Experimental chemical shifts (CS) from solution and solid state magic-angle-spinning nuclear magnetic resonance (NMR) spectra provide atomic level information for each amino acid within a protein or protein complex. However, structure determination of large complexes and assemblies based on NMR data alone remains challenging due to the complexity of the calculations. Here, we present a hardware accelerated strategy for the estimation of NMR chemical-shifts of large macromolecular complexes based on the previously published PPM_One software. The original code was not viable for computing large complexes, with our largest dataset taking approximately 14 hours to complete. Our results show that serial code refactoring and parallel acceleration...
Single particle cryoEM has emerged as a powerful method for structure determination of proteins and ...
In this tutorial review, we discuss the utilization of chemical shift information as well as ab init...
A comparative analysis of nuclear chemical shift predictions of proteins in the solid state by rapid...
We report advances in the calculation of protein structures from chemical shift nuclear magnetic res...
We report advances in the calculation of protein structures from chemical shift nuclear magnetic res...
Single particle cryoEM has emerged as a powerful method for structure determination of proteins and ...
Fast and accurate protein structure prediction is one of the major challenges in structural biology,...
NMR is one of the major techniques for investigating the structure, dynamics and interactions betwee...
Understanding biological phenomena at atomic resolution is one of the keys to modern drug design. In...
Nuclear magnetic resonance (NMR) chemical shifts are a direct probe of local atomic environments and...
Paramagnetic metal ions generate pseudocontact shifts (PCSs) in nuclear magnetic resonance spectra t...
MOTIVATION: Accurate and efficient predictions of protein structures play an important role in under...
Here we report a new machine learning algorithm for protein chemical shift prediction that outperfor...
The importance of protein chemical shift values for the determination of three-dimensional protein s...
Over the past decade, a number of methods have been developed to determine the approximate structure...
Single particle cryoEM has emerged as a powerful method for structure determination of proteins and ...
In this tutorial review, we discuss the utilization of chemical shift information as well as ab init...
A comparative analysis of nuclear chemical shift predictions of proteins in the solid state by rapid...
We report advances in the calculation of protein structures from chemical shift nuclear magnetic res...
We report advances in the calculation of protein structures from chemical shift nuclear magnetic res...
Single particle cryoEM has emerged as a powerful method for structure determination of proteins and ...
Fast and accurate protein structure prediction is one of the major challenges in structural biology,...
NMR is one of the major techniques for investigating the structure, dynamics and interactions betwee...
Understanding biological phenomena at atomic resolution is one of the keys to modern drug design. In...
Nuclear magnetic resonance (NMR) chemical shifts are a direct probe of local atomic environments and...
Paramagnetic metal ions generate pseudocontact shifts (PCSs) in nuclear magnetic resonance spectra t...
MOTIVATION: Accurate and efficient predictions of protein structures play an important role in under...
Here we report a new machine learning algorithm for protein chemical shift prediction that outperfor...
The importance of protein chemical shift values for the determination of three-dimensional protein s...
Over the past decade, a number of methods have been developed to determine the approximate structure...
Single particle cryoEM has emerged as a powerful method for structure determination of proteins and ...
In this tutorial review, we discuss the utilization of chemical shift information as well as ab init...
A comparative analysis of nuclear chemical shift predictions of proteins in the solid state by rapid...