BMRB Entry 15700
Click here to enlarge.
PDB ID: 2k2c
Entry in NMR Restraints Grid
Validation report in NRG-CING
Chem Shift validation: AVS_anomalous, AVS_full, LACS, SPARTA
BMRB Entry DOI: doi:10.13018/BMR15700
MolProbity Validation Chart
NMR-STAR file interactive viewer.
NMR-STAR v3 text file.
NMR-STAR v2.1 text file (deprecated)
XML gzip file.
RDF gzip file.
All files associated with the entry
Title: solution struture of human N-terminal domain of pirh2/Northeast Structure Genomics Consortium (NESG) target HT2A PubMed: 19043414
Deposition date: 2008-03-31 Original release date: 2009-04-03
Authors: Wu, Bin; Lemak, Alexander; Sheng, Yi; Karra, Murthy; Srisailam, Sampath; Sunnerhagen, Maria; Arrowsmith, Cherl
Citation: Sheng, Yi; Laister, Rob; Lemak, Alexander; Wu, Bin; Tai, Elizabeth; Duan, Shili; Lukin, Jonathan; Sunnerhagen, Maria; Srisailam, Sampath; Karra, Murthy; Benchimol, Sam; Arrowsmith, Cheryl. "Molecular basis of Pirh2-mediated p53 ubiquitylation" Nat. Struct. Mol. Biol. 15, 1334-1342 (2008).
Assembly members:
human_N-termal_doamin_of_pirh2, polymer, 137 residues, 15905.286 Da.
ZN, non-polymer, 65.409 Da.
Natural source: Common Name: Human Taxonomy ID: 9606 Superkingdom: Eukaryota Kingdom: Metazoa Genus/species: Homo sapiens
Experimental source: Production method: recombinant technology Host organism: Escherichia coli
Entity Sequences (FASTA):
human_N-termal_doamin_of_pirh2: MAATAREDGATGEERGQRGC
EHYDRGCLLKAPCCDKLYTC
RLCHDNNEDHQLDRFKVKEV
QCINCEKIQHAQQTCEECST
LFGEYYCDICHLFDKDKKQY
HCENCGICRIGPKEDFFHCL
KCNLCLAMNLQGRHKCI
- assigned_chemical_shifts
Data type | Count |
13C chemical shifts | 519 |
15N chemical shifts | 132 |
1H chemical shifts | 833 |
Additional metadata:
Related Database Links:
PDB | 2K2C |
DBJ | BAD92309 BAG52375 BAI46763 |
EMBL | CAB43290 |
GB | AAH47393 AAK96896 AAL09356 AAL76101 AAX78233 |
REF | NP_001009922 NP_001248474 NP_001265467 NP_056251 XP_001154449 |
SP | Q96PM5 |
Download simulated HSQC data in one of the following formats:
CSV: Backbone
or all simulated shifts
SPARKY: Backbone
or all simulated shifts