Density and chemical environment, and refined successfully. These molecules are likely to be decomposition products or impurities of the PEG200 cryoprotectant. The final model also includes multiple side chain conformers and water molecules. The stereochemistry of the model was checked using Title Loaded From File Title Loaded From File MOLPROBITY [37]. PISA (Protein Interfaces, Surfaces and Assemblies [38]) was used to calculate surface and dimer interface areas. Fig. 2 was prepared with ALINE [39] and the others were produced using PyMOL [40]. Data collection and structure refinement statistics are shown in Table 1. The atomic coordinates and structure factors have been deposited in the PDB with accession code 4BHX.27.4 25.9 38.4 43.2 0.02 2.98.4 1.6 0.?Values in parentheses refer to the highest resolution shell (2.00?.95 A). Rmerge = ghgi||(h,i)?I(h). ghgi I(h,i); where I(h,i) is the intensity of the ith measurement of reflection h and ,I(h). is the mean value 16574785 of I(h,i) for all i measurements. c Rwork = ghkl||Fo|2|Fc||/g|Fo|, where Fo is the observed structure factor amplitude and the Fc is the structure-factor amplitude calculated from the model. d Rfree is the same as Rwork except calculated with a subset, 5 , of data that are excluded from refinement calculations. doi:10.1371/journal.pone.0069538.tbResults and Discussion Structure QualityCrystals of human PEG3-SCAN belong to space group P65, ?with a VM value of 2.44 A3 Da21 and solvent content of approximately 50 for an asymmetric unit comprising two polypeptide chains. The polypeptides are arranged as a symmetrical dimer consistent with the GF results obtained during protein purification and also with previously solved structures of SCAN ?domains. The crystals diffract to a resolution of 1.95 A and the majority of the residues are located within well-defined electron density, apart from a few residues at the C-terminus. In addition, the final model contains two extra residues (His and Met) at the Nterminus, which are remnants from proteolytic cleavage of the histidine tag. A Ramachandran plot indicates that 98.4 of theSCAN Domain of PEGFigure 2. The primary and secondary structure of PEG3-SCAN. Five a-helices are shown as cylinders (purple) and are numbered accordingly. Multiple sequence alignment of PEG3-SCAN with other SCAN proteins from PDB was performed with ClustalW2 [48]. PEG3-SCAN residues that are strictly conserved in Zfp206 (PDB: 4E6S), Znf24 (PDB: 3LHR), Znf42 (PDB: 2FI2) and Znf174 (PDB: 1Y7Q) are encased in black, while residues sharing similar properties in five proteins are encased in grey. The numbers that are shown above the secondary structure mark residues in the full length PEG3 protein (UniProt: Q9GZU2). doi:10.1371/journal.pone.0069538.gamino acids are located in the most favoured region with no outliers.Overall StructureThe human PEG3-SCAN domain folds as an extended Vshaped structure, with approximate overall dimensions of ??50625625 A. Each arm of the V-shape is approximately 35 A in length. The subunit comprises five a helices and the assignment of secondary structure onto the sequence is presented in Fig. 2 with the fold depicted in Fig. 3. Helices a1 and a2 which form an 23977191 Nterminal sub-domain are aligned antiparallel to create one half of the V. A C-terminal sub-domain, which forms the other half, results from a3, a4 and a5 being packed together. The domain aligns with the N-terminal sub-domains interacting with partner C-terminal sub-domains (Fig. 3) to form a dimer with approximate ?dimensions.Density and chemical environment, and refined successfully. These molecules are likely to be decomposition products or impurities of the PEG200 cryoprotectant. The final model also includes multiple side chain conformers and water molecules. The stereochemistry of the model was checked using MOLPROBITY [37]. PISA (Protein Interfaces, Surfaces and Assemblies [38]) was used to calculate surface and dimer interface areas. Fig. 2 was prepared with ALINE [39] and the others were produced using PyMOL [40]. Data collection and structure refinement statistics are shown in Table 1. The atomic coordinates and structure factors have been deposited in the PDB with accession code 4BHX.27.4 25.9 38.4 43.2 0.02 2.98.4 1.6 0.?Values in parentheses refer to the highest resolution shell (2.00?.95 A). Rmerge = ghgi||(h,i)?I(h). ghgi I(h,i); where I(h,i) is the intensity of the ith measurement of reflection h and ,I(h). is the mean value 16574785 of I(h,i) for all i measurements. c Rwork = ghkl||Fo|2|Fc||/g|Fo|, where Fo is the observed structure factor amplitude and the Fc is the structure-factor amplitude calculated from the model. d Rfree is the same as Rwork except calculated with a subset, 5 , of data that are excluded from refinement calculations. doi:10.1371/journal.pone.0069538.tbResults and Discussion Structure QualityCrystals of human PEG3-SCAN belong to space group P65, ?with a VM value of 2.44 A3 Da21 and solvent content of approximately 50 for an asymmetric unit comprising two polypeptide chains. The polypeptides are arranged as a symmetrical dimer consistent with the GF results obtained during protein purification and also with previously solved structures of SCAN ?domains. The crystals diffract to a resolution of 1.95 A and the majority of the residues are located within well-defined electron density, apart from a few residues at the C-terminus. In addition, the final model contains two extra residues (His and Met) at the Nterminus, which are remnants from proteolytic cleavage of the histidine tag. A Ramachandran plot indicates that 98.4 of theSCAN Domain of PEGFigure 2. The primary and secondary structure of PEG3-SCAN. Five a-helices are shown as cylinders (purple) and are numbered accordingly. Multiple sequence alignment of PEG3-SCAN with other SCAN proteins from PDB was performed with ClustalW2 [48]. PEG3-SCAN residues that are strictly conserved in Zfp206 (PDB: 4E6S), Znf24 (PDB: 3LHR), Znf42 (PDB: 2FI2) and Znf174 (PDB: 1Y7Q) are encased in black, while residues sharing similar properties in five proteins are encased in grey. The numbers that are shown above the secondary structure mark residues in the full length PEG3 protein (UniProt: Q9GZU2). doi:10.1371/journal.pone.0069538.gamino acids are located in the most favoured region with no outliers.Overall StructureThe human PEG3-SCAN domain folds as an extended Vshaped structure, with approximate overall dimensions of ??50625625 A. Each arm of the V-shape is approximately 35 A in length. The subunit comprises five a helices and the assignment of secondary structure onto the sequence is presented in Fig. 2 with the fold depicted in Fig. 3. Helices a1 and a2 which form an 23977191 Nterminal sub-domain are aligned antiparallel to create one half of the V. A C-terminal sub-domain, which forms the other half, results from a3, a4 and a5 being packed together. The domain aligns with the N-terminal sub-domains interacting with partner C-terminal sub-domains (Fig. 3) to form a dimer with approximate ?dimensions.
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