Beau Webber, Ph.D.

Affiliations: 
2014 Molecular, Cellular, Developmental Biology and Genetics University of Minnesota, Twin Cities, Minneapolis, MN 
Area:
Cell Biology, Human Development, Molecular Biology
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"Beau Webber"
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Bruce R. Blazar grad student 2014 UMN
 (Identification of Novel Signatures of Murine Definitive Hematopoiesis.)

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Publications

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Webber BR, Johnson MJ, Skeate JG, et al. (2023) Cas9-induced targeted integration of large DNA payloads in primary human T cells via homology-mediated end-joining DNA repair. Nature Biomedical Engineering
Rollins MR, Raynor JF, Miller EA, et al. (2023) Germline T cell receptor exchange results in physiological T cell development and function. Nature Communications. 14: 528
Laoharawee K, Johnson MJ, Lahr WS, et al. (2022) A Pan-RNase Inhibitor Enabling CRISPR-mRNA Platforms for Engineering of Primary Human Monocytes. International Journal of Molecular Sciences. 23
Sipe CJ, Kluesner MG, Bingea SP, et al. (2022) Correction of Fanconi Anemia Mutations Using Digital Genome Engineering. International Journal of Molecular Sciences. 23
Kramer A, Astuti Y, Elfstrum A, et al. (2021) An irradiated marrow niche reveals a small non-collagenous protein mediator of homing, dermatopontin. Blood Advances
Kluesner MG, Lahr WS, Lonetree CL, et al. (2021) CRISPR-Cas9 cytidine and adenosine base editing of splice-sites mediates highly-efficient disruption of proteins in primary and immortalized cells. Nature Communications. 12: 2437
Laoharawee K, Johnson MJ, Lahr WS, et al. (2020) Genome Engineering of Primary Human B Cells Using CRISPR/Cas9. Journal of Visualized Experiments : Jove
Wierson WA, Welker JM, Almeida MP, et al. (2020) Efficient targeted integration directed by short homology in zebrafish and mammalian cells. Elife. 9
Webber BR, Lonetree CL, Kluesner MG, et al. (2019) Author Correction: Highly efficient multiplex human T cell engineering without double-strand breaks using Cas9 base editors. Nature Communications. 10: 5659
Webber BR, Lonetree CL, Kluesner MG, et al. (2019) Highly efficient multiplex human T cell engineering without double-strand breaks using Cas9 base editors. Nature Communications. 10: 5222
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