Rong Liu scite author profile

Rong Liu

5Publications

91Citation Statements Received

258Citation Statements Given

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Tohoku University

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Organelle-Level Labile Zn²⁺ Mapping Based on Targetable Fluorescent Sensors

Liu

Kowada

et al. 2022

ACS Sens.

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Although many Zn 2+ fluorescent probes have been developed, there remains a lack of consensus on the labile Zn 2+ concentrations ([Zn 2+ ]) in several cellular compartments, as the fluorescence properties and zinc affinity of the fluorescent probes are greatly affected by the pH and redox environments specific to organelles. In this study, we developed two turn-on-type Zn 2+ fluorescent probes, namely, ZnDA-2H and ZnDA-3H, with low pH sensitivity and suitable affinity (K d = 5.0 and 0.16 nM) for detecting physiological labile Zn 2+ in various cellular compartments, such as the cytosol, nucleus, ER, and mitochondria. Due to their sufficient membrane permeability, both probes were precisely localized to the target organelles in HeLa cells using HaloTag labeling technology. Using an in situ standard quantification method, we identified the [Zn 2+ ] in the tested organelles, resulting in the subcellular [Zn 2+ ] distribution as [

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Quantitative Imaging of Labile Zn2+ in the Golgi Apparatus Using a Localizable Small-Molecule Fluorescent Probe

Kowada

Watanabe

Amagai

et al. 2020

Cell Chemical Biology

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Zinc homeostasis governed by Golgi-resident ZnT family members regulates ERp44-mediated proteostasis at the ER-Golgi interface

et al. 2023

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Many secretory enzymes acquire essential zinc ions (Zn2+) in the Golgi complex. ERp44, a chaperone operating in the early secretory pathway, also binds Zn2+ to regulate its client binding and release for the control of protein traffic and homeostasis. Notably, three membrane transporter complexes, ZnT4, ZnT5/ZnT6 and ZnT7, import Zn2+ into the Golgi lumen in exchange with protons. To identify their specific roles, we here perform quantitative Zn2+ imaging using super-resolution microscopy and Zn2+-probes targeted in specific Golgi subregions. Systematic ZnT-knockdowns reveal that ZnT4, ZnT5/ZnT6 and ZnT7 regulate labile Zn2+ concentration at the distal, medial, and proximal Golgi, respectively, consistent with their localization. Time-course imaging of cells undergoing synchronized secretory protein traffic and functional assays demonstrates that ZnT-mediated Zn2+ fluxes tune the localization, trafficking, and client-retrieval activity of ERp44. Altogether, this study provides deep mechanistic insights into how ZnTs control Zn2+ homeostasis and ERp44-mediated proteostasis along the early secretory pathway.

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Protocol for synthesis and use of a turn-on fluorescent probe for quantifying labile Zn2+ in the Golgi apparatus in live cells

et al. 2021

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Summary Quantitative analysis using a turn-on fluorescent probe is inherently difficult due to the dependency of the fluorescence intensity on the probe concentration. To overcome this limitation, we developed an in situ quantification method using a turn-on fluorescent probe and a standard fluorophore, which are colocalized by protein tag technology. This protocol describes the synthesis of a Zn 2+ probe, named ZnDA-1H , and the procedure to quantify the labile Zn 2+ concentration in the Golgi of live HeLa cells by confocal fluorescence microscopy. For complete details on the use and execution of this protocol, please refer to Kowada et al. (2020) .

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Author Correction: Zinc homeostasis governed by Golgi-resident ZnT family members regulates ERp44-mediated proteostasis at the ER-Golgi interface

Amagai¹,

Yamada²,

Kowada³

et al. 2023

Nat Commun

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Rong Liu

Organelle-Level Labile Zn²⁺ Mapping Based on Targetable Fluorescent Sensors

Quantitative Imaging of Labile Zn2+ in the Golgi Apparatus Using a Localizable Small-Molecule Fluorescent Probe

Zinc homeostasis governed by Golgi-resident ZnT family members regulates ERp44-mediated proteostasis at the ER-Golgi interface

Protocol for synthesis and use of a turn-on fluorescent probe for quantifying labile Zn2+ in the Golgi apparatus in live cells

Author Correction: Zinc homeostasis governed by Golgi-resident ZnT family members regulates ERp44-mediated proteostasis at the ER-Golgi interface

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Rong Liu

Organelle-Level Labile Zn2+ Mapping Based on Targetable Fluorescent Sensors

Quantitative Imaging of Labile Zn2+ in the Golgi Apparatus Using a Localizable Small-Molecule Fluorescent Probe

Zinc homeostasis governed by Golgi-resident ZnT family members regulates ERp44-mediated proteostasis at the ER-Golgi interface

Protocol for synthesis and use of a turn-on fluorescent probe for quantifying labile Zn2+ in the Golgi apparatus in live cells

Author Correction: Zinc homeostasis governed by Golgi-resident ZnT family members regulates ERp44-mediated proteostasis at the ER-Golgi interface

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Organelle-Level Labile Zn²⁺ Mapping Based on Targetable Fluorescent Sensors