Recognition of a protein\u27s fold provides valuable information about its function. While many sequence-based homology prediction methods exist, an important challenge remains: two highly dissimilar sequences can have similar folds --- how can we detect this rapidly, in the context of structural genomics? High-throughput NMR experiments, coupled with novel algorithms for data analysis, can address this challenge. We report an automated procedure for detecting 3D-structural homologies from sparse, unassigned protein NMR data. Our method identifies the 3D-structural models in a protein structural database whose geometries best fit the unassigned experimental NMR data. It does not use sequence information and is thus not limited by sequence h...
<p>Nuclear magnetic resonance (NMR) spectroscopy is an established technique for macromolecular stru...
High-throughput NMR structural biology can play an important role in structural genomics. We report ...
The knowledge of the tridimensional structure of a protein is essential to design drugs, to predict ...
Recognition of a protein’s fold provides valuable infor-mation about its function. While many sequen...
One goal of the structural genomics initiative is the identification of new protein folds. Sequence-...
Motivation: One of the primary aims of the structural genomics initiative is the determination of re...
In order to bridge the gap between proteins with three-dimensional (3-D) structural information and ...
We cast the problem of identifying protein-protein interfaces, using only unassigned NMR spectra, in...
[[abstract]]Understanding the functions of the vast number of proteins encoded in many genomes that ...
Nuclear Magnetic Resonance Spectroscopy (most commonly known as NMR Spectroscopy) is used to generat...
For more than a decade, the Joint Center for Structural Genomics (JCSG; www.jcsg.org) worked toward ...
Structural genomics (or proteomics) activities are critically dependent on the availability of high-...
Given the amino acid sequence of a protein, researchers often infer its structure and function by fi...
Structural genomics (or proteomics) activities are critically dependent on the availability of high-...
Sequence alignment techniques have been developed into extremely powerful tools for identifying the ...
<p>Nuclear magnetic resonance (NMR) spectroscopy is an established technique for macromolecular stru...
High-throughput NMR structural biology can play an important role in structural genomics. We report ...
The knowledge of the tridimensional structure of a protein is essential to design drugs, to predict ...
Recognition of a protein’s fold provides valuable infor-mation about its function. While many sequen...
One goal of the structural genomics initiative is the identification of new protein folds. Sequence-...
Motivation: One of the primary aims of the structural genomics initiative is the determination of re...
In order to bridge the gap between proteins with three-dimensional (3-D) structural information and ...
We cast the problem of identifying protein-protein interfaces, using only unassigned NMR spectra, in...
[[abstract]]Understanding the functions of the vast number of proteins encoded in many genomes that ...
Nuclear Magnetic Resonance Spectroscopy (most commonly known as NMR Spectroscopy) is used to generat...
For more than a decade, the Joint Center for Structural Genomics (JCSG; www.jcsg.org) worked toward ...
Structural genomics (or proteomics) activities are critically dependent on the availability of high-...
Given the amino acid sequence of a protein, researchers often infer its structure and function by fi...
Structural genomics (or proteomics) activities are critically dependent on the availability of high-...
Sequence alignment techniques have been developed into extremely powerful tools for identifying the ...
<p>Nuclear magnetic resonance (NMR) spectroscopy is an established technique for macromolecular stru...
High-throughput NMR structural biology can play an important role in structural genomics. We report ...
The knowledge of the tridimensional structure of a protein is essential to design drugs, to predict ...