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PUBMED FOR HANDHELDS

Journal Abstract Search


315 related items for PubMed ID: 31451697

  • 1. Engineered CRISPRa enables programmable eukaryote-like gene activation in bacteria.
    Liu Y, Wan X, Wang B.
    Nat Commun; 2019 Aug 26; 10(1):3693. PubMed ID: 31451697
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  • 2. A Novel Eukaryote-Like CRISPR Activation Tool in Bacteria: Features and Capabilities.
    Liu Y, Wang B.
    Bioessays; 2020 Jun 26; 42(6):e1900252. PubMed ID: 32310310
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  • 4. Effective CRISPRa-mediated control of gene expression in bacteria must overcome strict target site requirements.
    Fontana J, Dong C, Kiattisewee C, Chavali VP, Tickman BI, Carothers JM, Zalatan JG.
    Nat Commun; 2020 Apr 01; 11(1):1618. PubMed ID: 32238808
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  • 5. Rational engineering of a modular bacterial CRISPR-Cas activation platform with expanded target range.
    Villegas Kcam MC, Tsong AJ, Chappell J.
    Nucleic Acids Res; 2021 May 07; 49(8):4793-4802. PubMed ID: 33823546
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  • 6. Synthetic Gene Circuits Combining CRISPR Interference and CRISPR Activation in E. coli: Importance of Equal Guide RNA Binding Affinities to Avoid Context-Dependent Effects.
    Barbier I, Kusumawardhani H, Chauhan L, Harlapur PV, Jolly MK, Schaerli Y.
    ACS Synth Biol; 2023 Oct 20; 12(10):3064-3071. PubMed ID: 37813387
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  • 7. Challenges and opportunities with CRISPR activation in bacteria for data-driven metabolic engineering.
    Fontana J, Sparkman-Yager D, Zalatan JG, Carothers JM.
    Curr Opin Biotechnol; 2020 Aug 20; 64():190-198. PubMed ID: 32599515
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  • 9. Portable bacterial CRISPR transcriptional activation enables metabolic engineering in Pseudomonas putida.
    Kiattisewee C, Dong C, Fontana J, Sugianto W, Peralta-Yahya P, Carothers JM, Zalatan JG.
    Metab Eng; 2021 Jul 20; 66():283-295. PubMed ID: 33930546
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  • 12. Multi-layer CRISPRa/i circuits for dynamic genetic programs in cell-free and bacterial systems.
    Tickman BI, Burbano DA, Chavali VP, Kiattisewee C, Fontana J, Khakimzhan A, Noireaux V, Zalatan JG, Carothers JM.
    Cell Syst; 2022 Mar 16; 13(3):215-229.e8. PubMed ID: 34800362
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  • 13. CRISPR-Mediated Activation of Biosynthetic Gene Clusters for Bioactive Molecule Discovery in Filamentous Fungi.
    Roux I, Woodcraft C, Hu J, Wolters R, Gilchrist CLM, Chooi YH.
    ACS Synth Biol; 2020 Jul 17; 9(7):1843-1854. PubMed ID: 32526136
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  • 14. Bidirectional manipulation of gene expression in adipocytes using CRISPRa and siRNA.
    Lundh M, Pluciñska K, Isidor MS, Petersen PSS, Emanuelli B.
    Mol Metab; 2017 Oct 17; 6(10):1313-1320. PubMed ID: 29031730
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  • 15. Design, Characterization, and Application of Targeted Gene Activation in Bacteria Using a Modular CRISPRa System.
    Villegas Kcam MC, Chappell J.
    Methods Mol Biol; 2022 Oct 17; 2518():203-215. PubMed ID: 35666447
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  • 16. Guide RNA structure design enables combinatorial CRISPRa programs for biosynthetic profiling.
    Fontana J, Sparkman-Yager D, Faulkner I, Cardiff R, Kiattisewee C, Walls A, Primo TG, Kinnunen PC, Garcia Martin H, Zalatan JG, Carothers JM.
    Nat Commun; 2024 Jul 27; 15(1):6341. PubMed ID: 39068154
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  • 17. Construction and Validation of a CRISPR/dCpf1-Based Transcriptional Regulatory System in Saccharomyces Cerevisiae.
    Feng Q, Li J.
    Stud Health Technol Inform; 2023 Nov 23; 308():680-688. PubMed ID: 38007799
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