TITLE:
Epigenetic Markers in Criminal Investigation: A Narrative Synthesis of Recent Evidence
AUTHORS:
Eduarda Felipe Tosta, Ícaro Ricardo Rodrigues de Oliveira, Maycon Douglas de Paula Martins, Lauro Antônio Ribeiro Roman Loza, Ana Júlia Carvalho Rezende, Sabrina Pessoa de Moraes, Vítor Sousa Silva, Fábio Morato de Oliveira
KEYWORDS:
Epigenomics, DNA Methylation, microRNAs, Forensic Genetics, Biomarkers
JOURNAL NAME:
Open Access Library Journal,
Vol.13 No.1,
January
5,
2026
ABSTRACT: Forensic epigenetics has become a rapidly expanding frontier in molecular forensics, offering analytical capabilities that surpass those of traditional genetic markers. Advances in high-resolution methylome profiling, small-RNA analysis, and multi-omics approaches now support increasingly precise inferences about biological age, tissue origin, lifestyle exposures, and, in some cases, individual differentiation. Despite this progress, the field remains transitional, and its adoption in routine forensic practice requires methodological standardization, analytical validation, and legal evaluation. This narrative review synthesizes findings from studies indexed in PubMed, Scopus, and Web of Science, of which 61 met the eligibility criteria after duplicate removal and full-text assessment. These studies were categorized according to epigenetic mechanism, forensic application, methodological design, technological innovation, and legal or operational considerations. DNA methylation emerged as the most extensively explored mechanism, particularly for age estimation, body-fluid identification, and differentiation of monozygotic twins. MicroRNAs constituted the second most frequently examined biomarker class, demonstrating high stability in degraded samples and strong tissue specificity, with applications in postmortem interval estimation and cause-of-death assessment. Histone modifications were investigated less often due to technical challenges related to protein instability and environmental degradation. Across mechanisms, limited standardization in sampling, extraction, sequencing, and computational modeling remains a major barrier to reproducibility. Nevertheless, recent advances—including third-generation sequencing, refined methylation assays, and machine-learning frameworks integrating complex epigenomic and transcriptomic signals—suggest substantial future potential. Persistent legal challenges, particularly related to validation, error-rate determination, and privacy concerns, highlight the need for caution. Overall, forensic epigenetics is progressing toward broader applicability, provided ethical, legal, and methodological frameworks evolve in parallel.