DNA segments that can move from one part of the genome to another—are key to bacterial evolution and the development of ...

Researchers at Fred Hutch Cancer Center have discovered an overlooked mechanism driving aggressive breast and brain tumors ...

Gene regulation underpins nearly every biological process—from cell development to responses to environmental changes, and ...

The Evo 2 preprint described three design tasks that span different levels of genomic ... accessibility profiles to simulate eukaryotic gene regulation. When asked about plans for experimental ...

A new method for mapping torsion provides insights into the ways that the genome responds to the torsion generated by RNA polymerase II.

In most eukaryotic cells, two types of spliceosome work in parallel to stitch gene pieces together ... involved in different stages of the splicing process. The minor spliceosome has a similar ...

In most eukaryotic cells, two types of spliceosome work in parallel to stitch gene pieces together ... involved in different stages of the splicing process. The minor spliceosome has a similar ...

To show how this works, the researchers placed genetically identical Escherichia coli bacteria—which exhibit different swimming ... "While gene regulation typically allows for a quick reaction ...

Knowledge of the content of eukaryotic genomes, such as unique and repeated sequences, mobile elements and coding- and non-coding DNA. To know the principles of different levels and types of ...

Development strategies designed to reduce the unknowns so that cell and gene therapy innovators can develop robust processes ...

Single-cell multiomic analyses reveal known and new genes and pathways involved in the development of germ cells and provide a discovery platform for the scientific community.