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Computational design of CRISPR guide RNAs to enable strain-specific control of microbial consortia

Austin G. Rottinghaus, Scott Vo, Tae Seok Moon

2022Proceedings of the National Academy of Sciences34 citationsDOIOpen Access PDF

Abstract

Microbes naturally coexist in complex, multistrain communities. However, extracting individual microbes from and specifically manipulating the composition of these consortia remain challenging. The sequence-specific nature of CRISPR guide RNAs can be leveraged to accurately differentiate microorganisms and facilitate the creation of tools that can achieve these tasks. We developed a computational program, ssCRISPR, which designs strain-specific CRISPR guide RNA sequences with user-specified target strains, protected strains, and guide RNA properties. We experimentally verify the accuracy of the strain specificity predictions in both Escherichia coli and Pseudomonas spp. and show that up to three nucleotide mismatches are often required to ensure perfect specificity. To demonstrate the functionality of ssCRISPR, we apply computationally designed CRISPR-Cas9 guide RNAs to two applications: the purification of specific microbes through one- and two-plasmid transformation workflows and the targeted removal of specific microbes using DNA-loaded liposomes. For strain purification, we utilize gRNAs designed to target and kill all microbes in a consortium except the specific microbe to be isolated. For strain elimination, we utilize gRNAs designed to target only the unwanted microbe while protecting all other strains in the community. ssCRISPR will be of use in diverse microbiota engineering applications.

Topics & Concepts

CRISPRComputational biologyCas9Guide RNABiologyPlasmidTrans-activating crRNASynthetic biologyRNAStrain (injury)GeneticsDNAGeneAnatomyCRISPR and Genetic EngineeringBacterial Genetics and BiotechnologyBacteriophages and microbial interactions
Computational design of CRISPR guide RNAs to enable strain-specific control of microbial consortia | Litcius