Author: Rodriguez, Princess D.; Mariani, Michael; Gay, Jamie; Hogan, Tyler C.; Amiel, Eyal; Deming, Paula B.; Frietze, Seth
Title: A guidedâ€inquiry investigation of genetic variants using Oxford nanopore sequencing for an undergraduate molecular biology laboratory course Cord-id: p7e3dhb8 Document date: 2021_5_3
ID: p7e3dhb8
Snippet: Next Generation Sequencing (NGS) has become an important tool in the biological sciences and has a growing number of applications across medical fields. Currently, few undergraduate programs provide training in the design and implementation of NGS applications. Here, we describe an inquiryâ€based laboratory exercise for a collegeâ€level molecular biology laboratory course that uses realâ€time MinION deep sequencing and bioinformatics to investigate characteristic genetic variants found in can
Document: Next Generation Sequencing (NGS) has become an important tool in the biological sciences and has a growing number of applications across medical fields. Currently, few undergraduate programs provide training in the design and implementation of NGS applications. Here, we describe an inquiryâ€based laboratory exercise for a collegeâ€level molecular biology laboratory course that uses realâ€time MinION deep sequencing and bioinformatics to investigate characteristic genetic variants found in cancer cellâ€lines. The overall goal for students was to identify nonâ€small cell lung cancer (NSCLC) cellâ€lines based on their unique genomic profiles. The units described in this laboratory highlight core principles in multiplex PCR primer design, realâ€time deep sequencing, and bioinformatics analysis for genetic variants. We found that the MinION device is an appropriate, feasible tool that provides a comprehensive, handsâ€on NGS experience for undergraduates. Student evaluations demonstrated increased confidence in using molecular techniques and enhanced understanding of NGS concepts. Overall, this exercise provides a pedagogical tool for incorporating NGS approaches in the teaching laboratory as way of enhancing students' comprehension of genomic sequence analysis. Further, this NGS lab module can easily be added to a variety of labâ€based courses to help undergraduate students learn current DNA sequencing methods with limited effort and cost.
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