2N1E

MAX1 peptide fibril


SOLID-STATE NMR
NMR Experiment
ExperimentTypeSample ContentsSolventIonic StrengthpHPressureTemperature (K)Spectrometer
1REDOR13CO-V1, 15N-V20 MAX1100% H2O09.0ambient297
2REDOR13CO-V3, 15N-V18 MAX1100% H2O09.0ambient297
3REDOR13CO-V5, 15N-V16 MAX1100% H2O09.0ambient297
4REDOR13CO-V7, 15N-V14 MAX1100% H2O09.0ambient297
5PITHIRDS-CT13CO-V1, 15N-V20 MAX1100% H2O09.0ambient297
6PITHIRDS-CT13CO-V3, 15N-V18 MAX1100% H2O09.0ambient297
7PITHIRDS-CT13CO-V5, 15N-V16 MAX1100% H2O09.0ambient297
8PITHIRDS-CT13CO-V7, 15N-V14 MAX1100% H2O09.0ambient297
9PITHIRDS-CT13CO-V1, 13CO-V16 MAX1100% H2O09.0ambient297
10PITHIRDS-CT13CO-V3, 13CO-V16 MAX1100% H2O09.0ambient297
11PITHIRDS-CT13CO-V5, 13CO-V16 MAX1100% H2O09.0ambient297
12PITHIRDS-CT13CO-V7, 13CO-V16 MAX1100% H2O09.0ambient297
1315N-BARE13CO-P10; U-15N,13C-(K8, V9, )11, T12, K13) MAX1100% H2O09.0ambient297
1413C-BARE13CO-P10; U-15N,13C-(K8, V9, )11, T12, K13) MAX1100% H2O09.0ambient297
152D RAD/DARRU-15N,13C-(V1, P11, T12, V20) MAX1100% H2O09.0ambient297
162D NCACXU-15N,13C-(V1, P11, T12, V20) MAX1100% H2O09.0ambient297
172D RAD/DARR13CO-P10; U-15N,13C-(K8, V9, )11, T12, K13) MAX1100% H2O09.0ambient297
182D NCACX13CO-P10; U-15N,13C-(K8, V9, )11, T12, K13) MAX1100% H2O09.0ambient297
NMR Spectrometer Information
SpectrometerManufacturerModelField Strength
1VarianInfinityPlus400
2BrukerAvance III400
3VarianInfinity750
NMR Refinement
MethodDetailsSoftware
molecular dynamicsHYBRID MONTE CARLO/MOLECULAR DYNAMICS, USING NAMD TO GENERATE MC MOVES AND EXTERNAL PROGRAM TO ACCEPT OR REJECT MOVES BASED ON NMR-BASED POTENTIAL ENERGIES.X-PLOR_NIH
NMR Ensemble Information
Conformer Selection Criteriaall calculated structures submitted
Conformers Calculated Total Number20
Conformers Submitted Total Number20
Representative Model1 (last structure from namd trajectory)
Computation: NMR Software
#ClassificationVersionSoftware NameAuthor
1structure solutionX-PLOR_NIHSchwieters, Kuszewski, Tjandra and Clore
2structure solutionNAMDSchulten, K. et al.
3refinementNAMDSchulten, K. et al.