Cancer’s most catastrophic DNA damage has long looked like a crime scene without a culprit, with chromosomes shattered and reassembled in ways that defy normal biology. Now researchers say they have ...

Dynamic covalent networks (DCNs) are a promising solution to mitigate plastic-waste-related issues through improved recyclability enabled by dynamic bonds. However, our understanding of the mechanisms ...

ABSTRACT: The flexibility of magnetoelectric coupling in RMnO3 is enhanced by the sensitivity of such materials to diverse interactions. This complicates the straightforward comprehension of its ...

Genome rearrangements often result from non-allelic homologous recombination (NAHR) between repetitive DNA elements dispersed throughout the genome. Here we systematically analyze NAHR between Ty ...

This important study advances our understanding of genome annotations for chiton genomes. It provides a solid estimation of syntentic relationships for the chromosomes of the four new genomes plus an ...

Abstract: Recently, transformers have shown strong performance in tasks such as computer vision and natural language processing. Notably, Swin Transformer has gained significant attention for its low ...

A new case report was published in Volume 16 of Oncotarget on February 5, 2025, titled "Acquired RUFY1-RET rearrangement as a mechanism of resistance to lorlatinib in a patient with CD74-ROS1 ...

Researchers published a new study, “Ongoing chromothripsis underpins osteosarcoma genome complexity and clonal evolution,” in Cell that they say solves the mystery of what drives the genomic ...

3D surface of the fruit fly wing disc before (left) and after (right) eversion. Highlighted in blue is the pouch region, which transforms from a radially symmetric dome into a curved fold by ...

Researchers have recently conducted a comprehensive analysis uncovering the underlying mechanisms responsible for the flexibility observed in Metal-organic frameworks (MOFs). These crystalline ...

Arc Institute scientists have discovered the bridge recombinase mechanism, a revolutionary tool that enables fully programmable DNA rearrangements. Their finding, detailed in a recent Nature ...