Locating the anomalous scatterer substructures in halide and sulfur phasing

Improved data quality now makes it feasible to exploit the weak anomalous signal derived only from the sulfurs inherent to the protein or in particular from halide ions incorporated by soaking. The latter technique requires the location of a high number of partially occupied halide sites. This numbe...

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Published in	Acta crystallographica. Section D, Biological crystallography. Vol. 59; no. 1; pp. 57 - 66
Main Authors	Usón, Isabel, Schmidt, Bernhard, Von Bülow, Rixa, Grimme, Susanne, Von Figura, Kurt, Dauter, Miroslawa, Rajashankar, Kanagalaghatta R., Dauter, Zbigniew, Sheldrick, George M.
Format	Journal Article
Language	English
Published	5 Abbey Square, Chester, Cheshire CH1 2HU, England Munksgaard International Publishers 01.01.2003
Subjects	Amino Acid Sequence anomalous scattering Binding Sites Bromides - chemistry CRYSTAL STRUCTURE Crystallography, X-Ray - methods dual-space recycling HALIDES Humans Iodides - chemistry MAD MATERIALS SCIENCE Models, Molecular Molecular Sequence Data NATIONAL SYNCHROTRON LIGHT SOURCE PHASE STUDIES Protein Conformation Protein Structure, Secondary Proteins - chemistry Receptor, IGF Type 2 - chemistry SAD SCATTERING Scattering, Radiation SHELXD SIRAS Software Stereoisomerism SULFUR Sulfur - chemistry
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Abstract	Improved data quality now makes it feasible to exploit the weak anomalous signal derived only from the sulfurs inherent to the protein or in particular from halide ions incorporated by soaking. The latter technique requires the location of a high number of partially occupied halide sites. This number appears to be roughly proportional to the exposed protein surface. This paper explores the application of dual‐space ab initio methods as implemented in the program SHELXD to the location of substructures of sulfur in SAD experiments, bromide in SAD and MAD experiments and iodide using SAD and SIRAS to determine the anomalous‐atom substructure. Sets of atoms consistent with the Patterson function were generated as a starting point for the dual‐space recycling procedure in SHELXD. The substructure is then expanded to the full structure by maximum‐likelihood phasing with SHARP and density modification with the program DM. Success in the location of the substructures and subsequent phasing depends critically on the quality of the data and on the extent of the anomalous signal. This varies with each crystal and soak, but for the same crystal the significance of the anomalous signal was found to be highly sensitive to the redundancy of the intensity measurements, which in some cases made all the difference. This is illustrated by the determination of the previously unknown structure of repeat 11 of the human mannose‐6‐phosphate/insulin‐like growth factor II receptor (Man6P/IGFII‐receptor), with 310 amino acids in the asymmetric unit, which was phased by soaking the crystals in a cryoprotectant solution containing halide anions.
AbstractList	Improved data quality now makes it feasible to exploit the weak anomalous signal derived only from the sulfurs inherent to the protein or in particular from halide ions incorporated by soaking. The latter technique requires the location of a high number of partially occupied halide sites. This number appears to be roughly proportional to the exposed protein surface. This paper explores the application of dual-space ab initio methods as implemented in the program SHELXD to the location of substructures of sulfur in SAD experiments, bromide in SAD and MAD experiments and iodide using SAD and SIRAS to determine the anomalous-atom substructure. Sets of atoms consistent with the Patterson function were generated as a starting point for the dual-space recycling procedure in SHELXD. The substructure is then expanded to the full structure by maximum-likelihood phasing with SHARP and density modification with the program DM. Success in the location of the substructures and subsequent phasing depends critically on the quality of the data and on the extent of the anomalous signal. This varies with each crystal and soak, but for the same crystal the significance of the anomalous signal was found to be highly sensitive to the redundancy of the intensity measurements, which in some cases made all the difference. This is illustrated by the determination of the previously unknown structure of repeat 11 of the human mannose-6-phosphate/insulin-like growth factor II receptor (Man6P/IGFII-receptor), with 310 amino acids in the asymmetric unit, which was phased by soaking the crystals in a cryoprotectant solution containing halide anions.
Author	Dauter, Miroslawa Dauter, Zbigniew Von Figura, Kurt Sheldrick, George M. Usón, Isabel Schmidt, Bernhard Grimme, Susanne Rajashankar, Kanagalaghatta R. Von Bülow, Rixa
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SubjectTerms	Amino Acid Sequence anomalous scattering Binding Sites Bromides - chemistry CRYSTAL STRUCTURE Crystallography, X-Ray - methods dual-space recycling HALIDES Humans Iodides - chemistry MAD MATERIALS SCIENCE Models, Molecular Molecular Sequence Data NATIONAL SYNCHROTRON LIGHT SOURCE PHASE STUDIES Protein Conformation Protein Structure, Secondary Proteins - chemistry Receptor, IGF Type 2 - chemistry SAD SCATTERING Scattering, Radiation SHELXD SIRAS Software Stereoisomerism SULFUR Sulfur - chemistry
Title	Locating the anomalous scatterer substructures in halide and sulfur phasing
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