Next-Generation Sequencing for Forensics
Get more information from your samples
Simplicity, scalability, speed
Cracking tough cases with challenging samples
We are focused on developing solutions to help resolve your most difficult forensic analysis tasks. Life Technologies™ products have a 20-year history as a trusted STR-based identification solution.
Our new series of next generation sequencing (NGS) solutions can help you resolve tough cases by getting more information from challenging samples. We’ve developed simple, scalable, and fast solutions by utilizing Ion Torrent™ next-generation sequencing and Ion AmpliSeq™ technologies to create forensically-relevant panels and reporting tools. These panels are available now!
Analyze familial and kinship cases
Lineage informative solution
Analyze missing persons or remains
Analyze dna mixtures more efficiently
Join us at the Human Identification Solutions conference from the 3rd to the 4th March 2015 and meet with leading experts in forensics and international forensic colleagues. This 2 day conference is full of inspiring presentations, focusing on advancing and extending the forensic workflow. Learn how new technologies can extend the forensic analysis capabilities in your lab and help you resolve challenging cases
Fordyce S, Mogensen H, Børsting C, Lagace R, et al. (2014) Second-generation sequencing of forensic STRs using the Ion Torrent™ HID STR 10-plex and the Ion PGM™. Forensic Sci Int Genet vol 14, 2015 Jan; p132–140
Ralf A, van Oven M, Zhong K, Kayser M. (2014) Simultaneous Analysis of Hundreds of Y-chromosomal SNPs for High-resolution Paternal Lineage Classification Using Targeted Semiconductor Sequencing. Hum Mutat. 2014 Oct 22 doi: 10.1002/humu.22713
Bodner M, Iuvaro A, Strobl C, Nagl S, et al. (2014) Helena, the hidden beauty: Resolving the most common West Eurasian mtDNA control region haplotype by massively parallel sequencing an Italian population sample. Forensic Sci Int Genet. 2014 Sep 26. pii: S1872-4973(14)00194-X
Isaacson J, Schwoebel E, Shcherbina A, Ricke D, Harper J, et al. (2014) Robust detection of individual forensic profiles in DNA mixtures. Forensic Sci Int Genet. 2014 Sep 16;14C:31-37
Seo et al. (2013) High throughput whole mitochondrial genome sequencing by two platforms of massively parallel sequencing. Poster presentation. BMC Genomics 2014, 15(Suppl 2):P7
Parson W, Strobl C, Huber G, Zimmermann B, Gomes SM, et al. (2013) Evaluation of next generation mtGenome sequencing using the Ion Torrent Personal GenomeMachine (PGM). Forensic Sci Int Genet. 2013 Sep;7(5):543-9
Børsting C, Fordyce SL, Olofsson J, Mogensen HS, Morling N (2014) Evaluation of the Ion Torrent™ HID SNP 169-plex: A SNP typing assay developed for human identification by second generation sequencing. Forensic Sci Int Genet. 2014 Sep;12:144-54
Ion Torrent™ semiconductor sequencing has the potential to vastly expand the capabilities of human identification laboratories, enabling simultaneous analysis of a wide range of forensically relevant genetic markers to help resolve challenging cases. Speakers in this webinar include Lisa Calandro, director of product management at Thermo Fisher Scientific, and Dr. Walther Parson from the Institute of Legal Medicine, Innsbruck Medical University, Austria.
“These results are extremely promising, and are expected to significantly increase the random-match probability for mtDNA analysis when evaluating highly compromised samples.” Dr. Walther Parson, Institute of Legal Medicine, Innsbruck, Austria
“The biggest impact is that we will be able to combine a large number of genetic markers of different types in a single run analysis, including markers such as STRs and SNPs (single base pair changes)—potentially even RNA that cannot be multiplexed with any other current technology. This will open up new possibilities, as various types of forensically relevant information can be obtained from a single sample analysis.” Dr. Manfred Kayser, Dept. of Forensic Molecular Biology, Erasmus University, Rotterdam, The Netherlands
“The AmpliSeq™ PGM™ panels already include ancestry inference markers that allow for refined estimates of an individual’s biogeographic ancestry. The high-throughput sequencing methodology holds the promise for even more powerful forensic panels currently being developed.” Dr. Kenneth Kidd, Yale University School of Medicine
Our Ion Torrent™ next-generation sequencing has the potential to vastly expand the capabilities of human identification laboratories, enabling simultaneous analysis of a wide range of forensically relevant genetic markers to help resolve challenging samples or cases.
Ion Torrent™ technology directly translates chemically encoded information (A, C, G, T bases) into digital information (0, 1) on a semiconductor chip. This approach marries simple chemistry to proprietary semiconductor technology—it’s Watson meets Moore. The result is a sequencing technology that is simpler, faster, and more cost-effective and scalable than any other next-generation sequencing technology available. View video ›
Coupled with simple and scalable Ion semiconductor sequencing, Ion AmpliSeq™ technology transforms genetic analysis by delivering ultrahigh-multiplex PCR and a low DNA input requirement. With the ability to multiplex thousands of PCR primer pairs in one tube, researchers are no longer limited to sequencing just a few genes or single nucleotide pairs (SNPs), but can quickly and easily analyze hundreds of gene targets or SNPs.
The Ion Torrent™ Personal Genome Machine® (PGM™) System is ideal for targeted sequencing solutions, enabling you to go from samples to results in just one day. It combines Ion Torrent™ semiconductor sequencing technology with natural biochemistry to directly translate chemical information into digital data, making sequencing accessible to more laboratories and research facilities. The system’s use of simple, natural sequencing chemistry eliminates the need for expensive optics, and reduces complex chemistries to measure natural DNA extension.
For Research, Forensic or Paternity Use Only. When used for purposes other than Human Identifi cation the instruments and software modules cited are for Research Use Only. Not for use in diagnostic procedures. © 2014 Thermo Fisher Scientific Inc. All rights reserved. All trademarks are the property of Thermo Fisher Scientific and its subsidiaries unless otherwise specified.