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PDB ID:
Entry in NMR Restraints Grid
Validation report in NRG-CING
Chem Shift validation: AVS_full
BMRB Entry DOI: doi:10.13018/BMR5716
MolProbity Validation Chart
NMR-STAR file interactive viewer.
NMR-STAR v3 text file.
XML gzip file.
RDF gzip file.
All files associated with the entry
Citation: Volk, David; Yang, Xianbin; Fennewald, Susan; King, David; Bassett, Suzanne; Venkitachalam, Sheela; Herzog, Norbert; Luxon, Bruce; Gorenstein, David. "Solution Structure and Design of Dithiophosphate Backbone Aptamers Targeting
Transcription Factor NF-kB" Bioorg. Chem. 30, 396-419 (2002).
Assembly members:
CK14A, polymer, 14 residues, Formula weight is not available
CK14B, polymer, 14 residues, Formula weight is not available
Natural source: Common Name: E. Coli Taxonomy ID: 562 Superkingdom: Eubacteria Kingdom: not available Genus/species: Escherichia coli
Experimental source: Production method: chemical synthesis
Entity Sequences (FASTA):
CK14A: CCAGGAGATTCCAC
CK14B: GTGGAATCTCCTGG
Data type | Count |
1H chemical shifts | 200 |
Entity Assembly ID | Entity Name | Entity ID |
---|---|---|
1 | CK14A | 1 |
2 | CK14B | 2 |
Entity 1, CK14A 14 residues - Formula weight is not available
1 | DC | DC | DA | DG | DG | DA | DG | DA | DT | DT | ||||
2 | DC | DC | DA | DC |
Entity 2, CK14B 14 residues - Formula weight is not available
1 | DG | DT | DG | DG | DA | DA | DT | DC | DT | DC | ||||
2 | DC | DT | DG | DG |
sample_1: CK14A 2.0 mM; CK14B 2.0 mM; Phosphate 20 mM; NaCl 56 mM; NaN3 50 mM; D2O 99.96%
sample_2: CK14A 2.0 mM; CK14B 2.0 mM
sample_cond_1: ionic strength: 100 mM; pH: 6.7; pressure: 1 atm; temperature: 278 K
sample_cond_2: ionic strength: 100 mM; pH: 6.7; pressure: 1 atm; temperature: 288 K
Name | Sample | Sample state | Sample conditions |
---|---|---|---|
2D NOESY | not available | not available | not available |
2D TOCSY | not available | not available | not available |
2D Exchange Spectroscopy | not available | not available | not available |
2D DQF-COSY | not available | not available | not available |
MORASS v2.5 - iterative matrix relaxation
AMBER v5 - molecular dynamics calculations