1X0F

Complex structure of the C-terminal RNA-binding domain of hnRNP D(AUF1) with telomeric DNA


SOLUTION NMR
NMR Experiment
ExperimentTypeSample ContentsSolventIonic StrengthpHPressureTemperature (K)Spectrometer
13D_15N-separated_NOESY2mM U-15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide95% H2O/5% D2O100mM NaCl6.01 atm288
23D_15N-separated_TOCSY2mM U-15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide95% H2O/5% D2O100mM NaCl6.01 atm288
34D_13C-separated_NOESY2mM U-13C, 15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide100% D2O100mM NaCl6.01 atm288
43D HNHA2mM U-15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide95% H2O/5% D2O100mM NaCl6.01 atm288
53D HNCA2mM U-13C, 15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide95% H2O/5% D2O100mM NaCl6.01 atm288
6HCCH-TOCSY2mM U-13C, 15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide100% D2O100mM NaCl6.01 atm288
7HCCH-COSY2mM U-13C, 15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide100% D2O100mM NaCl6.01 atm288
81H, 15N-HSQC2mM U-15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide95% H2O/5% D2O100mM NaCl6.01 atm288
92D_ROESY2mM U-15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide100% D2O100mM NaCl6.01 atm288
102D_NOESY2mM U-15N hnRNP D BD2, 2.4mM DNA, 20mM Sodium Phosphate, 10mM Deuterated DTT, 1mM Sodium Azide100% D2O100mM NaCl6.01 atm288
NMR Spectrometer Information
SpectrometerManufacturerModelField Strength
1BrukerDRX600
NMR Refinement
MethodDetailsSoftware
simulated annealingX-PLOR
NMR Ensemble Information
Conformer Selection Criteriastructures with the lowest energy
Conformers Calculated Total Number228
Conformers Submitted Total Number20
Representative Model1 (lowest energy)
Additional NMR Experimental Information
DetailsThis structure was determined using 2D homonuclear and 3D heteronuclear techniques.
Computation: NMR Software
#ClassificationVersionSoftware NameAuthor
1structure solutionX-PLOR3.851BRUNGER
2processingNMRPipe
3processingXwinNMR
4refinementX-PLOR3.851BRUNGER