Modern proteins did not arise abruptly, as singular events, but rather over the course of at least 3.5 billion years of evolution. Can machine learning teach us how this occurred? The molecular evolutionary processes that yielded the intricate three-dimensional (3D) structures of proteins involve duplication, recombination and mutation of genetic elements, corresponding to short peptide fragments. Identifying and elucidating these ancestral fragments is crucial to deciphering the interrelationships amongst proteins, as well as how evolution acts upon protein sequences, structures & functions. Traditionally, structural fragments have been found using sequence and 3D structural alignment, but that becomes challenging when proteins have underg...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
Despite their seemingly endless diversity, proteins adopt a limited number of structural forms. It h...
Despite their seemingly endless diversity, proteins adopt a limited number of structural forms. It h...
Modern proteins did not arise abruptly, as singular events, but rather over the course of at least 3...
Protein evolution is a complex and diverse process, yielding an incredible assortment of biological ...
Many protein classification systems capture homologous relationships by grouping domains into famili...
Many protein classification systems capture homologous relationships by grouping domains into famili...
Proteins are a major interface between the genotype and phenotype of living things. Understanding th...
Proteins are the molecular machines of the cell that fold into specific three-dimensional structures...
Recent advances in protein structure determination and prediction offer new opportunities to deciphe...
Even a relatively short polypeptide of 75 amino acids has more unique sequence possibilities than th...
Natural evolution has generated an impressively diverse protein universe via duplication and recombi...
The bottom-up approach to understanding the evolution of organisms is by studying molecular evolutio...
This paper presents and discusses evidence suggesting how the diversity of domain folds in existence...
A comparison of protein backbones makes clear that not more than approximately 1400 different folds ...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
Despite their seemingly endless diversity, proteins adopt a limited number of structural forms. It h...
Despite their seemingly endless diversity, proteins adopt a limited number of structural forms. It h...
Modern proteins did not arise abruptly, as singular events, but rather over the course of at least 3...
Protein evolution is a complex and diverse process, yielding an incredible assortment of biological ...
Many protein classification systems capture homologous relationships by grouping domains into famili...
Many protein classification systems capture homologous relationships by grouping domains into famili...
Proteins are a major interface between the genotype and phenotype of living things. Understanding th...
Proteins are the molecular machines of the cell that fold into specific three-dimensional structures...
Recent advances in protein structure determination and prediction offer new opportunities to deciphe...
Even a relatively short polypeptide of 75 amino acids has more unique sequence possibilities than th...
Natural evolution has generated an impressively diverse protein universe via duplication and recombi...
The bottom-up approach to understanding the evolution of organisms is by studying molecular evolutio...
This paper presents and discusses evidence suggesting how the diversity of domain folds in existence...
A comparison of protein backbones makes clear that not more than approximately 1400 different folds ...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
Despite their seemingly endless diversity, proteins adopt a limited number of structural forms. It h...
Despite their seemingly endless diversity, proteins adopt a limited number of structural forms. It h...