Treffer 1 - 20 von 171 für Suche 'MAEDER, MORGAN L', Suchdauer: 2,18s Treffer weiter einschränken
  1. 1
    High-frequency off-target mutagenesis induced by CRISPR-Cas nucleases in human cells

    High-frequency off-target mutagenesis induced by CRISPR-Cas nucleases in human cells von Fu, Yanfang, Foden, Jennifer A, Khayter, Cyd, Maeder, Morgan L, Reyon, Deepak, Joung, J Keith, Sander, Jeffry D

    Veröffentlicht in Nature biotechnology

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  2. 2
    Heritable and precise zebrafish genome editing using a CRISPR-Cas system

    Heritable and precise zebrafish genome editing using a CRISPR-Cas system von Hwang, Woong Y, Fu, Yanfang, Reyon, Deepak, Maeder, Morgan L, Kaini, Prakriti, Sander, Jeffry D, Joung, J Keith, Peterson, Randall T, Yeh, Jing-Ruey Joanna

    Veröffentlicht in PloS one

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  3. 3
    Cationic lipid-mediated delivery of proteins enables efficient protein-based genome editing in vitro and in vivo

    Cationic lipid-mediated delivery of proteins enables efficient protein-based genome editing in vitro and in vivo von Zuris, John A, Thompson, David B, Shu, Yilai, Guilinger, John P, Bessen, Jeffrey L, Hu, Johnny H, Maeder, Morgan L, Joung, J Keith, Chen, Zheng-Yi, Liu, David R

    Veröffentlicht in Nature biotechnology

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  4. 4
    Targeted DNA demethylation and activation of endogenous genes using programmable TALE-TET1 fusion proteins

    Targeted DNA demethylation and activation of endogenous genes using programmable TALE-TET1 fusion proteins von Maeder, Morgan L, Angstman, James F, Richardson, Marcy E, Linder, Samantha J, Cascio, Vincent M, Tsai, Shengdar Q, Ho, Quan H, Sander, Jeffry D, Reyon, Deepak, Bernstein, Bradley E, Costello, Joseph F, Wilkinson, Miles F, Joung, J Keith

    Veröffentlicht in Nature biotechnology

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  5. 5
    Characterization of Staphylococcus aureus Cas9: a smaller Cas9 for all-in-one adeno-associated virus delivery and paired nickase applications

    Characterization of Staphylococcus aureus Cas9: a smaller Cas9 for all-in-one adeno-associated virus delivery and paired nickase applications von Friedland, Ari E, Baral, Reshica, Singhal, Pankhuri, Loveluck, Katherine, Shen, Shen, Sanchez, Minerva, Marco, Eugenio, Gotta, Gregory M, Maeder, Morgan L, Kennedy, Edward M, Kornepati, Anand V R, Sousa, Alexander, Collins, McKensie A, Jayaram, Hari, Cullen, Bryan R, Bumcrot, David

    Veröffentlicht in Genome Biology

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  6. 6
    Delivery and Specificity of CRISPR-Cas9 Genome Editing Technologies for Human Gene Therapy

    Delivery and Specificity of CRISPR-Cas9 Genome Editing Technologies for Human Gene Therapy von Gori, Jennifer L, Hsu, Patrick D, Maeder, Morgan L, Shen, Shen, Welstead, G Grant, Bumcrot, David

    Veröffentlicht in Human gene therapy

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  7. 7
    High-frequency modification of plant genes using engineered zinc-finger nucleases

    High-frequency modification of plant genes using engineered zinc-finger nucleases von Townsend, Jeffrey A, Wright, David A, Winfrey, Ronnie J, Fu, Fengli, Maeder, Morgan L, Joung, J. Keith, Voytas, Daniel F

    Veröffentlicht in Nature

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  8. 8
    Robust, synergistic regulation of human gene expression using TALE activators

    Robust, synergistic regulation of human gene expression using TALE activators von Maeder, Morgan L, Linder, Samantha J, Reyon, Deepak, Angstman, James F, Fu, Yanfang, Sander, Jeffry D, Joung, J Keith

    Veröffentlicht in Nature methods

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  9. 9
    High frequency targeted mutagenesis in Arabidopsis thaliana using zinc finger nucleases

    High frequency targeted mutagenesis in Arabidopsis thaliana using zinc finger nucleases von Zhang, Feng, Maeder, Morgan L., Unger-Wallace, Erica, Hoshaw, Justin P., Reyon, Deepak, Christian, Michelle, Li, Xiaohong, Pierick, Christopher J., Dobbs, Drena, Peterson, Thomas, Joung, J. Keith, Voytas, Daniel F., Ecker, Joseph R.


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  10. 10
    In Situ Genetic Correction of the Sickle Cell Anemia Mutation in Human Induced Pluripotent Stem Cells Using Engineered Zinc Finger Nucleases

    In Situ Genetic Correction of the Sickle Cell Anemia Mutation in Human Induced Pluripotent Stem Cells Using Engineered Zinc Finger Nucleases von Sebastiano, Vittorio, Maeder, Morgan L., Angstman, James F., Haddad, Bahareh, Khayter, Cyd, Yeo, Dana T., Goodwin, Mathew J., Hawkins, John S., Ramirez, Cherie L., Batista, Luis F. Z., Artandi, Steven E., Wernig, Marius, Joung, J.Keith

    Veröffentlicht in Stem cells (Dayton, Ohio)

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  11. 11
    Gene Targeting of a Disease-Related Gene in Human Induced Pluripotent Stem and Embryonic Stem Cells

    Gene Targeting of a Disease-Related Gene in Human Induced Pluripotent Stem and Embryonic Stem Cells von Zou, Jizhong, Maeder, Morgan L., Mali, Prashant, Pruett-Miller, Shondra M., Thibodeau-Beganny, Stacey, Chou, Bin-Kuan, Chen, Guibin, Ye, Zhaohui, Park, In-Hyun, Daley, George Q., Porteus, Matthew H., Joung, J. Keith, Cheng, Linzhao

    Veröffentlicht in Cell stem cell

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  12. 12
    Selection-free zinc-finger-nuclease engineering by context-dependent assembly (CoDA)

    Selection-free zinc-finger-nuclease engineering by context-dependent assembly (CoDA) von Sander, Jeffry D, Dahlborg, Elizabeth J, Goodwin, Mathew J, Cade, Lindsay, Zhang, Feng, Cifuentes, Daniel, Curtin, Shaun J, Blackburn, Jessica S, Thibodeau-Beganny, Stacey, Qi, Yiping, Pierick, Christopher J, Hoffman, Ellen, Maeder, Morgan L, Khayter, Cyd, Reyon, Deepak, Dobbs, Drena, Langenau, David M, Stupar, Robert M, Giraldez, Antonio J, Voytas, Daniel F, Peterson, Randall T, Yeh, Jing-Ruey J, Joung, J Keith

    Veröffentlicht in Nature methods

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  13. 13
    Genome-editing Technologies for Gene and Cell Therapy

    Genome-editing Technologies for Gene and Cell Therapy von Maeder, Morgan L, Gersbach, Charles A

    Veröffentlicht in Molecular therapy

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  14. 14
    Autonomous zinc-finger nuclease pairs for targeted chromosomal deletion

    Autonomous zinc-finger nuclease pairs for targeted chromosomal deletion von Söllü, Cem, Pars, Kaweh, Cornu, Tatjana I, Thibodeau-Beganny, Stacey, Maeder, Morgan L, Joung, J Keith, Heilbronn, Regine, Cathomen, Toni

    Veröffentlicht in Nucleic acids research

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  15. 15
    Evaluation of OPEN zinc finger nucleases for direct gene targeting of the ROSA26 locus in mouse embryos

    Evaluation of OPEN zinc finger nucleases for direct gene targeting of the ROSA26 locus in mouse embryos von Hermann, Mario, Maeder, Morgan L, Rector, Kyle, Ruiz, Joseph, Becher, Burkhard, Bürki, Kurt, Khayter, Cyd, Aguzzi, Adriano, Joung, J Keith, Buch, Thorsten, Pelczar, Pawel

    Veröffentlicht in PloS one

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  16. 16
    Zinc-Finger Nucleases for Somatic Gene Therapy: The Next Frontier

    Zinc-Finger Nucleases for Somatic Gene Therapy: The Next Frontier von RAHMAN, Shamim H, MAEDER, Morgan L, KEITH JOUNG, J, CATHOMEN, Toni

    Veröffentlicht in Human gene therapy

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  17. 17
    CRISPR RNA–guided activation of endogenous human genes

    CRISPR RNA–guided activation of endogenous human genes von Maeder, Morgan L, Linder, Samantha J, Cascio, Vincent M, Fu, Yanfang, Ho, Quan H, Joung, J Keith

    Veröffentlicht in Nature methods

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  18. 18
    UDiTaS™, a genome editing detection method for indels and genome rearrangements

    UDiTaS™, a genome editing detection method for indels and genome rearrangements von Giannoukos, Georgia, Ciulla, Dawn M, Marco, Eugenio, Abdulkerim, Hayat S, Barrera, Luis A, Bothmer, Anne, Dhanapal, Vidya, Gloskowski, Sebastian W, Jayaram, Hariharan, Maeder, Morgan L, Skor, Maxwell N, Wang, Tongyao, Myer, Vic E, Wilson, Christopher J

    Veröffentlicht in BMC genomics

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  19. 19
    Efficient genome editing in zebrafish using a CRISPR-Cas system

    Efficient genome editing in zebrafish using a CRISPR-Cas system von Hwang, Woong Y, Fu, Yanfang, Reyon, Deepak, Maeder, Morgan L, Tsai, Shengdar Q, Sander, Jeffry D, Peterson, Randall T, Yeh, J-R Joanna, Joung, J Keith

    Veröffentlicht in Nature biotechnology

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  20. 20
    Comparison of Zinc Finger Nucleases for Use in Gene Targeting in Mammalian Cells

    Comparison of Zinc Finger Nucleases for Use in Gene Targeting in Mammalian Cells von Pruett-Miller, Shondra M, Connelly, Jon P, Maeder, Morgan L, Joung, J Keith, Porteus, Matthew H

    Veröffentlicht in Molecular therapy

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