Christopher R. Jacobs
Affiliations: | Biomedical Engineering | Columbia University, New York, NY |
Area:
Biomedical Engineering, Cell Biology, Medicine and SurgeryGoogle:
"Christopher Jacobs"
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Publications
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Sutton MM, Duffy MP, Verbruggen SW, et al. (2023) Osteoclastogenesis requires primary cilia disassembly and can be inhibited by promoting primary cilia formation pharmacologically. Cells, Tissues, Organs |
Spasic M, Duffy MP, Jacobs CR. (2022) Fenoldopam sensitizes primary cilia-mediated mechanosensing to promote osteogenic intercellular signaling and whole bone adaptation. Journal of Bone and Mineral Research : the Official Journal of the American Society For Bone and Mineral Research |
Moore ER, Chen JC, Jacobs CR. (2019) Prx1-Expressing Progenitor Primary Cilia Mediate Bone Formation in response to Mechanical Loading in Mice. Stem Cells International. 2019: 3094154 |
Moore ER, Yang Y, Jacobs CR. (2018) Primary cilia are necessary for Prx1-expressing cells to contribute to postnatal skeletogenesis. Journal of Cell Science |
Moore ER, Zhu YX, Ryu HS, et al. (2018) Periosteal progenitors contribute to load-induced bone formation in adult mice and require primary cilia to sense mechanical stimulation. Stem Cell Research & Therapy. 9: 190 |
Moore ER, Jacobs CR. (2017) The primary cilium as a signaling nexus for growth plate function and subsequent skeletal development. Journal of Orthopaedic Research : Official Publication of the Orthopaedic Research Society |
Spasic M, Jacobs CR. (2017) Primary cilia: Cell and molecular mechanosensors directing whole tissue function. Seminars in Cell & Developmental Biology |
Spasic M, Jacobs CR. (2017) Lengthening primary cilia enhances cellular mechanosensitivity. European Cells & Materials. 33: 158-168 |
Chen JC, Hoey DA, Chua M, et al. (2015) Mechanical signals promote osteogenic fate through a primary cilia-mediated mechanism. Faseb Journal : Official Publication of the Federation of American Societies For Experimental Biology |
Nguyen AM, Young YN, Jacobs CR. (2015) The primary cilium is a self-adaptable, integrating nexus for mechanical stimuli and cellular signaling. Biology Open |