A new computational tool improves the analysis of genetic data, making it easier and faster to study the evolutionary relationships between species.

Bacterial DNA isolated from a 120-year-old preserved plant cutting helped reconstruct the history of Pierce’s disease in ...

The transcription factor regulatory network in Pseudomonas aeruginosa is complex and involves multiple regulators that respond to various environmental signals and physiological cues by regulating ...

Researchers have innovatively merged protein structural data with genetic sequences to construct evolutionary trees, ...

According to a study published in the journal Nature Communications, the three-dimensional form of a protein can be utilized ...

Researchers say strategy will help understand the history of life, monitor the spread of pathogens or create new treatments for disease.

These phylogenetic or evolutionary trees are traditionally built by comparing DNA or protein sequences and counting the similarities and differences to infer relationships. However, researchers face a ...

The three-dimensional shape of a protein can be used to resolve deep, ancient evolutionary relationships in the tree of life, ...

The three-dimensional shape of a protein can be used to resolve deep, ancient evolutionary relationships in the tree of life, ...

Researchers use data from protein shapes, combined with data from genomic sequences, to improve the reliability of ...

Phylowave reveals evolutionary dynamics in pathogens, identifying fitness-linked lineages and mutations, essential for ...