Scientists chart over 140,000 DNA loops to map human chromosomes in the nucleus

One of the most detailed 3D maps of how the human chromosomes are organized and folded within a cell's nucleus is published ...
Interesting Engineering on MSN

New 4D genome maps reveal how genes fold, interact, and reposition as cells divide

New 3D genome maps reveal how DNA folding controls gene activity, offering fresh clues into disease and cell function.

Unexpected allies: DNA packaging aids gene expression

It's a common storytelling trope: the stubborn foe who is eventually revealed to be a much-needed friend. Biology has its own ...
Interesting Engineering on MSN

AI uncovers 360,000 DNA knots that quietly shape how genes turn on and off

AI maps fleeting DNA quadruplexes, revealing paired structures that control genes in healthy cells and cancer.
eLife

Nucleosome wrapping energy in CpG islands and the role of epigenetic base modifications

CpG density and epigenetic modification state modulate DNA mechanics, altering its intrinsic compatibility with nucleosome formation.
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Viral DNA elements help control early embryonic development

Transposable elements are stretches of DNA that can move around the genome. Many of these DNA sequences originate from long ...
Modern Engineering Marvels on MSN

140,000 DNA loops mapped with AI to predict genome folding

A game-changining achievement in genome science has identified over 140,000 distinct DNA loops in our cells, providing chromosome fold resolution that is among the best ever created. In this ongoing ...
News-Medical.Net on MSN

New AI model brings precision medicine to multiple myeloma care

C. Ola Landgren, M.D., Ph.D., received HealthTree Foundation's prestigious 2025 Innovation Award for his work in developing CORAL, a new research tool that leverages AI to predict individual outcomes ...