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Journal Abstract Search

678 related items for PubMed ID: 35187887

  • 1. A high-efficiency and versatile CRISPR/Cas9-mediated HDR-based biallelic editing system.
    Li X, Sun B, Qian H, Ma J, Paolino M, Zhang Z.
    J Zhejiang Univ Sci B; 2022 Feb 15; 23(2):141-152. PubMed ID: 35187887
    [Abstract] [Full Text] [Related]

  • 2. Methods Favoring Homology-Directed Repair Choice in Response to CRISPR/Cas9 Induced-Double Strand Breaks.
    Yang H, Ren S, Yu S, Pan H, Li T, Ge S, Zhang J, Xia N.
    Int J Mol Sci; 2020 Sep 04; 21(18):. PubMed ID: 32899704
    [Abstract] [Full Text] [Related]

  • 3. Genome editing using CRISPR/Cas9-based knock-in approaches in zebrafish.
    Albadri S, Del Bene F, Revenu C.
    Methods; 2017 May 15; 121-122():77-85. PubMed ID: 28300641
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  • 4. Precision genome editing in the CRISPR era.
    Salsman J, Dellaire G.
    Biochem Cell Biol; 2017 Apr 15; 95(2):187-201. PubMed ID: 28177771
    [Abstract] [Full Text] [Related]

  • 5. CRISPR-Cas9 fusion to dominant-negative 53BP1 enhances HDR and inhibits NHEJ specifically at Cas9 target sites.
    Jayavaradhan R, Pillis DM, Goodman M, Zhang F, Zhang Y, Andreassen PR, Malik P.
    Nat Commun; 2019 Jun 28; 10(1):2866. PubMed ID: 31253785
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  • 6. Highly efficient CRISPR/HDR-mediated knock-in for mouse embryonic stem cells and zygotes.
    Wang B, Li K, Wang A, Reiser M, Saunders T, Lockey RF, Wang JW.
    Biotechniques; 2015 Oct 28; 59(4):201-2, 204, 206-8. PubMed ID: 26458548
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  • 8. Enhancement of CRISPR-Cas9 induced precise gene editing by targeting histone H2A-K15 ubiquitination.
    Bashir S, Dang T, Rossius J, Wolf J, Kühn R.
    BMC Biotechnol; 2020 Oct 23; 20(1):57. PubMed ID: 33097066
    [Abstract] [Full Text] [Related]

  • 9. Efficient introduction of specific homozygous and heterozygous mutations using CRISPR/Cas9.
    Paquet D, Kwart D, Chen A, Sproul A, Jacob S, Teo S, Olsen KM, Gregg A, Noggle S, Tessier-Lavigne M.
    Nature; 2016 May 05; 533(7601):125-9. PubMed ID: 27120160
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  • 10. Efficient biallelic knock-in in mouse embryonic stem cells by in vivo-linearization of donor and transient inhibition of DNA polymerase θ/DNA-PK.
    Arai D, Nakao Y.
    Sci Rep; 2021 Sep 13; 11(1):18132. PubMed ID: 34518609
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  • 12. Optimization of genome editing through CRISPR-Cas9 engineering.
    Zhang JH, Adikaram P, Pandey M, Genis A, Simonds WF.
    Bioengineered; 2016 Apr 13; 7(3):166-74. PubMed ID: 27340770
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  • 14. Systematic quantification of HDR and NHEJ reveals effects of locus, nuclease, and cell type on genome-editing.
    Miyaoka Y, Berman JR, Cooper SB, Mayerl SJ, Chan AH, Zhang B, Karlin-Neumann GA, Conklin BR.
    Sci Rep; 2016 Mar 31; 6():23549. PubMed ID: 27030102
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  • 15. Ectopic expression of RAD52 and dn53BP1 improves homology-directed repair during CRISPR-Cas9 genome editing.
    Paulsen BS, Mandal PK, Frock RL, Boyraz B, Yadav R, Upadhyayula S, Gutierrez-Martinez P, Ebina W, Fasth A, Kirchhausen T, Talkowski ME, Agarwal S, Alt FW, Rossi DJ.
    Nat Biomed Eng; 2017 Nov 31; 1(11):878-888. PubMed ID: 31015609
    [Abstract] [Full Text] [Related]

  • 16. Clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 with improved proof-reading enhances homology-directed repair.
    Kato-Inui T, Takahashi G, Hsu S, Miyaoka Y.
    Nucleic Acids Res; 2018 May 18; 46(9):4677-4688. PubMed ID: 29672770
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