A new study shows that cancer damages its own DNA by pushing key genes to work too hard. Researchers found that the most powerful genetic "on switches" in cancer cells, called super-enhancers, drive ...

Tanya Paull, a professor of molecular biosciences at The University of Texas at Austin, has been selected as one of 16 fellows of the American Society for Biochemistry and Molecular Biology class of ...

A double-strand break (DSB) is a type of DNA damage where both strands of the DNA helix are cut or broken at the same location, causing a complete discontinuity in the DNA molecule. Unrepaired or ...

Zhi “Zack” Zheng is a member of molecular biologist Scott Keeney's lab. Zhi “Zack” Zheng, who is scheduled to receive his PhD from the Gerstner Sloan Kettering Graduate School of Biomedical Sciences ...

The FDA has granted orphan drug designation (ODD) to LP-284, a next-generation acylfulvene small molecule, for the treatment ...

Objectives Understanding the molecular changes in the preclinical synovium is crucial for identifying factors that drive ...

Cars patched up after a wreck may look fixed—but never run quite as before. The same may hold true for chromatin, according to a study published in Science on November 6. In response to double-strand ...

BRCA1 and BRCA2 genes play a crucial role in repairing damaged DNA. Mutations in BRCA1 and BRCA2 substantially increase the likelihood of breast and ovarian cancer, respectively. This new research ...

Broken String Biosciences launched an early access program (EAP) through which select developers of gene edited therapeutics will be able to use Broken String’s INDUCE-seq ® technology in their own ...