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Related Concept Videos

DNA Isolation01:24

DNA Isolation

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DNA isolation protocols can be fast and straightforward or complex and time-consuming depending on the type and quality of DNA required for further processing. For example, plasmid DNA extraction is a bit more complicated than genomic DNA extraction because of the need for an appropriate lysis method to separate plasmid DNA from gDNA during isolation. However, for specific applications, such as long-range DNA sequencing that require a good yield of high- quality DNA samples, we need to follow...
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Updated: Oct 28, 2025

Rapid, Safe, and Simple Manual Bedside Nucleic Acid Extraction for the Detection of Virus in Whole Blood Samples
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Extractionless nucleic acid detection: a high capacity solution to COVID-19 testing.

Shairaz Baksh1, Natalia Volodko2, Merle Soucie2

  • 1DynaLIFE Medical Labs, Edmonton, Alberta, Canada; BioImmuno Designs, Edmonton, Alberta, Canada.

Diagnostic Microbiology and Infectious Disease
|July 18, 2021
PubMed
Summary
This summary is machine-generated.

A new heat-based, extractionless protocol for SARS-CoV-2 detection using real-time reverse transcriptase-PCR (rRT-PCR) offers accurate, cost-effective COVID-19 testing. This method significantly increases testing capacity and reduces turnaround time for results.

Keywords:
COBAS 4800COVID-19E-geneExtractionlessHeat extractionN1-geneN2-geneOrf1ab geneQuantabioRdRp geneRocheSARS-CoV-2

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Filtration Isolation of Nucleic Acids: A Simple and Rapid DNA Extraction Method
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Filtration Isolation of Nucleic Acids: A Simple and Rapid DNA Extraction Method

Published on: August 6, 2016

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Area of Science:

  • Molecular Biology
  • Virology
  • Clinical Diagnostics

Background:

  • Accurate and rapid detection of SARS-CoV-2 is crucial for controlling the COVID-19 pandemic.
  • Traditional nucleic acid extraction methods are time-consuming and require specialized equipment, limiting testing capacity.
  • Development of simplified, high-throughput diagnostic protocols is essential.

Purpose of the Study:

  • To develop and validate an extractionless real-time reverse transcriptase-PCR (rRT-PCR) protocol for SARS-CoV-2 detection.
  • To evaluate the impact of temperature, transport media, mastermixes, and gene assays on assay performance.
  • To assess the sensitivity, specificity, and capacity of the developed protocol for COVID-19 testing.

Main Methods:

  • An extractionless rRT-PCR protocol utilizing heat for SARS-CoV-2 nucleic acid detection was developed.
  • The effects of temperature, transport media, rRT-PCR mastermixes, and gene assays (E, N1, Orf1ab) on amplification and limit of detection were investigated.
  • Singleplex and multiplex (E/N1, Orf1ab/N1) assay combinations were tested.

Main Results:

  • The heated methodology achieved limits of detection of 12.5 genome copies/reaction for singleplex E-gene and 1 genome copy/reaction for singleplex N1-gene assays.
  • Multiplex assays (E/N1, Orf1ab/N1) achieved a limit of detection of 1 genome copy/reaction.
  • The protocol successfully detected SARS-CoV-2 in up to 98% of analyzed positive patient samples, including weak positives.

Conclusions:

  • The developed extractionless rRT-PCR protocol is an accurate, cost-effective, and high-capacity solution for SARS-CoV-2 detection.
  • This approach enables a >2-fold increase in testing capacity, eliminates the need for expensive extraction devices, and significantly reduces turnaround time.
  • The protocol demonstrates high sensitivity suitable for reliable COVID-19 diagnosis.