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1. acCRISPR: an activity-correction method for improving the accuracy of CRISPR screens

   https://doi.org/10.1038/s42003-023-04996-8  

   Ramesh, Adithya; Trivedi, Varun; Lee, Sangcheon; Tafrishi, Aida; Schwartz, Cory; Mohseni, Amirsadra; Li, Mengwan; Lonardi, Stefano; Wheeldon, Ian (June 2023, Communications Biology)

   Abstract High throughput CRISPR screens are revolutionizing the way scientists unravel the genetic underpinnings of engineered and evolved phenotypes. One of the critical challenges in accurately assessing screening outcomes is accounting for the variability in sgRNA cutting efficiency. Poorly active guides targeting genes essential to screening conditions obscure the growth defects that are expected from disrupting them. Here, we develop acCRISPR, an end-to-end pipeline that identifies essential genes in pooled CRISPR screens using sgRNA read counts obtained from next-generation sequencing. acCRISPR uses experimentally determined cutting efficiencies for each guide in the library to provide an activity correction to the screening outcomes via calculation of an optimization metric, thus determining the fitness effect of disrupted genes. CRISPR-Cas9 and -Cas12a screens were carried out in the non-conventional oleaginous yeastYarrowia lipolyticaand acCRISPR was used to determine a high-confidence set of essential genes for growth under glucose, a common carbon source used for the industrial production of oleochemicals. acCRISPR was also used in screens quantifying relative cellular fitness under high salt conditions to identify genes that were related to salt tolerance. Collectively, this work presents an experimental-computational framework for CRISPR-based functional genomics studies that may be expanded to other non-conventional organisms of interest. 

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2. A dual sgRNA library design to probe genetic modifiers using genome-wide CRISPRi screens

   https://doi.org/10.1186/s12864-023-09754-y  

   Guna, Alina; Page, Katharine R; Replogle, Joseph M; Esantsi, Theodore K; Wang, Maxine L; Weissman, Jonathan S; Voorhees, Rebecca M (December 2023, BMC Genomics)

   Mapping genetic interactions is essential for determining gene function and defining novel biological pathways. We report a simple to use CRISPR interference (CRISPRi) based platform, compatible with Fluorescence Activated Cell Sorting (FACS)-based reporter screens, to query epistatic relationships at scale. This is enabled by a flexible dual-sgRNA library design that allows for the simultaneous delivery and selection of a fixed sgRNA and a second randomized guide, comprised of a genome-wide library, with a single transduction. We use this approach to identify epistatic relationships for a defined biological pathway, showing both increased sensitivity and specificity than traditional growth screening approaches. 

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3. A comprehensive all-in-one CRISPR toolbox for large-scale screens in plants

   https://doi.org/10.1093/plcell/koaf081  

   Cheng, Yanhao; Li, Gen; Qi, Aileen; Mandlik, Rushil; Pan, Changtian; Wang, Doris; Ge, Sophia; Qi, Yiping (April 2025, The Plant Cell)

   Abstract Clustered regularly interspaced short palindromic repeats (CRISPR)-associated nuclease (Cas) technologies facilitate routine genome engineering of one or a few genes at a time. However, large-scale CRISPR screens with guide RNA libraries remain challenging in plants. Here, we have developed a comprehensive all-in-one CRISPR toolbox for Cas9-based genome editing, cytosine base editing, adenine base editing (ABE), Cas12a-based genome editing and ABE, and CRISPR-Act3.0-based gene activation in both monocot and dicot plants. We evaluated all-in-one T-DNA expression vectors in rice (Oryza sativa, monocot) and tomato (Solanum lycopersicum, dicot) protoplasts, demonstrating their broad and reliable applicability. To showcase the applications of these vectors in CRISPR screens, we constructed guide RNA (gRNA) pools for testing in rice protoplasts, establishing a high-throughput approach to select high-activity gRNAs. Additionally, we demonstrated the efficacy of sgRNA library screening for targeted mutagenesis of ACETOLACTATE SYNTHASE in rice, recovering novel candidate alleles for herbicide resistance. Furthermore, we carried out a CRISPR activation screen in Arabidopsis thaliana, rapidly identifying potent gRNAs for FLOWERING LOCUS T activation that confer an early-flowering phenotype. This toolbox contains 61 versatile all-in-one vectors encompassing nearly all commonly used CRISPR technologies. It will facilitate large-scale genetic screens for loss-of-function or gain-of-function studies, presenting numerous promising applications in plants. 

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4. CRISPRi-based functional genomic screening identifies genes essential for CH ₄ -dependent growth in the methanotroph Methylococcus capsulatus Bath

   https://doi.org/10.1101/2025.05.28.656465  

   Henard, Jessica M; Lee, Spencer A; Yu, Yao-Chuan; Shao, Danyang; Azad, Rajeev K; Henard, Calvin A (May 2025, bioRxiv)

   Abstract Aerobic methanotrophic bacteria are the primary organisms that consume atmospheric methane (CH₄) and have potential to mitigate the climate-active gas. However, a limited understanding of the genetic determinants of methanotrophy hinders the development of biotechnologies leveraging these unique microbes. Here, we developed and optimized a methanotroph CRISPR interference (CRISPRi) system to enable functional genomic screening. We built a genome-wide single guide RNA (sgRNA) library in the industrial methanotroph,Methylococcus capsulatus, consisting of ∼45,000 unique sgRNAs mediating inducible, CRISPRi-dependent transcriptional repression. A selective screen during growth on CH₄identified 233 genes whose transcription repression resulted in a fitness defect and repression of 13 genes associated with a fitness advantage. Enrichment analysis of the 233 putative essential genes linked many of the encoded proteins with critical cellular processes like ribosome biosynthesis, translation, transcription, and other central biosynthetic metabolism, highlighting the utility of CRISPRi for functional genetic screening in methanotrophs, including the identification of novel essential genes.M. capsulatusgrowth was inhibited when the CRISPRi system was used to individually target genes identified in the screen, validating their essentiality for methanotrophic growth. Collectively, our results show that the CRISPRi system and sgRNA library developed here can be used for facile gene-function analyses and genomic screening to identify novel genetic determinants of methanotrophy. These CRISPRi screening methodologies can also be applied to high-throughput engineering approaches for isolation of improved methanotroph biocatalysts. 

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5. Adding a Chemical Biology Twist to CRISPR Screening

   https://doi.org/10.1002/ijch.202200056  

   Huang, Shiying; Baskin, Jeremy M. (October 2022, Israel Journal of Chemistry)

   Abstract In less than a decade, CRISPR screening has revolutionized forward genetics and cell and molecular biology. Advances in screening technologies, including sgRNA libraries, Cas9‐expressing cell lines, and streamlined sequencing pipelines, have democratized pooled CRISPR screens at genome‐wide scale. Initially, many such screens were survival‐based, identifying essential genes in physiological or perturbed processes. With the application of new chemical biology tools to CRISPR screening, the phenotypic space is no longer limited to live/dead selection or screening for levels of conventional fluorescent protein reporters. Further, the resolution has been increased from cell populations to single cells or even the subcellular level. We highlight advances in pooled CRISPR screening, powered by chemical biology, that have expanded phenotypic space, resolution, scope, and scalability as well as strengthened the CRISPR/Cas enzyme toolkit to enable biological hypothesis generation and discovery. 

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