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5PE2

PanDDA analysis group deposition -- Crystal Structure of BAZ2B after initial refinement with no ligand modelled (structure 95)

Summary for 5PE2
Entry DOI10.2210/pdb5pe2/pdb
Group depositionPanDDA analysis group deposition of models of ground state datasets (G_1002019)
DescriptorBromodomain adjacent to zinc finger domain protein 2B, 1,2-ETHANEDIOL (3 entities in total)
Functional Keywordspandda, sgc - diamond i04-1 fragment screening, bromodomain, epigenetics, dna binding protein
Biological sourceHomo sapiens (Human)
Cellular locationNucleus : Q9UIF8
Total number of polymer chains1
Total formula weight16152.39
Authors
Primary citationPearce, N.M.,Krojer, T.,Bradley, A.R.,Collins, P.,Nowak, R.P.,Talon, R.,Marsden, B.D.,Kelm, S.,Shi, J.,Deane, C.M.,von Delft, F.
A multi-crystal method for extracting obscured crystallographic states from conventionally uninterpretable electron density.
Nat Commun, 8:15123-15123, 2017
Cited by
PubMed Abstract: In macromolecular crystallography, the rigorous detection of changed states (for example, ligand binding) is difficult unless signal is strong. Ambiguous ('weak' or 'noisy') density is experimentally common, since molecular states are generally only fractionally present in the crystal. Existing methodologies focus on generating maximally accurate maps whereby minor states become discernible; in practice, such map interpretation is disappointingly subjective, time-consuming and methodologically unsound. Here we report the PanDDA method, which automatically reveals clear electron density for the changed state-even from inaccurate maps-by subtracting a proportion of the confounding 'ground state'; changed states are objectively identified from statistical analysis of density distributions. The method is completely general, implying new best practice for all changed-state studies, including the routine collection of multiple ground-state crystals. More generally, these results demonstrate: the incompleteness of atomic models; that single data sets contain insufficient information to model them fully; and that accuracy requires further map-deconvolution approaches.
PubMed: 28436492
DOI: 10.1038/ncomms15123
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.71 Å)
Structure validation

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