A Northwestern Medicine study has revealed a previously unknown connection between two fundamental cellular processes, ...

The versatile nucleotide excision repair (NER) pathway removes helix-distorting DNA damage in a multistep 'cut and patch'-type reaction. Two damage detection subpathways exist: global genomic NER ...

In signal-recognition particle (SRP)-dependent protein targeting to the bacterial plasma membrane, two GTPases, Ffh (a subunit of the bacterial SRP) and FtsY (the bacterial SRP receptor), act as ...

Nucleotide metabolism plays a central role in bacterial physiology, producing the nucleic acids necessary for DNA replication and RNA transcription. Recent studies demonstrate that nucleotide ...

The mechanisms of epigenetic gene regulation—histone modifications, chromatin remodeling, DNA methylation, and noncoding RNA—use metabolites as enzymatic cofactors and substrates in reactions that ...

Nucleotides are essential components of a wide range of cellular processes; therefore, the maintenance of these levels through various metabolic pathways is crucial for adequate cellular function. The ...

This important study introduces a new biology-informed strategy for deep learning models aiming to predict mutational effects in antibody sequences. It provides solid evidence that separating ...