The genome structure—how genes are organized within DNA sequences in an organism—is fundamental to the processes and functions of organisms. A team at the University of Tokyo has developed a system to ...

Research is shaking up how we think about evolution, suggesting there's a level of predictability influenced by genes and ...

Researchers used molecular signatures in mobile DNA to trace the evolutionary origins of the cultivated strawberry genome.

The genome structure — how genes are organized within DNA sequences in an organism — is fundamental to the processes and functions of organisms. A team at the University of Tokyo has developed a ...

The only remaining autonomous 'jumping gene' can only attach to, and stitch a copy of itself into, DNA when it builds up into large clusters and only as cells divide. Viruses are known to use the ...

A study has traced thousands of conserved regulatory elements back 300 million years, revealing deep principles of plant ...

Robertsonian chromosomes (ROB) are a type of structurally variant chromosome that is created when two chromosomes fuse together to form an unusual bond. Found commonly in nature, these chromosomes are ...

Polyploid genomes, formed through repeated whole-genome duplication and hybridization, underpin the evolution of many important crops, yet their internal structure often remains unresolved when ...

Research led by Memorial Sloan Kettering Cancer Center (MSK) is shedding new light on how ovarian cancer evolves - insights that could help researchers develop more effective treatment strategies.

A research team led by scientists at the Butantan Institute in São Paulo, Brazil, has completed the most extensive genetic sequencing of a jararaca viper to date. The focus of the study was the genome ...