Confident detection of H5N1 influenza A

Influenza A · H5N1 · Clade 2.3.4.4b
EasyScreen™ Respiratory Pathogen Detection Kit detects 100% of analysed H5N1 sequences
Influenza A H5N1, clade 2.3.4.4b, has emerged worldwide – primarily in birds, and in cattle and feline species in North America. The virus has now been identified in Australia.
Genetic Signatures pan-FluA assay is confirmed to effectively detect all known isolates of H5N1.
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3,275 H5N1 sequences analysed from GISAID |
98.9% sequences with 100% primer match |
100% within expected detection range |
In-silico Assessment
The matrix protein gene region was analysed from 3,275 H5N1 variant sequences collected worldwide from 1 Dec 2025 through 24 Jun 2026. After applying the 3base® conversion, alignment of Genetic Signatures’ FluA targets revealed:
100% of analysed H5N1 clade 2.3.4.4b sequences remain within the expected detection range of the EasyScreen™ Respiratory Pathogen Detection Kit.
The remaining 1.1% of sequences (36 total) carry a single mutation under one primer or probe in locations not expected to affect assay efficiency or sensitivity. This includes the only H5N1 2.3.4.4b sequence determined from a seabird in Australia by the CSIRO.
Why the assay stays ahead of variants
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Target gene Targets the Matrix Protein gene — not the highly variable Hemagglutinin (H) or Neuraminidase (N) regions where FluA variation primarily occurs. |
3base® technology More resilient to naturally occurring C-T and T-C mutations, ensuring robust detection even as new variants emerge. |
EasyScreen™ Respiratory Pathogen Detection Kit
14 pathogens in one automated, molecular test
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Viruses
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Bacteria
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Discover the advantage of 3base® technology for pathogen detection
3base® Technology revolutionises syndromic infectious disease testing by simplifying complex 4-base DNA and RNA sequences into streamlined 3-base patterns. This patented approach enables accurate PCR detection across entire pathogen families and their variants—without compromising sensitivity or specificity. The result? More efficient multiplex PCR assays, fewer reagents, harmonised PCR reaction conditions, and greater resilience to genetic variation. Laboratories gain smarter molecular diagnostics and reliable coverage.
- Genetic Signatures, 2025. 3base® Technology. [online] Accessed 20/11/2025. geneticsignatures.com
- Millar D, Melki J. Diagnosis of Viral Families Using a Nucleic Acid Simplification Technique. Infectious Diseases. IntechOpen; 2023. doi:10.5772/intechopen.109632
- GISAID. [online] Accessed 20/11/2025. gisaid.org
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