Chaoyi Xie scite author profile

Chaoyi Xie

3Publications

24Citation Statements Received

129Citation Statements Given

How they've been cited

How they cite others

200

126

Affiliations

Huazhong University of Science and Technology, South Central University for Nationalities, State Ethnic Affairs Commission

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RTKN-1/Rhotekin shields endosome-associated F-actin from disassembly to ensure endocytic recycling

Yan

Liu

et al. 2021

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Cargo sorting and the subsequent membrane carrier formation require a properly organized endosomal actin network. To better understand the actin dynamics during endocytic recycling, we performed a genetic screen in C. elegans and identified RTKN-1/Rhotekin as a requisite to sustain endosome-associated actin integrity. Loss of RTKN-1 led to a prominent decrease in actin structures and basolateral recycling defects. Furthermore, we showed that the presence of RTKN-1 thwarts the actin disassembly competence of UNC-60A/cofilin. Consistently, in RTKN-1–deficient cells, UNC-60A knockdown replenished actin structures and alleviated the recycling defects. Notably, an intramolecular interaction within RTKN-1 could mediate the formation of oligomers. Overexpression of an RTKN-1 mutant form that lacks self-binding capacity failed to restore actin structures and recycling flow in rtkn-1 mutants. Finally, we demonstrated that SDPN-1/Syndapin acts to direct the recycling endosomal dwelling of RTKN-1 and promotes actin integrity there. Taken together, these findings consolidated the role of SDPN-1 in organizing the endosomal actin network architecture and introduced RTKN-1 as a novel regulatory protein involved in this process.

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A highly sensitive and selective colorimetric probe based on a cycloruthenated complex: an Hg²⁺-promoted switch of thiophene coordination

Xie

et al. 2020

Dalton Trans.

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An iridium complex-based phosphorescent probe for recognition to bisulfite and cyanide in neutral aqueous system

Liu

Gao

et al. 2017

Sensors and Actuators B: Chemical

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Chaoyi Xie

RTKN-1/Rhotekin shields endosome-associated F-actin from disassembly to ensure endocytic recycling

A highly sensitive and selective colorimetric probe based on a cycloruthenated complex: an Hg²⁺-promoted switch of thiophene coordination

An iridium complex-based phosphorescent probe for recognition to bisulfite and cyanide in neutral aqueous system

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Chaoyi Xie

RTKN-1/Rhotekin shields endosome-associated F-actin from disassembly to ensure endocytic recycling

A highly sensitive and selective colorimetric probe based on a cycloruthenated complex: an Hg2+-promoted switch of thiophene coordination

An iridium complex-based phosphorescent probe for recognition to bisulfite and cyanide in neutral aqueous system

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Product

Resources

About

A highly sensitive and selective colorimetric probe based on a cycloruthenated complex: an Hg²⁺-promoted switch of thiophene coordination