Visualizing the Invisible: A Guide to Designing, Printing, and Incorporating Dynamic 3D Molecular Models to Teach Structure–Function Relationships - Concepedia

Concepedia

Publication | Open Access

Visualizing the Invisible: A Guide to Designing, Printing, and Incorporating Dynamic 3D Molecular Models to Teach Structure–Function Relationships

DOI Full Paper Access

16

Citations

8

References

2018

Year

Michelle Howell, Karin van Dijk, Christine S. Booth, Tomáš Helikar, Brian A. Couch, Rebecca Roston

Journal of Microbiology and Biology Education

EngineeringMolecular ModelsMolecular BiologyBiofabricationBiomolecule FilesBiological ComputingMolecular DesignMolecular GraphicMolecular ComputingIncorporating Dynamic 3DDna ComputingMacromolecular AssembliesBiophysicsMacromolecular MachineStructure–function RelationshipsMolecular ModelingStructural BiologyBiomolecular EngineeringSupplemental Video GuideMacromolecular StructureNatural SciencesComputational BiologySynthetic BiologyMolecular BiophysicsComputational Biophysics

Abstract

3D printing represents an emerging technology with significant potential to advance life-science education by allowing students to directly explore the relationship between macromolecular structure and function. In this article and supplemental video guide, we describe our development of a model-based instructional module on DNA supercoiling and outline practical tips for implementing models in undergraduate classrooms. We also present a procedure to design and print 3D dynamic models for classroom use. Furthermore, we describe repositories of 3D biomolecule files to make using models accessible and cost-effective.

References

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