Hsu, J. C. C. and Yang, T. T.* (2025). Pushing optical resolution to the few-nanometer scale via dSTORM imaging of expanded specimen–gel cmposites. Gels, 11(7), 491.
Chou, P.-C., Lin, Y.-H., Lin, I.-H., Lin, T.-Y., Huang, Y.-C., Hong, S.-R., Chang, T.-J. B., Fang, Y., Lin, Y., Yang, T. T., Lin, Y.-C., Huang, J.-R., Wang, W.-J. (2025). Phase separation of TTBK2 and CEP164 is necessary for ciliogenesis. Cell Reports, 44(6).
Chang, T. J. B. and Yang, T. T.* (2024) Multiplexed Nanoscopy via Buffer Exchange, ACS Nano, 18 (34), 23445-23456.
Wang, JH, Hsu, J. C. C., Chang, T. J. B., Yang, T. T.* (2023) Stuck photoswitching event analysis and correction for superresolution single-molecule localization microscopy, ACS Photonics, 10(10), 3508-3520.
Chang, T. J. B., Hsu, J. C. C., Yang, T. T.* (2023) Single-molecule localization microscopy reveals the ultrastructural constitution of distal appendages in expanded mammalian centrioles, Nature Communications, 14(1), 1688.
Chang, Y. W., Yang, T. T., Chen, M. C., Liaw, Y. G., Yin, C. F., Lin-Yan, X. Q., Huang, T. Y., Hou, J. T., Hung, Y. H., Hsu, C. L., Huang, H. C., Juan, H. F. (2023) Spatial and temporal dynamics of ATP synthase from mitochondria toward the cell surface, Communications Biology, 6(1), 427.
Chong, W. M., Wang, W.-J., Chang, T.-J., Chiu, T.-Y., Liu, Y.-P., Tanos, B., Mazo, G., Tsou, M.-F. B., Yang, T.T.*, Liao, J.-C.* (2020) Super-resolution microscopy reveals coupling between mammalian centriole subdistal appendages and distal appendages, eLife, 9, e53580. *Corresponding authors.
Lo, C.-H., Lin, I.-H., Yang, T.T., Huang, Y.-C., Tanos, B.E., Chou, P.-C., Chang, C.-W., Tsay, Y.-G., Liao, J.-C., Wang, W.-J. (2019) Phosphorylation of CEP83 by TTBK2 is necessary for cilia initiation, Journal of Cell Biology, 218(10), 3489.
Chu, S.-H., Lo, L.-L., Lai, R.L., Yang, T.T., Liao, J.-C., Huang, N.-T. (2019) A microfluidic device for in situ fixation and super-resolved mechanosensation studies of primary cilia, Biomicrofluidics, 13, 014105.
Yang, T.T., Tran T.M.N., Chong, W.M., Liao, J.-C. (2019) Single-particle tracking localization microscopy reveals nonaxonemal dynamics of intraflagellar transport proteins at the base of mammalian primary cilia, Molecular Biology of the Cell, 30, 828-837.
Yang, T.T., Chong, W.M., Wang, W.-J., Mazo G., Tanos, B., Chen, Z., Tran T.M.N., Chen, Y.-D., Weng, R.R., Huang, C.-E., Jane, W.-N. Tsou, M.-F.B., Liao, J.-C. (2018) Super-resolution architecture of mammalian centriole distal appendages reveals distinct blade and matrix functional components, Nature Communications, 9(1), 2023.
Weng, R.R.*, Yang, T.T.*, Huang, C.-E., Chang, C.-W., Wang, W.-J., Liao, J.-C. (2018) Super-resolution imaging reveals TCTN2 depletion-induced IFT88 lumen leakage and ciliary weakening, Biophysical Journal, 115(2), 263-275. *co-first authors
Yang, T.T., Chong, W.M., Liao, J.-C. (2016) STED and STORM Superresolution Imaging of Primary Cilia, Methods in Molecular Biology, Vol. 1454, Satir, P. and Christensen, S.T. (Eds): Cilia, 169-192 (2016). Humana Press, New York.
Yang, T. T., Su, J., Wang, W. J., Craige, B., Witman, G. B., Tsou, M. F. B., & Liao, J.-C. (2015) Superresolution Pattern Recognition Reveals the Architectural Map of the Ciliary Transition Zone, Scientific Reports, 5, 14096.
Liao, J.-C., Yang, T.T., Weng, R.R., Kuo, C.-T., Chang, C.-W. (2015) TTBK2: A Tau Protein Kinase beyond Tau Phosphorylation, BioMed Research International, 2015, 575170.
Nathwani, B., Miller, C.H., Yang, T.T., Solimano, J.L., Liao, J.-C. (2014) SAS-6 Assembly Templated by the Lumen of Cartwheel-less Centrioles Precedes Centriole Duplication, Developmental Cell, 30, 238-245.
Nathwani, B., Miller, C.H., Yang, T.T., Solimano, J.L., Liao, J.-C. (2014) Morphological Differences of Primary Cilia Between Human Induced Pluripotent Stem Cells and Their Parental Somatic Cells, Stem Cells and Development, 23, 115-123.
Chang, C.-L., Hsieh, T.-S., Yang, T.T., Rothberg, K.G., Azizoglu, D.B., Volk, E., Liao, J.-C., Liou, J. (2013) Feedback Regulation of Receptor-Induced Ca2+ Signaling Mediated by E-Syt1 and Nir2 at Endoplasmic Reticulum-Plasma Membrane Junctions, Cell Reports, 5, 813-825.
Yang, T. T., Hampilos, P. J., Nathwani, B., Miller, C. H., Sutaria, N. D., & Liao, J.-C. (2013) Superresolution STED microscopy reveals differential localization in primary cilia, Cytoskeleton, 70, 54-65.
Chang, T. J. B., & Yang, T. T.* (2025). BPS2025-Multiplexed expansion single-molecule localization microscopy via buffer exchange. Biophysical Journal, 124(3), 160a-161a.
Chang, T.J.B., Hsu, J.C.C., Yang, T.T.* (2023). Single-molecule localization microscopy of expanded mammalian centrioles unravels the ultrastructural constitution of distal appendages. Biophysical Journal, 122(3), 17a.
Chang, T. J., Fang, Y. T., Yang, T. T.* (2022). Multicolor sub-5-nm-resolution imaging reveals the root structure of mammalian centriole distal appendages. Biophysical Journal, 121(3), 281a.
Chang, T. J., Liao, J. C., Fang, Y. T., Yang, T. T.* (2021). Molecular Resolution Nanoscopic Imaging of the Spatial Dual Role of ODF2 in the Mammalian Distal and Subdistal Appendages, Biophysical Society Annual Meeting 2021
Wang, J., Liao, J. C., Yang, T. T.* (2020). Single-molecule tracking reveals varying transport speed of IFT88 proteins at the base of mammalian primary cilia. Biomedical Imaging and Sensing Conference International Society for Optics and Photonics (Vol. 11521, p. 1152104).
Chong, W. M., Yang, T. T., & Liao, J. C.* (2019). Super-Resolution Microscopy Reveals the Molecular Architecture of Centriole Subdistal Appendages and Its Role in Microtubule/Golgi Anchoring. Biophysical Journal, 116(3), 133a.