Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
about
A simple and fast approach for predicting (1)H and (13)C chemical shifts: toward chemical shift-guided simulations of RNAPrediction of hydrogen and carbon chemical shifts from RNA using database mining and support vector regression.Combining asymmetric 13C-labeling and isotopic filter/edit NOESY: a novel strategy for rapid and logical RNA resonance assignment.Automated RNA 3D Structure Prediction with RNAComposer
P2860
Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
description
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name
Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
@en
Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
@nl
type
label
Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
@en
Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
@nl
prefLabel
Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
@en
Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
@nl
P2860
P1476
Strategy for automated NMR resonance assignment of RNA: application to 48-nucleotide K10.
@en
P2093
Barbara Krähenbühl
Peter Lukavsky
P2860
P2888
P304
P356
10.1007/S10858-014-9841-3
P50
P577
2014-06-05T00:00:00Z