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Enfermedades infecciosas y microbiologia clinica (English ed.)
05, 2023;41 (5): 284-289.

Validation of a new strategy for the identification of SARS-CoV-2 variants by sequencing the spike gene by Sanger.

Enderson Murillo, Katherine Palacio-Rua, Carlos Afanador-Ayala, Juan Felipe García-Correa, Andrés F Zuluaga
Author Information
  1. Enderson Murillo: Laboratorio Integrado de Medicina Especializada (LIME), Facultad de Medicina, IPS Universitaria, Universidad de Antioquia, Antioquia, Colombia.
  2. Katherine Palacio-Rua: Laboratorio Integrado de Medicina Especializada (LIME), Facultad de Medicina, IPS Universitaria, Universidad de Antioquia, Antioquia, Colombia.
  3. Carlos Afanador-Ayala: Laboratorio Integrado de Medicina Especializada (LIME), Facultad de Medicina, IPS Universitaria, Universidad de Antioquia, Antioquia, Colombia.
  4. Juan Felipe García-Correa: Laboratorio Integrado de Medicina Especializada (LIME), Facultad de Medicina, IPS Universitaria, Universidad de Antioquia, Antioquia, Colombia.
  5. Andrés F Zuluaga: Laboratorio Integrado de Medicina Especializada (LIME), Facultad de Medicina, IPS Universitaria, Universidad de Antioquia, Antioquia, Colombia. Electronic address: andres.zuluaga@udea.edu.co.
PMID: 37144832 DOI: 10.1016/j.eimce.2022.10.003

Abstract

INTRODUCTION: The emergence of multiple variants of SARS-CoV-2 during the COVID-19 pandemic is of great world concern. Until now, their analysis has mainly focused on next-generation sequencing. However, this technique is expensive and requires sophisticated equipment, long processing times, and highly qualified technical personnel with experience in bioinformatics. To contribute to the analysis of variants of interest and variants of concern, increase the diagnostic capacity, and process samples to carry out genomic surveillance, we propose a quick and easy methodology to apply, based on Sanger sequencing of 3 gene fragments that code for protein spike.
METHODS: Fifteen positive samples for SARS-CoV-2 with a cycle threshold below 25 were sequenced by Sanger and next-generation sequencing methodologies. The data obtained were analyzed on the Nextstrain and PANGO Lineages platforms.
RESULTS: Both methodologies allowed the identification of the variants of interest reported by the WHO. Two samples were identified as Alpha, 3 Gamma, one Delta, 3 Mu, one Omicron, and 5 strains were close to the initial Wuhan-Hu-1 virus isolate. According to in silico analysis, key mutations can also be detected to identify and classify other variants not evaluated in the study.
CONCLUSION: The different SARS-CoV-2 lineages of interest and concern are classified quickly, agilely, and reliably with the Sanger sequencing methodology.

Keywords

Mutaciones Mutations Next generation sequencing Proteína Espiga SARS-CoV-2 Sanger sequencing Secuenciación Sanger Secuenciación de nueva generación Spike protein Variante de interés Variante de preocupación Variants of concern Variants of interest

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MeSH Term

Humans
SARS-CoV-2
COVID-19
Pandemics
High-Throughput Nucleotide Sequencing
Journal Article
Article has an altmetric score of 3

Word Cloud

Created with Highcharts 10.0.0sequencingvariantsSangerSARS-CoV-2concerninterestanalysissamples3denext-generationmethodologygeneproteinspikemethodologiesidentificationoneSecuenciaciónVarianteVariantsINTRODUCTION:emergencemultipleCOVID-19pandemicgreatworldnowmainlyfocusedHowevertechniqueexpensiverequiressophisticatedequipmentlongprocessingtimeshighlyqualifiedtechnicalpersonnelexperiencebioinformaticscontributeincreasediagnosticcapacityprocesscarrygenomicsurveillanceproposequickeasyapplybasedfragmentscodeMETHODS:Fifteenpositivecyclethreshold25sequenceddataobtainedanalyzedNextstrainPANGOLineagesplatformsRESULTS:allowedreportedWHOTwoidentifiedAlphaGammaDeltaMuOmicron5strainscloseinitialWuhan-Hu-1virusisolateAccordingsilicokeymutationscanalsodetectedidentifyclassifyevaluatedstudyCONCLUSION:differentlineagesclassifiedquicklyagilelyreliablyValidationnewstrategyMutacionesMutationsNextgenerationProteínaEspiganuevageneraciónSpikeinteréspreocupación

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