Related ArticlesAFNMR: automated fragmentation quantum mechanical calculation of NMR chemical shifts for biomolecules.
J Biomol NMR. 2015 Aug 2;
Authors: Swails J, Zhu T, He X, Case DA
Abstract
We evaluate the performance of the automated fragmentation quantum mechanics/molecular mechanics approach (AF-QM/MM) on the calculation of protein and nucleic acid NMR chemical shifts. The AF-QM/MM approach models solvent effects implicitly through a set of surface charges computed using the Poisson-Boltzmann equation, and it can also be combined with an explicit solvent model through the placement of water molecules in the first solvation shell around the solute; the latter substantially improves the accuracy of chemical shift prediction of protons involved in hydrogen bonding with solvent. We also compare the performance of AF-QM/MM on proteins and nucleic acids with two leading empirical chemical shift prediction programs SHIFTS and SHIFTX2. Although the empirical programs outperform AF-QM/MM in predicting chemical shifts, the differences are in some cases small, and the latter can be applied to chemical shifts on biomolecules which are outside the training set employed by the empirical programs, such as structures containing ligands, metal centers, and non-standard residues. The AF-QM/MM described here is implemented in version 5 of the SHIFTS software, and is fully automated, so that only a structure in PDB format is required as input.
PMID: 26232926 [PubMed - as supplied by publisher]
AFNMR: automated fragmentation quantum mechanical calculation of NMR chemical shifts for biomolecules
AFNMR: automated fragmentation quantum mechanical calculation of NMR chemical shifts for biomolecules
Abstract
We evaluate the performance of the automated fragmentation quantum mechanics/molecular mechanics approach (AF-QM/MM) on the calculation of protein and nucleic acid NMR chemical shifts. The AF-QM/MM approach models solvent effects implicitly through a set of surface charges computed using the Poissonâ??Boltzmann equation, and it can also be combined with an explicit solvent model through the placement of water molecules in the first solvation...
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08-02-2015 07:10 AM
[NMR paper] Correction: Fragment density functional theory calculation of NMR chemical shifts for proteins with implicit solvation.
Correction: Fragment density functional theory calculation of NMR chemical shifts for proteins with implicit solvation.
Related Articles Correction: Fragment density functional theory calculation of NMR chemical shifts for proteins with implicit solvation.
Phys Chem Chem Phys. 2015 Apr 21;
Authors: Zhu T, He X, Zhang JZ
Abstract
Correction for 'Fragment density functional theory calculation of NMR chemical shifts for proteins with implicit solvation' by Tong Zhu et al., Phys. Chem. Chem. Phys., 2012, 14, 7837-7845.
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04-22-2015 03:33 PM
Quantum mechanical aspects of dynamical neutron polarization
From The DNP-NMR Blog:
Quantum mechanical aspects of dynamical neutron polarization
I came across this article about DNP, apparently the acronym is not just used as in DNP-NMR but also for Dynamic Neutron Polarization, Dinitrophenol, Doctor of Nursing Practice etc. ...
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04-01-2015 09:00 PM
[NMR paper] Quantum calculation of protein NMR chemical shifts based on the automated fragmentation method.
Quantum calculation of protein NMR chemical shifts based on the automated fragmentation method.
Related Articles Quantum calculation of protein NMR chemical shifts based on the automated fragmentation method.
Adv Exp Med Biol. 2015;827:49-70
Authors: Zhu T, Zhang JZ, He X
Abstract
The performance of quantum mechanical methods on the calculation of protein NMR chemical shifts is reviewed based on the recently developed automatic fragmentation quantum mechanics/molecular mechanics (AF-QM/MM) approach. By using the...
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11-14-2014 08:33 AM
[NMR paper] Quantum mechanical NMR simulation algorithm for protein-size spin systems.
Quantum mechanical NMR simulation algorithm for protein-size spin systems.
Quantum mechanical NMR simulation algorithm for protein-size spin systems.
J Magn Reson. 2014 Apr 18;243C:107-113
Authors: Edwards LJ, Savostyanov DV, Welderufael ZT, Lee D, Kuprov I
Abstract
Nuclear magnetic resonance spectroscopy is one of the few remaining areas of physical chemistry for which polynomially scaling quantum mechanical simulation methods have not so far been available. In this communication we adapt the restricted state space...
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05-06-2014 02:24 PM
[NMR paper] Quantum mechanical NMR simulation algorithm for protein-size spin systems
Quantum mechanical NMR simulation algorithm for protein-size spin systems
Publication date: Available online 18 April 2014
Source:Journal of Magnetic Resonance</br>
Author(s): Luke J. Edwards , D.V. Savostyanov , Z.T. Welderufael , Donghan Lee , Ilya Kuprov</br>
Nuclear magnetic resonance spectroscopy is one of the few remaining areas of physical chemistry for which polynomially scaling quantum mechanical simulation methods have not so far been available. In this communication we adapt the restricted state space approximation to protein NMR spectroscopy and...
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04-18-2014 01:35 PM
[NMR paper] A Conformational Ensemble Derived Using NMR Methyl Chemical Shifts Reveals a Mechanical Clamping Transition That Gates the Binding of the HU Protein to DNA.
A Conformational Ensemble Derived Using NMR Methyl Chemical Shifts Reveals a Mechanical Clamping Transition That Gates the Binding of the HU Protein to DNA.
Related Articles A Conformational Ensemble Derived Using NMR Methyl Chemical Shifts Reveals a Mechanical Clamping Transition That Gates the Binding of the HU Protein to DNA.
J Am Chem Soc. 2014 Feb 12;136(6):2204-7
Authors: Kannan A, Camilloni C, Sahakyan AB, Cavalli A, Vendruscolo M
Abstract
Recent improvements in the accuracy of structure-based methods for the prediction of...
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02-13-2014 03:35 PM
[NMR thesis] I. Quantum-mechanical chemical exchange. II. NMR of semiconductors
I. Quantum-mechanical chemical exchange. II. NMR of semiconductors
Kurur, Narayanan Damodaran (1992) I. Quantum-mechanical chemical exchange. II. NMR of semiconductors. Dissertation (Ph.D.), California Institute of Technology. http://resolver.caltech.edu/CaltechTHESIS:09022011-090934651
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AFNMR: automated fragmentation quantum mechanical calculation of NMR chemical shifts for biomolecules.
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