Daniel Verduzco scite author profile

The Cancer Genome Atlas (TCGA) has yielded unprecedented genetic and molecular characterization of the cancer genome, yet the functional consequences and patient-relevance of many putative cancer drivers remain undefined. TCGADEPMAP is the first hybrid map of TCGA patient dependencies that was built from 6,581 expression-based predictive models of gene essentiality across 791 cancer cell models within the Cancer Dependency Map (DEPMAP). TCGADEPMAP captured well-known cancer lineage and sub-lineage dependencies (e.g., ESR1, ERBB2, etc.), genetic drivers (e.g., KRAS, BRAF, etc.), and synthetic lethalities (e.g., STAG1/2, SMARCA2/4, etc.), demonstrating the robustness of TCGADEPMAP as a translational dependency map. TCGADEPMAP also unveiled novel synthetic lethalities that were experimentally confirmed using multiplexed CRISPR screening across multiple cancer cell lines. Other map "extensions" were built to capture unique aspects of patient-relevant tumor dependencies, including translating gene essentiality to drug response in patient-derived xenograft (PDX) models (i.e., PDXEDEPMAP) and predicting gene tolerability within normal tissues (GTEXDEPMAP). Collectively, this study demonstrates how translational dependency maps can be used to leverage the rapidly expanding catalog of patient genomic datasets to identify and prioritize novel therapeutic targets with the best therapeutic indices.

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Optimization of genomewide CRISPR screens using AsCas12a and multi-guide arrays

Petiwala

Modi

Anton

et al. 2022

Preprint

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Genomewide loss-of-function (LOF) screening using CRISPR (clustered regularly interspaced short palindromic repeats) has facilitated the discovery of novel gene functions across diverse physiological and pathophysiological systems. A challenge with conventional genomewide CRISPR/Cas9 libraries is the unwieldy size (60,000 to 120,000 constructs), which is resource intensive and prohibitive in some experimental contexts. One solution to streamlining CRISPR screening is by multiplexing two or more guides per gene on a single construct, which enables functional redundancy to compensate for suboptimal gene knockout by individual guides. In this regard, AsCas12a (Cpf1) and its derivatives, e.g., enhanced AsCas12a (enAsCas12a), have enabled multiplexed guide arrays to be specifically and efficiently processed for genome editing. Prior studies have established that multiplexed CRISPR/Cas12a libraries perform comparably to the larger equivalent CRISPR/Cas9 libraries, yet the most efficient CRISPR/Cas12a library design remains unresolved. Here, we demonstrate that CRISPR/Cas12a genomewide LOF screening performed optimally with three guides arrayed per gene construct and could be adapted to robotic cell culture without noticeable differences in screen performance. Thus, the conclusions from this study provide novel insight to streamlining genomewide LOF screening using CRISPR/Cas12a and robotic cell culture.

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Daniel Verduzco

Optimization of Genomewide CRISPR Screens Using AsCas12a and Multi-Guide Arrays

TCGA_DEPMAP– Mapping Translational Dependencies and Synthetic Lethalities within The Cancer Genome Atlas

Optimization of genomewide CRISPR screens using AsCas12a and multi-guide arrays

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Daniel Verduzco

Optimization of Genomewide CRISPR Screens Using AsCas12a and Multi-Guide Arrays

TCGADEPMAP– Mapping Translational Dependencies and Synthetic Lethalities within The Cancer Genome Atlas

Optimization of genomewide CRISPR screens using AsCas12a and multi-guide arrays

Contact Info

Product

Resources

About

TCGA_DEPMAP– Mapping Translational Dependencies and Synthetic Lethalities within The Cancer Genome Atlas