Aaron Bryden scite author profile

Aaron Bryden

5Publications

83Citation Statements Received

19Citation Statements Given

How they've been cited

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110

Affiliations

University of Wisconsin–Madison, Ames Laboratory, United States Naval Research Laboratory

Publications

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Automated Illustration of Molecular Flexibility

Bryden

Phillips

Gleicher

2012

IEEE Trans. Visual. Comput. Graphics

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In this paper, we present an approach to creating illustrations of molecular flexibility using normal mode analysis (NMA). The output of NMA is a collection of points corresponding to the locations of atoms and associated motion vectors, where a vector for each point is known. Our approach abstracts the complex object and its motion by grouping the points, models the motion of each group as an affine velocity, and depicts the motion of each group by automatically choosing glyphs such as arrows. Affine exponentials allow the extrapolation of nonlinear effects such as near rotations and spirals from the linear velocities. Our approach automatically groups points by finding sets of neighboring points whose motions fit the motion model. The geometry and motion models for each group are used to determine glyphs that depict the motion, with various aspects of the motion mapped to each glyph. We evaluated the utility of our system in real work done by structural biologists both by utilizing it in our own structural biology work and quantitatively measuring its usefulness on a set of known protein conformation changes. Additionally, in order to allow ourselves and our collaborators to effectively use our techniques we integrated our system with commonly used tools for molecular visualization.

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Using a commodity high-definition television for collaborative structural biology

Yennamalli

Arangarasan²,

Bryden

et al. 2014

J Appl Cryst

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Visualization of protein structures using stereoscopic systems is frequently needed by structural biologists working to understand a protein's structurefunction relationships. Often several scientists are working as a team and need simultaneous interaction with each other and the graphics representations. Most existing molecular visualization tools support single-user tasks, which are not suitable for a collaborative group. Expensive caves, domes or geowalls have been developed, but the availability and low cost of high-definition televisions (HDTVs) and game controllers in the commodity entertainment market provide an economically attractive option to achieve a collaborative environment. This paper describes a low-cost environment, using standard consumer game controllers and commercially available stereoscopic HDTV monitors with appropriate signal converters for structural biology collaborations employing existing binary distributions of commonly used software packages like Coot, PyMOL, Chimera, VMD, O, Olex2 and others.

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Multidimensional Visual Representations for Underwater Environmental Uncertainty

Schmidt

Chen

Bryden

et al. 2004

IEEE Comput. Grap. Appl.

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Data mining for isotope discrimination in atom probe tomography

et al. 2013

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Interactive visualization of APT data at full fidelity

et al. 2013

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Aaron Bryden

Automated Illustration of Molecular Flexibility

Using a commodity high-definition television for collaborative structural biology

Multidimensional Visual Representations for Underwater Environmental Uncertainty

Data mining for isotope discrimination in atom probe tomography

Interactive visualization of APT data at full fidelity

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