Your search keyword '"Schaff JC"' showing total 2 results

1. Quantitative cell biology with the Virtual Cell.

Author

Slepchenko BM, Schaff JC, Macara I, and Loew LM

Subjects

Active Transport, Cell Nucleus physiology, Animals, Calcium chemistry, Calcium metabolism, Software, User-Computer Interface, Cell Physiological Phenomena, Computational Biology methods, Computer Simulation

Abstract

Cell biological processes are controlled by an interacting set of biochemical and electrophysiological events that are distributed within complex cellular structures. Computational models, comprising quantitative data on the interacting molecular participants in these events, provide a means for applying the scientific method to these complex systems. The Virtual Cell is a computational environment designed for cell biologists, to facilitate the construction of models and the generation of predictive simulations from them. This review summarizes how a Virtual Cell model is assembled and describes the physical principles underlying the calculations that are performed. Applications to problems in nucleocytoplasmic transport and intracellular calcium dynamics will illustrate the power of this paradigm for elucidating cell biology.

Published

2003

2. The Virtual Cell: a software environment for computational cell biology.

Author

Loew LM and Schaff JC

Subjects

Software, Biology trends, Cell Biology trends, Computer Simulation, Models, Biological

Abstract

The newly emerging field of computational cell biology requires software tools that address the needs of a broad community of scientists. Cell biological processes are controlled by an interacting set of biochemical and electrophysiological events that are distributed within complex cellular structures. Computational modeling is familiar to researchers in fields such as molecular structure, neurobiology and metabolic pathway engineering, and is rapidly emerging in the area of gene expression. Although some of these established modeling approaches can be adapted to address problems of interest to cell biologists, relatively few software development efforts have been directed at the field as a whole. The Virtual Cell is a computational environment designed for cell biologists as well as for mathematical biologists and bioengineers. It serves to aid the construction of cell biological models and the generation of simulations from them. The system enables the formulation of both compartmental and spatial models, the latter with either idealized or experimentally derived geometries of one, two or three dimensions.

Published

2001