DNA forensics at forty: the way forward.

Forensic DNA analysis has transformed criminal investigations since its inception in 1985. Over four decades, this field has evolved through various phases-from the early stages of exploration to today's highly sophisticated methodologies. Key advancements such as the development of rapid DNA analysis techniques, microchip-based systems, and next-generation sequencing have improved the speed, reliability, and utility of DNA forensics. However, despite these technological advances, the field still faces considerable challenges, particularly with increasing case backlogs, limited population-specific databases, and the difficulties associated with analyzing degraded or challenging samples like bones and touch DNA. Emerging technologies such as single-cell genomic analysis, lineage markers, proteomics, and human microbiome analysis offer promising solutions to these challenges. Furthermore, the integration of artificial intelligence (AI) and machine learning (ML) in forensic workflows is enhancing the ability to analyze complex DNA samples efficiently, paving the way for faster and more accurate results. As forensic DNA analysis enters its next phase, the focus will be on expanding databases, refining quality control and assurance protocols, and standardizing training for forensic professionals worldwide. The journey of forensic DNA analysis over the past 40 years demonstrates a field in continuous development. Although significant progress has been made, there remain opportunities for further innovation, particularly in overcoming the current limitations and addressing ethical and legal concerns. By doing so, forensic DNA analysis will continue to play a pivotal role in the future of criminal justice.