A short history of SHELX
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TLDR
This paper could serve as a general literature citation when one or more of the open-source SH ELX programs (and the Bruker AXS version SHELXTL) are employed in the course of a crystal-structure determination.Abstract:
An account is given of the development of the SHELX system of computer programs from SHELX-76 to the present day. In addition to identifying useful innovations that have come into general use through their implementation in SHELX, a critical analysis is presented of the less-successful features, missed opportunities and desirable improvements for future releases of the software. An attempt is made to understand how a program originally designed for photographic intensity data, punched cards and computers over 10000 times slower than an average modern personal computer has managed to survive for so long. SHELXL is the most widely used program for small-molecule refinement and SHELXS and SHELXD are often employed for structure solution despite the availability of objectively superior programs. SHELXL also finds a niche for the refinement of macromolecules against high-resolution or twinned data; SHELXPRO acts as an interface for macromolecular applications. SHELXC, SHELXD and SHELXE are proving useful for the experimental phasing of macromolecules, especially because they are fast and robust and so are often employed in pipelines for high-throughput phasing. This paper could serve as a general literature citation when one or more of the open-source SHELX programs (and the Bruker AXS version SHELXTL) are employed in the course of a crystal-structure determination.read more
Citations
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Journal ArticleDOI
Crystal structure refinement with SHELXL
TL;DR: New features added to the refinement program SHELXL since 2008 are described and explained.
Journal ArticleDOI
OLEX2: a complete structure solution, refinement and analysis program
TL;DR: OLEX2 seamlessly links all aspects of the structure solution, refinement and publication process and presents them in a single workflow-driven package, with the ultimate goal of producing an application which will be useful to both chemists and crystallographers.
Journal ArticleDOI
PHENIX: a comprehensive Python-based system for macromolecular structure solution
Paul D. Adams,Paul D. Adams,Pavel V. Afonine,Gábor Bunkóczi,Vincent B. Chen,Ian W. Davis,Nathaniel Echols,Jeffrey J. Headd,Li-Wei Hung,Gary J. Kapral,Ralf W. Grosse-Kunstleve,Airlie J. McCoy,Nigel W. Moriarty,Robert D. Oeffner,Randy J. Read,David S. Richardson,Jane S. Richardson,Thomas C. Terwilliger,Peter H. Zwart +18 more
TL;DR: The PHENIX software for macromolecular structure determination is described and its uses and benefits are described.
Journal ArticleDOI
SHELXT - Integrated space-group and crystal- structure determination
TL;DR: This work automates routine small-molecule structure determination starting from single-crystal reflection data, the Laue group and a reasonable guess as to which elements might be present.
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VESTA 3 for three-dimensional visualization of crystal, volumetric and morphology data
Koichi Momma,Fujio Izumi +1 more
TL;DR: VESTA has been upgraded to the latest version, VESTA 3, implementing new features including drawing the external morphology of crystals, and an extended bond-search algorithm to enable more sophisticated searches in complex molecules and cage-like structures.
References
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Journal ArticleDOI
Structure of the type I L-asparaginase from the hyperthermophilic archaeon Pyrococcus horikoshii at 2.16 angstroms resolution.
TL;DR: The crystal structure of the L-asparaginase from the hyperthermophilic archaeon Pyrococcus horikoshii (PhA) was determined by the multiwavelength anomalous diffraction method and was refined to a resolution of 2.16 angstroms, the first report of the three-dimensional structure of a type I L- asparaginases.
Book
Crystallographic computing 5: from chemistry to biology: papers presented at the International School in crystallographic computing held at Bischenberg, France, 29 July -- 5 August 1990
TL;DR: This work discusses the recording and analysis of data from macromolecular crystals and the integration of multiwavelength anomalous diffraction and direct methods, and discusses the phase problem in protein crystallography.
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In-house measurement of the sulfur anomalous signal and its use for phasing.
TL;DR: Five test structures (orthorhombic and trigonal trypsin, cubic and rhombohedral insulin and thaumatin) have been solved by the SAD method using highly redundant data collected at 100 K with a CCD detector, rotating-anode generator and three-circle goniometer.
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Refinement of obverse/reverse twins.
TL;DR: Two examples of structures of obverse/reverse twins are presented and it will be shown how these two structures can be refined with the SHELXL program.
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Structure determination of the O-methyltransferase NovP using the `free lunch algorithm' as implemented in SHELXE
TL;DR: The structure of NovP could be solved by first tracing a small part of the structure by hand and then extrapolating within and beyond the experimental resolution limit using the ;free lunch algorithm' in SHELXE.