X-Ray Diffraction data from Mycobacterial methylmannose polysaccharide mannosyltransferase, source of 7QSG structure

X-Ray Diffraction data from M. hassiacum ManT, source of 7QSG structure


X-Ray Diffraction data from E. coli CapP C-terminal domain, I99M mutant, source of 7T5V structure

Native data


X-Ray Diffraction data from E. coli CapH C-terminal domain, source of 7T5W structure

Native data


X-Ray Diffraction data from E. coli CapH N-terminal domain, source of 7T5U structure

Native data


X-Ray Diffraction data from Thauera sp. K11 CapP, source of 7T5T structure

Selenomethione SAD (peak) data


X-Ray Diffraction data from Thauera sp. K11 CapP, source of 7T5T structure

Native data


X-Ray Diffraction data from Bai1 TSR3 domain, source of 7R85 structure

native dataset, P4222 crystal form


X-Ray Diffraction data from Bai1 TSR3 domain, source of 7R84 structure

native dataset, P21 crystal form


X-Ray Diffraction data from Bai1-RTN4R complex, source of 7R86 structure

native dataset


X-Ray Diffraction data from Beta-galactosidase from Arthrobacter sp. C2-2, source of 1YQ2 structure

native data set


X-Ray Diffraction data from Integrin beta5(743-774)-linker-PAK4cat(D440N/S474E), source of 7S47 structure

Native data


X-Ray Diffraction data from PAK4cat in complex with Integrin beta5 760-770 peptide, source of 7S48 structure

Native data


X-Ray Diffraction data from PAK4cat (D440N/S474E) in complex with Integrin beta5 760-770 peptide, source of 7S46 structure

Native datasets


X-Ray Diffraction data from nanobody complex with IL2Rb, source of 7S2S structure

native dataset


X-Ray Diffraction data from nanobody complex with IL2Rg, source of 7S2R structure

native dataset


PDHc Core Scaffold structure from C. thermophilum

Structural model of the E3BP core, refined in a C2 symmetrized cryoEM map. E3BP showed a minimal fold, which is conserved, and can be found in various other E2 proteins from diverse acyl-transferases, including the 2-keto acid dehydrogenase family. Additionally, by fitting the structural models into an asymmetrically refined cryoEM map, we supply a structural model for the native core scaffold of the PDHc metabolon from C. thermophilum. Models were built and refined by COOT and PHENIX. To capture the transient interaction of lipoyl domain (LD) and the core structure during the transacetylase reaction, we docked the LDs of C. thermophilum, H. sapiens, and N. crassa to their respective core structure. HADDOCK parameter files are deposited to reproduce docking. The best docking solution of C. thermophilum was used to study the interaction by extensive MD simulations. Parameter files and results are also given, to reproduce these simulations.


X-Ray Diffraction data from Human thrombin:tsetse thrombin inhibitor complex, source of 7PHX structure

Human thrombin:tsetse thrombin inhibitor complex, source of 7PHX structure


X-Ray Diffraction data from Protein tyrosine phosphatase 1B, source of 7RIN structure

Apo PTP1B by Native S-SAD at Room Temperature


X-Ray Diffraction data from Putative DNA repair helicase RadD, with ADP, at 2.03 Angstrom., source of 7R7J structure

Collected at APS on beamline LS-Cat D. 0-360 degrees rotation one degree frames. MARR 300 CCD.


Protein-protein structures

HADDOCK refined 3D structures from multiple datasets (BM5, MANY, DC, CAPRI), used for experiments in the DeepRank paper. 1.Renaud, N. et al. DeepRank: A deep learning framework for data mining 3D protein-protein interfaces. bioRxiv 2021.01.29.425727 (2021) doi:10.1101/2021.01.29.425727.