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 SARS_CoV_2 mutation literature information.


  Evidence for retained spike-binding and neutralizing activity against emerging SARS-CoV-2 variants in serum of COVID-19 mRNA vaccine recipients.
 PMID: 34688034       2021       EBioMedicine
Discussion: The least negative impact on neutralization was seen for Iota variant, which is reasonable since this isolate has very few changes in the spike protein (T95I, D253G and D614G) compared to the wild type WA1 isolate.


  Evaluation of the clinical and analytical performance of the Seegene allplex SARS-CoV-2 variants I assay for the detection of variants of concern (VOC) and variants of interests (VOI).
 PMID: 34628158       2021       Journal of clinical virology
Table: D253G


  Serum Neutralizing Activity of mRNA-1273 against SARS-CoV-2 Variants.
 PMID: 34549975       2021       Journal of virology
Table: D253G


  Contribution of single mutations to selected SARS-CoV-2 emerging variants spike antigenicity.
 PMID: 34536797       2021       Virology
Result: The same phenotype is applicable to most of its mutations, with the exception of D253G substitution in the NTD, which showed a modest ~1.2-fold decrease in binding.


  Genomic mutations and changes in protein secondary structure and solvent accessibility of SARS-CoV-2 (COVID-19 virus).
 PMID: 33568759       2021       Scientific reports
Table: D253G


  Community-level SARS-CoV-2 sequence diversity revealed by wastewater sampling.
 PMID: 34438144       2021       The Science of the total environment
Table: D253G


  Emergence and expansion of SARS-CoV-2 B.1.526 after identification in New York.
 PMID: 34428777       2021       Nature
Method: We assayed the neutralizing activity of monoclonal antibodies, convalescent plasma and vaccinee sera against E484K, S477N and wild-type (D614G) pseudoviruses, as well as pseudovirus NYDelta5 containing all five signature mutations of B.1.526-E484K (L5F, T95I, D253G, E484K, D614G and A701V), as previously described.
Figure: a, Neutralizing activities of 12 monoclonal antibodies against pseudoviruses containing E484K alone or all five signature B.1.526 mutations (L5F, T95I, D253G,


  Detection and characterization of the SARS-CoV-2 lineage B.1.526 in New York.
 PMID: 34373458       2021       Nature communications
Result: Regarding four of the spike mutations prevalent in this lineage: (1) E484K is known to attenuate neutralization of multiple anti-SARS-CoV-2 antibodies, particularly those found in class 2 anti-RBD neutralizing antibodies, and is also present in variants B.1.351 and P.1/B.1.1.248, (2) D253G has been reported as an escape mutation from antibodies against the N-terminal domain, (3) S477N has been identified in several earlier lineages, is near the epitopes of multiple antibodies, and has been implicated to increase viral infectivity through enhanced interactions with ACE2, and (4) A701V sits adjacent to the S2' cleavage site of the neighboring protomer and is shared with variant B.1.351.
Figure: a Pseudovirus with sp


  B.1.526 SARS-CoV-2 Variants Identified in New York City are Neutralized by Vaccine-Elicited and Therapeutic Monoclonal Antibodies.
 PMID: 34311587       2021       mBio
Introduction: The D253G mutation is located in the amino-terminal supersite that serves as a binding site for neutralizing antibodies, while A701V is located adjacent to the furin processing site.
Introduction: The B.1.526 variant spike proteins contain the D614G mutation, a shared set of novel mutations (L5F, T95I, D253G, and A701V
Introduction: Two versions of B.1.526 were identified, both having the D614G and A701V mutations and, in addition, the mutations L5F, T95I, and D253G, which are not present in previously reported variants.


  Mutational analysis in international isolates and drug repurposing against SARS-CoV-2 spike protein: molecular docking and simulation approach.
 PMID: 34307771       2021       Virusdisease
Table: D253G



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