human crispr metabolic gene knockout library Search Results


human crispr metabolic gene knockout library  (Addgene inc)
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Addgene inc human crispr metabolic gene knockout library
Fig. 3 | PIKfyve inhibition obligates PDAC cells to stimulate a lipogenic transcriptional <t>and</t> <t>metabolic</t> program. a, Schematic of the metabolism- focused <t>CRISPR</t> screen in MIA PaCa-2 cells. Created in BioRender. Cheng, C. (2025) https://BioRender.com/d149928. b,c, Gene enrichment rank plot-based differential sgRNA representation (b) and scatter plot of gene fitness scores (c) of high dose (2,000 nM) and low dose (100 nM) apilimod-treated versus DMSO- treated end-point populations of the CRISPR screen experiment. Graphs show the top 30 synthetically lethal genes involved in fatty acid and sphingolipid synthesis (red), the top 30 synthetically lethal genes involved in cholesterol synthesis (purple) and genes that confer sensitivity to apilimod (blue). d, Metabolic map of sphingolipid and cholesterol synthesis. The figure shows the top 90 synthetically lethal genes involved in fatty acid and sphingolipid
Human Crispr Metabolic Gene Knockout Library, supplied by Addgene inc, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Fig. 3 | PIKfyve inhibition obligates PDAC cells to stimulate a lipogenic transcriptional and metabolic program. a, Schematic of the metabolism- focused CRISPR screen in MIA PaCa-2 cells. Created in BioRender. Cheng, C. (2025) https://BioRender.com/d149928. b,c, Gene enrichment rank plot-based differential sgRNA representation (b) and scatter plot of gene fitness scores (c) of high dose (2,000 nM) and low dose (100 nM) apilimod-treated versus DMSO- treated end-point populations of the CRISPR screen experiment. Graphs show the top 30 synthetically lethal genes involved in fatty acid and sphingolipid synthesis (red), the top 30 synthetically lethal genes involved in cholesterol synthesis (purple) and genes that confer sensitivity to apilimod (blue). d, Metabolic map of sphingolipid and cholesterol synthesis. The figure shows the top 90 synthetically lethal genes involved in fatty acid and sphingolipid

Journal: Nature

Article Title: Targeting PIKfyve-driven lipid metabolism in pancreatic cancer.

doi: 10.1038/s41586-025-08917-z

Figure Lengend Snippet: Fig. 3 | PIKfyve inhibition obligates PDAC cells to stimulate a lipogenic transcriptional and metabolic program. a, Schematic of the metabolism- focused CRISPR screen in MIA PaCa-2 cells. Created in BioRender. Cheng, C. (2025) https://BioRender.com/d149928. b,c, Gene enrichment rank plot-based differential sgRNA representation (b) and scatter plot of gene fitness scores (c) of high dose (2,000 nM) and low dose (100 nM) apilimod-treated versus DMSO- treated end-point populations of the CRISPR screen experiment. Graphs show the top 30 synthetically lethal genes involved in fatty acid and sphingolipid synthesis (red), the top 30 synthetically lethal genes involved in cholesterol synthesis (purple) and genes that confer sensitivity to apilimod (blue). d, Metabolic map of sphingolipid and cholesterol synthesis. The figure shows the top 90 synthetically lethal genes involved in fatty acid and sphingolipid

Article Snippet: The human CRISPR metabolic gene knockout library was a gift from David Sabatini (Addgene, 110066)58.

Techniques: Inhibition, CRISPR