Paper Citing NAMD - Abstract
Elmore, Donald E.; Guayasamin, Ryann C.; Kieffer, Madeleine E.
A Series of Molecular Dynamics and Homology Modeling Computer Labs for an Undergraduate Molecular Modeling Course
BIOCHEMISTRY AND MOLECULAR BIOLOGY EDUCATION, 38:216-223, JUL-AUG 2010
As computational modeling plays an increasingly central role in biochemical research, it is important to provide students with exposure to common modeling methods in their undergraduate curriculum. This article describes a series of computer labs designed to introduce undergraduate students to energy minimization, molecular dynamics simulations, and homology modeling. These labs were created as part of a one-semester course on the molecular modeling of biochemical systems. Students who completed these activities felt that they were an effective component of the course, reporting improved comfort with the conceptual background and practical implementation of the computational methods. Although created as a component of a larger course, these activities could be readily adapted for a variety of other educational contexts. As well, all of these labs utilize software that is freely available in an academic environment and can be run on fairly common computer hardware, making them accessible to teaching environments without extensive computational resources.
