Robert M. Hanson scite author profile

Recent advances in molecular and crystallographic visualization methods are allowing instructors unprecedented opportunities to enhance student learning using virtual models within a familiar web-browser context. In step with these advances, the latest versions of the Jmol molecular visualization applet offer capabilities that hold potential for revolutionizing the way students learn about symmetry, uncertainty and the overall enterprise of molecular structure determination.teaching and education

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Web servers and services for electrostatics calculations with APBS and PDB2PQR

Unni

et al. 2011

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in Wiley Online Library (wileyonlinelibrary.com).Abstract: APBS and PDB2PQR are widely utilized free software packages for biomolecular electrostatics calculations. Using the Opal toolkit, we have developed a Web services framework for these software packages that enables the use of APBS and PDB2PQR by users who do not have local access to the necessary amount of computational capabilities. This not only increases accessibility of the software to a wider range of scientists, educators, and students but also increases the availability of electrostatics calculations on portable computing platforms. Users can access this new functionality in two ways. First, an Opal-enabled version of APBS is provided in current distributions, available freely on the web. Second, we have extended the PDB2PQR web server to provide an interface for the setup, execution, and visualization of electrostatic potentials as calculated by APBS. This web interface also uses the Opal framework which ensures the scalability needed to support the large APBS user community. Both of these resources are available from the APBS/PDB2PQR website: http://www.poissonboltzmann.org/.q

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JSmol and the Next‐Generation Web‐Based Representation of 3D Molecular Structure as Applied to Proteopedia

Hanson

Prilusky

Renjian³

et al. 2013

Israel Journal of Chemistry

243

188

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Although Java does not run on some handheld devices, e.g., iPads and iPhones, JavaScript does. The development of JSmol, a JavaScript‐only version of Jmol, is described, and its use in Proteopedia is demonstrated. A key aspect of JSmol is that it includes the full implementation of the entire set of Jmol functionalities, including file reading and writing, scripting, and rendering. The relative performances of Java‐based Jmol and JavaScript‐only JSmol are discussed. We can now confirm that the guiding principles of Java programming can be completely and relatively straightforwardly transformed directly into JavaScript, requiring no Java applet, and producing identical graphical results. JSmol is thus the first full‐featured molecular viewer, and the first ever viewer for proteins, which can be utilized with an internet browser on handheld devices lacking Java. Since the MediaWiki features of Proteopedia have been modified to optionally use JSmol, the wealth of crowd‐sourced content in Proteopedia is now directly available on such devices, without the need to download any additional applet.

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The AFLOW Library of Crystallographic Prototypes: Part 1

Mehl

Hicks

Toher

et al. 2017

Computational Materials Science

198

166

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Robert M. Hanson

Catalytic asymmetric epoxidation and kinetic resolution: modified procedures including in situ derivatization

Jmol– a paradigm shift in crystallographic visualization

Web servers and services for electrostatics calculations with APBS and PDB2PQR

JSmol and the Next‐Generation Web‐Based Representation of 3D Molecular Structure as Applied to Proteopedia

The AFLOW Library of Crystallographic Prototypes: Part 1

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