Next Generation Sequencing (NGS) Technology in DNA Analysis explains and summarizes next generation sequencing (NGS) technological applications in the field of forensic DNA analysis. The book covers the transition from capillary electrophoresis (CE)-based technique to NGS platforms and the fundamentals of NGS technologies, applications, and advances. Sections provide an overview of NGS technology and forensic science, including information on processing biological samples for forensic analysis, sequence analysis, and data analysis software as well as the analysis of NGS data. The book explores the valuable applications of NGS-based forensic DNA analysis and covers the validations and interpretation guidelines of NGS workflows.
With chapter contributions from an international array of experts and the inclusion of practical case studies, this book is a useful reference for academicians and researchers in genetics, biotechnology, bioinformatics, biology, and medicine as well as forensic DNA scientists and practitioners who aim to learn, use, apply, and validate NGS-based technologies.
- Describes the fundamentals of NGS and its advances for forensic applications
- Explains the transition from CE-based technique to NGS technology
- Includes case studies related to NGS and DNA fingerprinting
- Explores the future use and applications of NGS technologies
Sprache
Verlagsort
Verlagsgruppe
Elsevier Science & Techn.
Dateigröße
ISBN-13
978-0-323-99380-7 (9780323993807)
Schweitzer Klassifikation
SECTION 1 Useful applications of NGS-based forensic DNA analysis1. Transition of capillary electrophoresis to next generation sequencing for forensic DNA analysis: Need of the hour2. Using conventional STR technology in analyzing biological transfer evidence3. Overview of NGS platforms and technological advancements for forensic applications4. Processing of biological samples for forensic NGS analysis5. Commercial kits commonly used for NGS based forensic DNA analysis6. Applications of nanopore sequencing for forensic analysis7. Microhaplotypes analysis for human identification using next-generation sequencing (NGS)8. Tools and techniques of using NGS technology in population studiesSECTION 2 Useful applications of NGS-based forensic DNA analysis9. Applications of NGS in analysis of autosomal STRs10. Differentiating monozygotic twins using NGS11. Application of NGS in maternal genome analysis in ancient human remains12. Application of NGS technology for parentage testing and relatedness analysis13. Forensic relevance of SNP analysis in next-generation sequencing14. Forensic analysis of hair using NGS technology15. Forensic DNA phenotyping using next-generation sequencing16. Forensic DNA phenotyping in the next-generation sequencing era17. Forensic applications of epigenetic (DNA methylation) markers through NGS18. Forensic applications of NGS-based microRNA analysis19. NGS profiling of water and soil microbial DNA in forensic science20. Applications of NGS in analysis of challenging samples21. Detection of human body fluid through mRNA analysis using NGS22. NGS-based detection and differentiation of forensically relevant body fluids using conventional, molecular, and microbial techniques23. Application of next-generation sequencing technology and investigative genetic genealogy to cold casesSECTION 3 Challenges in implementing NGS in forensic laboratories24. Troubleshooting and challenges of Next-generation sequencing technology in forensic use25. Validation of NGS for casework at forensic DNA laboratories26. Challenges in using genetic genealogy in forensics27. The role of artificial intelligence and machine learning in NGS28. Ethical issues of forensic application of NGS technology29. Ethical, legal, and social challenges of next-generation sequencing technologies (NGS) in forensic criminal identification
