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.