Personal Microbiomes and Next-Generation Sequencing for Laboratory-Based Education
Author ORCID Identifier
Candice M. Etson: 0000-0002-9796-269X
Document Type
Article
Publication Date
12-1-2016
Publication Title
FEMS Microbiology Letters
Abstract
Sequencing and bioinformatics technologies have advanced rapidly in recent years, driven largely by developments in next-generation sequencing (NGS) technology. Given the increasing importance of these advances, there is a growing need to incorporate concepts and practices relating to NGS into undergraduate and high school science curricula. We believe that direct access to sequencing and bioinformatics will improve the ability of students to understand the information obtained through these increasingly ubiquitous research tools. In this commentary, we discuss approaches and challenges for bringing NGS into the classroom based on our experiences in developing and running a microbiome project in high school and undergraduate courses. We describe strategies for maximizing student engagement through establishing personal relevance and utilizing an inquiry-based structure. Additionally, we address the practical issues of incorporating cutting edge technologies into an established curriculum. Looking forward, we anticipate that NGS educational experiments will become more commonplace as sequencing costs continue to decrease and the workflow becomes more user friendly.
Keywords
Education, Microbiome, Next-generation sequencing
Volume
363
Issue
23
DOI
10.1093/femsle/fnw266
ISSN
03781097
Recommended Citation
Hartman, Mark R.; Harrington, Kristin T.; Etson, Candice M.; Fierman, Matthew B.; Slonim, Donna K.; and Walt, David R., "Personal Microbiomes and Next-Generation Sequencing for Laboratory-Based Education" (2016). Physics: Faculty Publications, Smith College, Northampton, MA.
https://scholarworks.smith.edu/phy_facpubs/120