Center for Physical Genomics and Engineering Scientists have long viewed chromatin — the genetic material that makes up chromosomes — as existing in two opposing states: heterochromatin, which is ...

Together, compacted DNA and it's associated proteins are known as chromatin, and scientists have long observed that chromatin often sits near an inorganic molecule—a biopolymer polyphosphate (polyP); ...

More recently, studies of hot spot regulation have emerged as models for studying the role of chromatin structure ... mechanisms that control chromatid compaction and interference nor the ...

This highlights one of the current limitations of the preliminary CG model presented here. Conversion between different compacted states of 30 nm chromatin significantly depend on the histone tails, ...

The PIF/Harbinger-derived ADF-IL protein recruits KAT2B to drive its nuclear translocation and local chromatin acetylation, ...

These modifications increase chromatin accessibility, influencing growth, differentiation, and ion transport, with contrasting effects on normal and colorectal cancer cells. Study: Short-chain ...

Once the skip at the reception area is full, the waste is emptied into the landfill, where it is then covered with inert material to minimise the release of gases or liquids and then compacted." ...

Article subjects are automatically applied from the ACS Subject Taxonomy and describe the scientific concepts and themes of the article. DNA nanotechnology utilizes the principle of complementary base ...

By profiling the chromatin-bound proteome (chromatome) through genome capture of ESCs transitioning to 2C-like cells, we uncover chromatin regulators involved in de novo heterochromatin formation. We ...

This valuable study is a detailed investigation of how chromatin structure influences replication origin function in yeast ribosomal DNA, with a focus on the role of the histone deacetylase Sir2 and ...