MiSeq FGx® Forensic Genomics System

he MiSeq FGx® Forensic Genomics Solution available from Verogen is the first-ever fully validated sequencing workflow developed exclusively for human identification applications (Figure 1). Thanks to the high resolution and superior accuracy of next- generation, or massively parallel sequencing technology, the MiSeq FGx® Solution can ensure powerful results even for degraded, mixed, or most delicate samples.

Highlights

  • Sample-to-answer solution that is fully validated—Comprehensive system combines the preparation of library, sequencing, data analysis, and reporting into a single integrated workflow.

  • Simple, streamlined workflow—200 genetic markers can be examined in a single amplification, which avoids the need for multiple STR kits.

  • A wider range of information can be accessed—Phenotypic-informative SNPs, sequence variants, and biogeographical ancestry offer valuable data that cannot be obtained extensively using existing technology.

  • Superior analysis of difficult samples—Optimized capacity to handle difficult samples such as degraded DNA or complex mixtures.

MiSeq FGx® Forensic Genomics System

he MiSeq FGx® Forensic Genomics Solution available from Verogen is the first-ever fully validated sequencing workflow developed exclusively for human identification applications (Figure 1). Thanks to the high resolution and superior accuracy of next- generation, or massively parallel sequencing technology, the MiSeq FGx® Solution can ensure powerful results even for degraded, mixed, or most delicate samples.

Highlights

  • Sample-to-answer solution that is fully validated—Comprehensive system combines the preparation of library, sequencing, data analysis, and reporting into a single integrated workflow.

  • Simple, streamlined workflow—200 genetic markers can be examined in a single amplification, which avoids the need for multiple STR kits.

  • A wider range of information can be accessed—Phenotypic-informative SNPs, sequence variants, and biogeographical ancestry offer valuable data that cannot be obtained extensively using existing technology.

  • Superior analysis of difficult samples—Optimized capacity to handle difficult samples such as degraded DNA or complex mixtures.