Epidemiological Research Solutions for SARS-CoV-2 (COVID-19)

Identifying the types and subtypes of viruses is essential to good disease control. A wide variety of research methods can be used to differentiate virus variants of which molecular techniques are used most frequently. By sequencing a specific variable region of the viral genome, one can investigate whether selected isolates of a certain species are phylogenetically related. A major challenge for microbiologists and virologists is the prediction of patterns of evolution and emergence of disease agents. RNA viruses like SARS-CoV-2 (the coronavirus responsible for COVID-19) share the biological feature of high genetic variability, which causes them to appear as clouds of mutants. Advanced molecular technologies like next-generation sequencing (NGS) enables complete SARS-CoV-2 genome sequencing, including all variants and potential serotypes.

The Ion AmpliSeq SARS-CoV-2 Insight Research Assay is designed to cover more than 99% of the SARS-CoV-2 genome, including all potential serotypes, and can be used for complete viral genome sequencing and variant detection.  The assay is part of a fast, automated, and accurate targeted NGS workflow that enables coronavirus typing in under a day. This end-to-end solution includes the assay and plug-in suite that was developed in collaboration with researchers at the forefront of the SARS-CoV-2 crisis.

The Ion AmpliSeq SARS CoV-2 Insight Research Assay is now available for the Ion Torrent Genexus Integrated Sequencer. This new NGS solution enables you to rapidly go from nucleic acid to variant report in less than a single day with minimal hands-on time.

Learn more about our portfolio of Ion Torrent NGS instrumentation for SAR-CoV-2 research or request project costs.

De novo sequencing using Ion Torrent NGS

In addition to targeted sequencing, which covers >99% of the viral genome and variants, Ion Torrent systems can be used for hypothesis-free (de novo) genome sequencing of SARS-CoV-2 by NGS.

Accurate understanding and monitoring of the SARS-CoV-2 virus is essential for effective response. Monitoring is important to help public health decision makers know where the disease is, how quickly it is spreading, and to longitudinally monitor the effectiveness of public health measures on outbreak containment or mitigation. Monitoring also plays a role in understanding cross-species transmission of the virus and its spatial spread over evolutionary time and at human-wildlife interfaces. We offer several cost-effective molecular tools for SARS-CoV-2 disease monitoring research, from technologies like real-time PCR and Sanger sequencing for specific genes/targets to whole genome sequencing to capture all variants using NGS.

Targeted NGS workflow for SARS-CoV-2

Targeted NGS is a rapid and accurate solution for viral genomes, suitable for monitoring SARS-CoV-2 infection and spread, including zoonotic transmission. Ion Torrent targeted NGS solutions provide ultra-high sensitivity, scalability, and rapid turnaround time, which are all vital to viral monitoring and investigation research. It enables a streamlined research workflow for complete genome sequencing and epidemiological studies of SARS-CoV-2.

The Ion AmpliSeq SARS-CoV-2 Insight Research Assay is designed to cover more than 99% of the SARS-CoV-2 genome, including all potential serotypes, and can be used for complete viral genome sequencing and variant detection.  The assay is part of a fast, automated, and accurate targeted NGS workflow that enables coronavirus typing in under a day. This end-to-end solution includes the assay and plug-in suite that was developed in collaboration with researchers at the forefront of the SARS-CoV-2 crisis.

Learn more about our portfolio of Ion Torrent NGS instrumentation for SAR-CoV-2 research or request project costs.

Real-time PCR can be used to research viral and human genetic determinants that influence the distribution and patterns of disease conditions within a population or large sample size. Real-time PCR testing takes less than 40 minutes, is accurate to <10-copy detection, and has an affordable cost per sample.

SARS-CoV-2 has shown us that the time to and reproducibility of results are critical in potentially mitigating the impact of a crisis. A rigorous, reproducible workflow built on automation and integrated connectivity produces consistent results with fewer errors, while a coordinated ecosystem gives you complete control and oversight of your research. The following products used in concert with our suite of digital solutions enables you to connect everything: lab automation, data management, and digital partners, to help you move faster when timing is critical.

Learn more about our real-time PCR solutions for SARS-CoV-2 research ›

Sanger sequencing is a simple, fast, and cost-effective orthogonal gold-standard method to monitor SARS-CoV-2 identified by NGS or by RT-PCR.  The entire workflow can be completed, from sample to answer, in less than one workday. It is being used by several labs globally to confirm the identity of SARS-CoV-2 in wastewater samples. It is also being used to confirm the origin and cross-species transmission of different coronaviruses, which is important in understanding potential sources of zoonotic transmission (1-3).

• Blog post: SARS-CoV-2 in Wastewater: A Potential Early-Warning Method

Fragment analysis by capillary electrophoresis (CE) provides an attractive method for  rapid testing of multiple targets. Multiplexed qPCR solutions detect small numbers of pathogens. The relatively small capacity of multiplexed qPCR reactions can limit throughput when large numbers of targets or pathogens need to be detected. Fragment analysis gives researchers another tool for analyzing the presence of genomic sequences of pathogenic organisms using a method that is rapid, simple, and sensitive.

•  Protocol: Detection of RNA from SARS-CoV-2 using fragment analysis ›
• Application Note: Multiplex target fragment analysis for detection of viral pathogens including SARS-CoV-2 ›

Fragment analysis by CE can be used to identify microbial signatures associated with different disease phenotypes. It relies on amplification of 16S-23S rRNA interspace (IS) regions in bacteria to produce PCR fragments that vary in length and frequency depending upon bacterial species. Each PCR fragment can be separated and detected on a genetic analyzer. The resulting fragment patterns are compared to a curated database to determine the species present in the sample.

• Blog post: Could Differences in Microbiota Explain Variability in SARS-CoV-2 Susceptibility?
• Learn more about Sanger sequencing and fragment analysis solutions for SARS-CoV-2 research ›

Top

Viral nucleic acid isolation for SARS-CoV-2 research

Prior to any NGS-based epidemiological study of SARS-CoV-2, researchers need to quickly and efficiently isolate RNA. Features of the MagMAX Viral/Pathogen Nucleic Acid Isolation Kit include:

• Automation-ready protocols designed for Thermo Scientific KingFisher systems
• Flexible protocols accommodate multiple sample types and input volumes
• Recommended for viral nucleic acid isolation for SARS-CoV-2 to obtain high-quality nucleic acid

For fast, easy, and effective high-throughput sample processing, automate your nucleic acid isolation with the KingFisher Purification systems, a versatile benchtop instrument for the processing of 24 or 96 samples per run. Features of this system include:

• Easy to install and run (ready to run in 10 minutes or less)
• Download existing protocols from a library, or easily customize protocols using Thermo Scientific BindIt Software

Avoid high levels of contaminating DNA and RNases and maintain a nuclease-free lab with RNaseZap solutions and nuclease-free water, buffers and reagents, and tips and tubes products:

• RNaseZap solution—a room temperature-stable solution for surface decontamination
• Invitrogen Nuclease-Free Water—for nucleic acid isolation, rigorously tested for contaminating nonspecific endonuclease, exonuclease, and RNase activity
• Invitrogen nuclease-free buffers and reagents—commonly used Ambion RNA storage buffers and other buffers and reagents that are rigorously tested for nuclease contamination
• Nuclease-free tips and tubes—a nuclease-free range of plasticware for use in nucleic acid isolation and storage
• Molecular Biology Grade Ethanol—for use in viral nucleic acid purification

Next-generation sequencing—library preparation for Illumina systems

Collibri Library Prep Kits for Illumina Systems enhance next-generation sequencing (NGS)-based viral surveillance with higher quality sequences and rapid protocols. Full-length genomic coverage can improve the accuracy of monitored transmission patterns and mutation rates of SARS-CoV-2. Unlike transposomic methods, the Collibri DNA Library Prep Kits for Illumina Systems provide full-length, hypothesis-free, genomic coverage using a library prep method that is completed in 1.5 hours. Collibri DNA Library Prep Kits are suitable for genomes of all sizes.

cDNA synthesis for epidemiological research

Invitrogen SuperScript reverse transcriptases were developed for improved thermostability, processivity, and cDNA yields to enable superior performance with even the most challenging RNA samples. With over 50,000 citations, reviews, and publications, SuperScript reverse transcriptases are the superior choice for vaccine development.

See what other researchers are saying at www.thermofisher.com/ssiv