Microfluidic Enrichment and Computational Analysis of Rare Sequences from Mixed Genomic Samples for Metagenomic Mining

Author(s)

Cui, Naiwen; Faure, Guihem; Singh, Ankita; Macrae, Rhiannon; Zhang, Feng

Abstract

Many powerful molecular biology tools have their origins in natural systems, including restriction modification enzymes and the CRISPR effectors, Cas9, Cas12, and Cas13. Heightened interest in these systems has led to mining of genomic and metagenomic data to identify new orthologs of these proteins, new types of CRISPR systems, and uncharacterized natural systems with novel mechanisms. To accelerate metagenomic mining, we developed a high-throughput, low-cost droplet microfluidic-based method for enrichment of rare sequences in a mixed starting population. Using a computational pipeline, we then searched in the enriched data for the presence of CRISPR-Cas systems, identifying a previously unknown CRISPR-Cas system. Our approach enables researchers to efficiently mine metagenomic samples for sequences of interest, greatly accelerating the search for nature's treasures.

Date issued

2022-10-01

URI

https://hdl.handle.net/1721.1/150368

Department

Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences

Journal

The CRISPR Journal

Publisher

Mary Ann Liebert Inc

Citation

Cui, Naiwen, Faure, Guihem, Singh, Ankita, Macrae, Rhiannon and Zhang, Feng. 2022. "Microfluidic Enrichment and Computational Analysis of Rare Sequences from Mixed Genomic Samples for Metagenomic Mining." The CRISPR Journal, 5 (5).

Version: Final published version