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Viral surveillance

  1. Infectious disease research
  2. Viral surveillance

Overview

Viral surveillance allows researchers to track the spread of viral infectious diseases over time and determine the intensity of outbreaks at a community level.

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What is viral surveillance?

Viral surveillance allows researchers to monitor the spread of viral infectious diseases over time and geographic space and determine the intensity of outbreaks at a community level. Viral infectious diseases can spread through a population when individuals are exposed to contaminated food, water, animals or to people who are infected with a virus. Examples of viral infectious diseases include but are not limited to influenza, human immunodeficiency virus (HIV), Ebola, Zika, Middle East Respiratory syndrome (MERS), COVID-19, and monkeypox.

Types of viral surveillance methods

Case surveillance

One way of monitoring the spread of viral infectious diseases is called case surveillance. This is a global effort which has medical professionals report cases of viral infectious diseases of interest (e.g., MERS) as they are identified, usually through rapid approaches such as antibody-based immunological assays, qPCR, PCR, and next generation sequencing (NGS). Case surveillance can be a very effective method for tracking viral outbreaks, however it does imply that individuals need to be symptomatic in order to be tested positive for infectious viral diseases. Therefore, while this method does effectively monitor viral spread, it can fail to give early warnings about new outbreaks to public health officials.

Wastewater surveillance

Viral surveillance using wastewater-based epidemiology (WBE), or wastewater surveillance has proven to be instrumental in understanding and responding to the spread of COVID-19, as well as monitoring emerging variants [1]. This approach to viral surveillance observes community infection rates at a large scale because individuals infected with SARS-CoV-2 shed viral particles in their feces even if they are asymptomatic. The result of this method is that researchers can capture outbreak events earlier and observe, at the community level, people that are not yet symptomatic [1].

qPCR and amplicon sequencing have both been used to track SARS-CoV-2 in wastewater samples. qPCR can provide information concerning the viral loads present in samples [2], while amplicon sequencing has been used to gather data about SARS-CoV-2 variants circulating in a population [1-3]. Amplicon sequencing is a type of targeted NGS that allows researchers to enrich for and sequence genetic information from only organisms of interest. When researchers use amplicon sequencing panels, they can target multiple regions of DNA and amplify or enrich those regions in their samples.

Future potential benefits of wastewater surveillance also include approaches to track multiple infectious diseases at the same time. This could be done either through deep-sequencing, untargeted NGS methods [2] or through expanding targeted NGS technologies that allow researchers to simultaneously monitor multiple diseases.

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NGS solutions made for SARS-CoV-2 research

There are multiple factors to consider when choosing the best NGS approach for your SARS-CoV-2 research needs.

Download this 6-page brochure to explore amplicon sequencing and hybridization capture options that may be right for you.

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Applicable viral surviellance technologies

SARS-CoV-2 sequencing

When it mattered most, xGen™ COVID-19 NGS solutions enabled researchers to sequence the SARS-CoV-2 genome and its variants. You can count on xGen NGS solutions to continue providing innovative products for viral variant identification, tracking, and surveillance.

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Amplicon sequencing

Amplicon sequencing is a type of targeted next generation sequencing that uses PCR to create DNA sequences called amplicons. It is simple and fast with a variety of applications.

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Targeted next generation sequencing

Targeted next generation sequencing (NGS) focuses on specific regions of interest in the genome. With targeted NGS, researchers can target specific genes, coding regions, or even chromosomal segments at deeper coverage than alternative sequencing methods, obtaining fast, accurate, and precise genomic insights. 

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Targeted RNA sequencing

Targeted RNA sequencing with exome, custom, or predesigned hyb capture panels has high mapping on-target percentage and low duplication rates. Hyb capture decreases intronic and intergenic reads to focus your data on your sequences of interest.

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Targeted DNA sequencing

For nearly 30 years, IDT has been by your side as the global leader in oligonucleotide synthesis. Targeted DNA Sequencing extends this commitment across a broad range of custom or ready-made solutions to help you reach the next phase of your research with consistency and reliability.

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Whole Genome Sequencing

A genome is the entire DNA sequence of an organism. The DNA contains the instructions for how a living organism is formed. Whole genome sequencing (WGS) is a next generation sequencing application that determines the entire DNA sequence all at once. The alternative to WGS is targeted next generation sequencing, which sequences part of the genome.

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Explore IDT's products for viral surveillance

xGen SARS-CoV-2 Amplicon Panel

Ready-to-order panel of multiplexed primers that creates 345 overlapping amplicons of SARS-CoV-2 genomic material for NGS sequencing. Resulting data can be used to research viral variants and improve understanding of virus evolution and transmission.

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SARS-CoV-2 ARTIC Amplicon Panel

The ARTIC panel consists of 98 primers in two pools that amplify SARS-CoV-2 viral genomes. The sequencing data can elucidate the presence of mutations consistent with known variants or identify new variants in research studies.

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SARS-CoV-2 Midnight Amplicon Panel

Amplicon panel that amplifies SARS-CoV-2 genomic material from research samples that can be used to study the spread of the virus, identify variants, and provide information to better understand COVID-19.

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xGen SARS-CoV-2 Hyb Panel

The xGen SARS-CoV-2 Hyb Panel for research spans the complete viral genome and is not susceptible to known and novel mutations arising from diverse strains.

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xGen Monkeypox Virus Amplicon Panel

xGen Amplicon Technology uses overlapping primer sets to provide comprehensive coverage of positions 6760-190905 (ITRs not included) from as few as 300 monkeypox viral genomes. Track the spread in a single-tube, with a 2.5 hour workflow.

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xGen Custom Amplicon Panels

Start from scratch. We’ll help you through the design process to create a unique panel for you to cover exactly what you need for your research inquiries.

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xGen ssDNA & Low-Input DNA Library Prep Kit

The xGen ssDNA & Low-Input DNA Library Prep Kit enables preparation of libraries from degraded and damaged ssDNA and dsDNA samples in a single reaction. This kit allows users to sequence difficult-to-process samples via unique, proprietary Adaptase™ technology.

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References

  1. Karthikeyan S, Levy JI, De Hoff P, et al. Wastewater sequencing reveals early cryptic SARS-CoV-2 variant transmission. Nature. 2022.
  2. Spurbeck RR, Minard-Smith A, Catlin L. Feasibility of neighborhood and building scale wastewater-based genomic epidemiology for pathogen surveillance. Sci Total Environ. 2021;789:147829.
  3. Fontenele RS, Kraberger S, Hadfield J, et al. High-throughput sequencing of SARS-CoV-2 in wastewater provides insights into circulating variants. Water Res. 2021;205:117710.
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