
COVID-19, caused by SARS-CoV-2, has devasted global health and economics. Vaccines are being deployed worldwide to gain control of the pandemic, although emergence of fast-spreading “variants of concern” (VOCs) have caused concern. Mutations in the spike (S) protein are under scrutiny due to its essential role in the virus life cycle, and being the dominant target of neutralizing antibodies. The current spread of the Delta variant provides fertile ground for emergence of resistant variants. We and others have shown that variants use a plethora of strategies to modify antibody and receptor interactive surfaces, and spike conformation, resulting in antibody evasion and greater infectivity. Over the last two years, utilizing urgent supplement funding from the NIH, we studied the structures of SARS-CoV-2 S proteins and have established workflows spanning structure, biochemistry, biophysics and computation. Here we propose to continue the essential work of detangling the effects of variant S protein mutations, and to enhance our understanding of spike structure to further efforts to predict where the virus is heading and to inform strategies for development of antiviral countermeasures. The scientific premise of this grant is that understanding spike structure and allostery will provide insights into its function, inform the development of antiviral countermeasures, and provide mechanistic information essential for relating spike structure to beta-CoV replication, evolution, and immune evasion. The innovations in this grant derive from technologies we have developed for structural analyses of the S protein: an integrative structural biology pipeline combines cryo-electron microscopy (cryo-EM), Negative Stain Electron Microscopy (NSEM) and X-ray crystallography, with computational methods, and biochemical and biophysical analyses to study structural and functional properties of the spike, including furin cleavage, receptor binding, and antigenicity..

Grant Number: 5R01AI165947-05
NIH Institute/Center: NIH
Principal Investigator: Priyamvada Acharya

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