A frugal CRISPR kit for equitable and accessible education in gene editing and synthetic biology

Marvin Collins, Matthew B. Lau, William Ma, Aidan Shen, Brenda Wang, Sa Cai, Marie Russa, Michael C. Jewett and Lei S. Qi ()
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Marvin Collins: Stanford University
Matthew B. Lau: Stanford University
William Ma: Chinese International School
Aidan Shen: East Chapel Hill High School
Brenda Wang: Stanford University
Sa Cai: Stanford University
Marie Russa: Stanford University
Michael C. Jewett: Stanford University
Lei S. Qi: Stanford University

Nature Communications, 2024, vol. 15, issue 1, 1-18

Abstract: Abstract Equitable and accessible education in life sciences, bioengineering, and synthetic biology is crucial for training the next generation of scientists, fostering transparency in public decision-making, and ensuring biotechnology can benefit a wide-ranging population. As a groundbreaking technology for genome engineering, CRISPR has transformed research and therapeutics. However, hands-on exposure to this technology in educational settings remains limited due to the extensive resources required for CRISPR experiments. Here, we develop CRISPRkit, an affordable kit designed for gene editing and regulation in high school education. CRISPRkit eliminates the need for specialized equipment, prioritizes biosafety, and utilizes cost-effective reagents. By integrating CRISPRi gene regulation, colorful chromoproteins, cell-free transcription-translation systems, smartphone-based quantification, and an in-house automated algorithm (CRISPectra), our kit offers an inexpensive (~$2) and user-friendly approach to performing and analyzing CRISPR experiments, without the need for a traditional laboratory setup. Experiments conducted by high school students in classroom settings highlight the kit’s utility for reliable CRISPRkit experiments. Furthermore, CRISPRkit provides a modular and expandable platform for genome engineering, and we demonstrate its applications for controlling fluorescent proteins and metabolic pathways such as melanin production. We envision CRISPRkit will facilitate biotechnology education for communities of diverse socioeconomic and geographic backgrounds.

Date: 2024
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DOI: 10.1038/s41467-024-50767-2

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