In-House, Rapid, and Low-Cost SARS-CoV-2 Spike Gene Sequencing Protocol to Identify Variants of Concern Using Sanger Sequencing

  1. Fatimah S. Alhamlan
  2. Dana M. Bakheet
  3. Marie F. Bohol
  4. Madain S. Alsanea
  5. Basma M. Alahideb
  6. Faten M. Alhadeq
  7. Feda A. Alsuwairi
  8. Maha Al-Abdulkareem
  9. Mohamed S. Asiri
  10. Reem S. Almaghrabi
  11. Sarah A. Altamimi
  12. Maysoon S. Mutabagani
  13. Sahar I. Althawadi
  14. Ahmed A. Alqahtani
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Abstract

Background

The need for active genomic sequencing surveillance to rapidly identify circulating SARS-CoV-2 variants of concern (VOCs) is critical. However, increased global demand has led to a shortage of commercial SARS-CoV-2 sequencing kits, and not every country has the technological capability or the funds for high-throughput sequencing platforms. Therefore, this study aimed to develop and validate a rapid, cost-efficient genome sequencing protocol that uses supplies, equipment, and methodologic expertise available in standard molecular or diagnostic laboratories to identify circulating SARS-CoV-2 variants of concern.

Methods

Sets of primers flanking the SARS-CoV-2 spike gene were designed using SARS-CoV-2 genome sequences retrieved from the Global Initiative on Sharing Avian Influenza Data (GISAID) Database and synthesized in-house. Primer specificity and final sequences were verified using online prediction analyses with BLAST. The primers were validated using 282 nasopharyngeal samples collected from patients assessed as positive for SARS-CoV-2 at the diagnostic laboratory of the hospital. The patient samples were subjected to RNA extraction followed by cDNA synthesis, conventional polymerase chain reaction, and Sanger sequencing. Protocol specificity was confirmed by comparing these results with SARS-CoV-2 whole genome sequencing of the same samples.

Results

Sanger sequencing using the newly designed primers and next-generation whole genome sequencing of 282 patient samples indicated identical VOCs results: 123 samples contained the alpha variant (B.1.1.7); 78, beta (B.1.351), 0, gamma (P.1), and 13, delta (B.1.617.2). The remaining samples were not 100% identical to the reference genome; however, 99.97% identity indicated that there was minimal variation as the virus spread throughout the nation. Only four samples had poor sequence quality by Sanger sequencing owing to a low RNA count (Ct value >38). Therefore, mutation calls were >98% accurate.

Conclusions

Sanger sequencing method using in-house primers is an alternative approach that can be used in facilities with existing equipment to mitigate limitations in high throughput supplies required to identify SARS-CoV-2 variants of concern during the COVID-19 pandemic. This protocol is easily adaptable for detection of emerging variants.

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