Articole cu mandate pentru acces public - Huijie ZhaoAflați mai multe
Disponibile undeva: 15
Ciliogenesis membrane dynamics and organization
H Zhao, Z Khan, CJ Westlake
Seminars in cell & developmental biology 133, 20-31, 2023
Mandate: US National Institutes of Health
Parental centrioles are dispensable for deuterosome formation and function during basal body amplification
H Zhao, Q Chen, C Fang, Q Huang, J Zhou, X Yan, X Zhu
EMBO reports 20 (4), e46735, 2019
Mandate: Chinese Academy of Sciences, National Natural Science Foundation of China
Microtubule-bundling protein Spef1 enables mammalian ciliary central apparatus formation
J Zheng, H Liu, L Zhu, Y Chen, H Zhao, W Zhang, F Li, L Xie, X Yan, ...
Journal of molecular cell biology 11 (1), 67-77, 2019
Mandate: Chinese Academy of Sciences, National Natural Science Foundation of China
The C7orf43/TRAPPC14 component links the TRAPPII complex to Rabin8 for preciliary vesicle tethering at the mother centriole during ciliogenesis
A Cuenca, C Insinna, H Zhao, P John, MA Weiss, Q Lu, V Walia, S Specht, ...
Journal of Biological Chemistry 294 (42), 15418-15434, 2019
Mandate: US National Institutes of Health, UK Biotechnology and Biological Sciences …
Organization, functions, and mechanisms of the BBSome in development, ciliopathies, and beyond
X Tian, H Zhao, J Zhou
Elife 12, e87623, 2023
Mandate: National Natural Science Foundation of China
Fibrogranular materials function as organizers to ensure the fidelity of multiciliary assembly
H Zhao, Q Chen, F Li, L Cui, L Xie, Q Huang, X Liang, J Zhou, X Yan, ...
Nature communications 12 (1), 1273, 2021
Mandate: Chinese Academy of Sciences, National Natural Science Foundation of China
Production of Basal Bodies in bulk for dense multicilia formation
X Yan, H Zhao, X Zhu
F1000Research 5, F1000 Faculty Rev-1533, 2016
Mandate: National Natural Science Foundation of China
Formation and function of multiciliated cells
Q Lyu, Q Li, J Zhou, H Zhao
Journal of Cell Biology 223 (1), e202307150, 2024
Mandate: National Natural Science Foundation of China
ENKD1 promotes CP110 removal through competing with CEP97 to initiate ciliogenesis
T Song, Y Yang, P Zhou, J Ran, L Zhang, X Wu, W Xie, T Zhong, H Liu, ...
EMBO reports 23 (5), e54090, 2022
Mandate: National Natural Science Foundation of China
Cep57 and Cep57l1 function redundantly to recruit the Cep63–Cep152 complex for centriole biogenesis
H Zhao, S Yang, Q Chen, X Duan, G Li, Q Huang, X Zhu, X Yan
Journal of cell science 133 (13), jcs241836, 2020
Mandate: Chinese Academy of Sciences, National Natural Science Foundation of China
Male infertility‐associated Ccdc108 regulates multiciliogenesis via the intraflagellar transport machinery
H Zhao, J Sun, C Insinna, Q Lu, Z Wang, K Nagashima, J Stauffer, ...
EMBO reports 23 (4), e52775, 2022
Mandate: US National Institutes of Health
Ciliary ectosomes: Critical microvesicle packets transmitted from the cell tower
H Zhao, Q Li, J Zhou
Sci. Bull 68, 2674-2677, 2023
Mandate: National Natural Science Foundation of China
Variants in the WDR44 WD40-repeat domain cause a spectrum of ciliopathy by impairing ciliogenesis initiation
A Accogli, S Shakya, T Yang, C Insinna, SY Kim, D Bell, KR Butov, ...
Nature communications 15 (1), 365, 2024
Mandate: US National Institutes of Health, Wellcome Trust
Mother centrioles are dispensable for deuterosome formation and function during basal body amplification
H Zhao, Q Chen, Q Huang, X Yan, X Zhu
BioRxiv, 373662, 2018
Mandate: Chinese Academy of Sciences, National Natural Science Foundation of China
Pathologically relevant aldoses and environmental aldehydes cause cilium disassembly via formyl group-mediated mechanisms
T Li, M Liu, F Yu, S Yang, W Bu, K Liu, J Yang, H Ni, M Yang, H Yin, ...
Journal of Molecular Cell Biology 16 (1), mjad079, 2024
Mandate: National Natural Science Foundation of China
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