Publications by authors named "Osama Hidmi"
DNA double-strand breaks (DSBs) are a major source of genomic instability. Physiological DSBs are naturally occurring breaks that happen during normal cellular processes. Unlike DNA breaks resulting from DNA damage due to external factors like radiation or chemicals, physiological DSBs play critical roles in various normal biological functions.
View Article and Find Full Text PDFPhysiological double-stranded breaks (DSBs) are a major source of genomic instability. Here, we present a protocol for mapping physiological DSBs by in-suspension break labeling in situ and sequencing (sBLISS) in a single-nucleotide resolution. We describe steps for cell fixation, labeling of DSBs, DNA isolation followed by in vitro transcription (IVT), reverse transcription, and library preparation.
View Article and Find Full Text PDFDNA double-stranded breaks (DSBs) pose a significant threat to genomic integrity, and their generation during essential cellular processes like transcription remains poorly understood. In this study, we employ several techniques to map DSBs, R-loops, and topoisomerase 1 cleavage complex (TOP1cc) to comprehensively investigate the interplay between transcription, DSBs, topoisomerase 1 (TOP1), and R-loops. Our findings reveal the presence of DSBs at highly expressed genes enriched with TOP1 and R-loops.
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- Osteosarcoma is a rare and aggressive bone cancer that primarily affects younger populations, with poor outcomes and a tendency to spread to the lungs.
- The study utilized a mouse model to investigate the molecular mechanisms behind osteosarcoma by creating single and double knockouts of specific genes (Trp53 and Wwox) and tracking early tumor cell markers.
- Findings indicated that double-knockout cells showed tumor-like characteristics and upregulation of the Myc gene, suggesting it plays a role in the cancer's development, while inhibiting one of its targets (MCM7) reduced cell growth in these double-knockout young bone marrow cells.