"Nature"[Journal] "Science (New York, N.Y.)"[Journal] (("Journal of biomolecular NMR"[Journal]) OR ("Journal of magnetic resonance"[Journal]) OR ("Solid state nuclear magnetic resonance"[Journal] ))((nmr) AND (Oschkinat, Hartmut[Author] OR Reif, Bernd[Author] OR Ladizhansky, Vladimir[Author] OR Emsley, Lyndon[Author] OR Pintacuda, Guido[Author] OR Meier, Beat[Author] OR Polenova, Tatyana[Author] OR Rienstra, Chad[Author]OR Baldus, Marc[Author] OR Tycko, Robert[Author]) ((nmr) AND (Kay, Lewis[Author] OR Wagner, Gerhard[Author] OR Griesinger, Christian[Author] OR Guntert, Peter[Author] OR Luchinat, Claudio[Author] OR Orekhov, Vladislav[Author] OR Billeter, Martin[Author] OR Nietlispach, Daniel[Author]OR Pervushin, K[Author]) (solid-state NMR) AND (protein) (use best match option in pubmed)
(air pollution) AND (Alzheimer's Disease)
(bacterial) AND (Alzheimer's Disease) Support for setup of solid-state and solution NMR experiments: PyNMR
PyNMR, is a self-contained XML formatted database of NMR experiments located outside of an NMR spectrometer. Under ‘self-contained’ it is understood that the database contains not only all files (called components) needed to perform an NMR experiment such as setup macro, pulse programs, composite pulse decoupling schemes, wave forms, calibration tables and descriptions of individual NMR spectrometers and samples, but, in addition, all algorithms and programs needed to evaluate and render a particular experiment for a particular spectrometer using a specified sample.
PyNMR provides support for setup of
solid-state and solution NMR experiments
author: Konstantin Pervushin
email: p@trosy.com
website: https://sites.google.com/site/nmrgenerator/home
last modified: February 2019