Projects per year
Organisation profile
Organisation profile
The TMU Core Facility operates as part of the Office of Research and Development at Taipei Medical University.
It houses several high-end equipments that are available on a pay-for-use basis to researchers throughout Taipei Medical University, as well as to non-TMU researchers.
It manages five individual cores, such as Imaging Core, Mass Spectrometry Core, NMR Core, Flow Cytometry Core, Bioinformatics Core, and Basic Research Core. These staffed facilities provide researchers to access high-end instruments, techniques, and technical expertise; as well as offer training in different instrument operations and guidance for related projects.
To better service the faculties and students at Taipei Medical University, several instruments in the Basic Research Core are available 24 hours. In addition, the TMU Core facility also hosts instrument-related seminars and training programs every year. Policies regarding services, fees, access, and prioritization may vary by instrument, please contact us for more information.
Organisation profile
The TMU Core Facility operates as part of the Office of Research and Development at Taipei Medical University.
It houses several high-end equipments that are available on a pay-for-use basis to researchers throughout Taipei Medical University, as well as to non-TMU researchers.
It manages five individual cores, such as Imaging Core, Mass Spectrometry Core, NMR Core, Flow Cytometry Core, Bioinformatics Core, and Basic Research Core. These staffed facilities provide researchers to access high-end instruments, techniques, and technical expertise; as well as offer training in different instrument operations and guidance for related projects.
To better service the faculties and students at Taipei Medical University, several instruments in the Basic Research Core are available 24 hours. In addition, the TMU Core facility also hosts instrument-related seminars and training programs every year. Policies regarding services, fees, access, and prioritization may vary by instrument, please contact us for more information.
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Collaborations and top research areas from the last five years
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Projects
- 2 Finished
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2-1 發展特色研究,推動轉譯醫學-建置臨床前動物試驗平台,提升研發成果產業化效能
Lee, C.
1/1/19 → 12/1/19
Project: A - Government Institution › d - Ministry of Education
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Generation and characterization of avian single chain variable fragment against human Alpha-Enolase
Lee, C. H., Tsai, C. H., Leu, S. J., Liu, K. J., Wang, W. C., Tsai, B. Y., Chiang, L. C., Mao, Y. C., Benedict Dlamini, N., Tsai, C. H. & Yang, Y. Y., Jul 2023, In: International Immunopharmacology. 120, 110277.Research output: Contribution to journal › Article › peer-review
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Heteronemin and tetrac derivatives suppress non-small cell lung cancer growth via ERK1/2 inhibition
Chung, C. C., Huang, T. Y., Chu, H. R., De Luca, R., Candelotti, E., Huang, C. H., Yang, Y. C. S. H., Incerpi, S., Pedersen, J. Z., Lin, C. Y., Huang, H. M., Lee, S. Y., Li, Z. L., ChangOu, C. A., Li, W. S., Davis, P. J., Lin, H. Y., Whang-Peng, J. & Wang, K., Mar 2022, In: Food and Chemical Toxicology. 161, 112850.Research output: Contribution to journal › Article › peer-review
8 Citations (Scopus) -
Thyroid Hormone Induces Oral Cancer Growth via the PD-L1-Dependent Signaling Pathway
Su, K. W., Lin, H. Y., Chiu, H. C., Shen, S. Y., Chang, O-C., Crawford, D. R., Yang, Y-C., Shih, Y. J., Li, Z. L., Huang, H. M., Whang-Peng, J., Ho, Y. & Wang, K., Oct 2022, In: Cells. 11, 19, 3050.Research output: Contribution to journal › Article › peer-review
Open Access1 Citation (Scopus)
Datasets
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Additional file 6 of Clinical-grade cryopreserved doxorubicin-loaded platelets: role of cancer cells and platelet extracellular vesicles activation loop
Wu, Y. (Creator), Huang, C. (Contributor), Changou, C. A. (Creator), Lu, L. (Creator), Goubran, H. (Creator) & Burnouf, T. P. R. (Creator), Figshare, 2020
DOI: 10.6084/m9.figshare.12017394.v1, https://springernature.figshare.com/articles/Additional_file_6_of_Clinical-grade_cryopreserved_doxorubicin-loaded_platelets_role_of_cancer_cells_and_platelet_extracellular_vesicles_activation_loop/12017394/1
Dataset
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Additional file 3 of Clinical-grade cryopreserved doxorubicin-loaded platelets: role of cancer cells and platelet extracellular vesicles activation loop
Wu, Y. (Creator), Huang, C. (Contributor), Changou, C. A. (Creator), Lu, L. (Creator), Goubran, H. (Creator) & Burnouf, T. P. R. (Creator), Figshare, 2020
DOI: 10.6084/m9.figshare.12017385.v1, https://springernature.figshare.com/articles/Additional_file_3_of_Clinical-grade_cryopreserved_doxorubicin-loaded_platelets_role_of_cancer_cells_and_platelet_extracellular_vesicles_activation_loop/12017385/1
Dataset
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Platelet autophagic machinery involved in thrombosis through a novel linkage of AMPK-MTOR to sphingolipid metabolism
Lee, T. (Creator), Lu, W. (Creator), Changou, C. A. (Creator), Hsiung, Y. (Creator), Trang, N. T. T. (Creator), Lee, C. (Creator), Chang, T. (Creator), Jayakumar, T. (Creator), Hsieh, C. (Creator), Yang, C. H. (Creator), Chang, C. (Creator), Chen, R. (Creator), Sheu, J. (Creator) & Lin, K. (Creator), Taylor & Francis, 2021
DOI: 10.6084/m9.figshare.14259880.v3, https://tandf.figshare.com/articles/dataset/Platelet_autophagic_machinery_involved_in_thrombosis_through_a_novel_linkage_of_AMPK-MTOR_to_sphingolipid_metabolism/14259880/3
Dataset