Add to ORKGAssigning valid functions to proteins identified in genome projects is challenging, with over-prediction and database annotation errors major concerns1. We, and others2, are developing computation-guided strategies for functional discovery using “metabolite docking ” t
Sequencing technology has improved dramatically over the past few decades. Before the sequencing of ...
Genome sequencing efforts have revealed a strikingly large number of uncharacterized genes, includin...
AbstractAssigning function to “new” proteins is frequently the rate-determining step for deciphering...
Assigning valid functions to proteins identified in genome projects is challenging: overprediction a...
Reconstructing metabolic networks is useful for understanding the functional contexts of compounds, ...
SummaryThe number of entries in the sequence databases continues to increase exponentially – the Uni...
The rapid growth of the number of protein sequences that can be inferred from sequenced genomes pres...
The search for an effective method for accurate, automated enzyme-functional annotation of protein s...
SummaryThe rate at which new genes are being sequenced greatly exceeds our ability to correctly anno...
The rate at which new genes are being sequenced greatly exceeds our ability to correctly annotate th...
Annotations of enzyme function provide critical starting points for generating and testing biologica...
Genome sequencing efforts have revealed a strikingly large number of uncharacterized genes, includin...
With advances in high-throughput technologies and next-generation sequencing, the amount of genomic ...
Every entirely sequenced genome reveals 100s to 1000s of protein sequences for which the only annota...
Annotations of enzyme function provide critical starting points for generating and testing biologica...
Sequencing technology has improved dramatically over the past few decades. Before the sequencing of ...
Genome sequencing efforts have revealed a strikingly large number of uncharacterized genes, includin...
AbstractAssigning function to “new” proteins is frequently the rate-determining step for deciphering...
Assigning valid functions to proteins identified in genome projects is challenging: overprediction a...
Reconstructing metabolic networks is useful for understanding the functional contexts of compounds, ...
SummaryThe number of entries in the sequence databases continues to increase exponentially – the Uni...
The rapid growth of the number of protein sequences that can be inferred from sequenced genomes pres...
The search for an effective method for accurate, automated enzyme-functional annotation of protein s...
SummaryThe rate at which new genes are being sequenced greatly exceeds our ability to correctly anno...
The rate at which new genes are being sequenced greatly exceeds our ability to correctly annotate th...
Annotations of enzyme function provide critical starting points for generating and testing biologica...
Genome sequencing efforts have revealed a strikingly large number of uncharacterized genes, includin...
With advances in high-throughput technologies and next-generation sequencing, the amount of genomic ...
Every entirely sequenced genome reveals 100s to 1000s of protein sequences for which the only annota...
Annotations of enzyme function provide critical starting points for generating and testing biologica...
Sequencing technology has improved dramatically over the past few decades. Before the sequencing of ...
Genome sequencing efforts have revealed a strikingly large number of uncharacterized genes, includin...
AbstractAssigning function to “new” proteins is frequently the rate-determining step for deciphering...