In diesem Wintersemester wird die im letzten Jahr erfolgreich gestartete Vortragsreihe 新万博体育下载_万博体育app【投注官网】ical Information Sciences fortgesetzt. Renommierte Wissenschaftlerinnen und Wissenschaftler unterschiedlicher Fachdisziplinen und Forschungsstandorte geben jeden Dienstag ab 17:30 Uhr Einblicke in aktuelle Fragestellungen und Anwendungsgebiete des breiten Forschungsfeldes 新万博体育下载_万博体育app【投注官网】ical Information Sciences.

Epigenetic mechanisms play a crucial role in establishing and preserving cellular states and function throughout an organism’s life. DNA methylation is an essential part of this multilayered regulation and displays a highly conserved, characteristic bimodal distribution across most somatic cell types. For yet unknown reasons, the distribution of DNA methylation is fundamentally different tumors, an intermediate gain of DNA methylation at certain CpG islands and a partial loss of methylation across gene-poor?regions. These two features make DNA methylation an ideal readout for tumor-type prediction from sequencing data.

Specifically in the field of neuropathology, DNA methylation-based tumor type classification has recently become part of the WHO. However, even though the field aimed to achieve an intraoperative differential diagnosis for decades, accomplishing this within a clinically relevant timeframe has remained elusive.

Recent advances in third-generation sequencing technologies have brought this goal within reach. To allow for intraoperative CNS tumor type classification within less than one hour, we developed MethyLYZR, a Na?ve Bayesian framework enabling live classification of cancer epigenomes using fully tractable single-CpG resolution modeling while avoiding the need for feature selection or ad hoc?model training. MethyLYZR can be run in parallel to an ongoing Nanopore experiment with negligible computational cost and provides clinically relevant and accurate cancer classification results within 15 minutes of sequencing (94% accuracy).