Simultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells

Simultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells

Subcellular Zn2+ compartmentalisation is essential for cell biology. Here the authors make a turn-on fluorescent Zn2+ probe that localises to multiple organelles, and correlate its location using organelle morphology derived from structured illumination microscopy.

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Autores principales: Hongbao Fang, Shanshan Geng, Mingang Hao, Qixin Chen, Minglun Liu, Chunyan Liu, Zhiqi Tian, Chengjun Wang, Takanori Takebe, Jun-Lin Guan, Yuncong Chen, Zijian Guo, Weijiang He, Jiajie Diao
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Science
Q
Acceso en línea:https://doaj.org/article/3348302e73d1474f966b48938a84b972
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spelling oai:doaj.org-article:3348302e73d1474f966b48938a84b9722021-12-02T11:45:56ZSimultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells10.1038/s41467-020-20309-72041-1723https://doaj.org/article/3348302e73d1474f966b48938a84b9722021-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-20309-7https://doaj.org/toc/2041-1723Subcellular Zn2+ compartmentalisation is essential for cell biology. Here the authors make a turn-on fluorescent Zn2+ probe that localises to multiple organelles, and correlate its location using organelle morphology derived from structured illumination microscopy.Hongbao FangShanshan GengMingang HaoQixin ChenMinglun LiuChunyan LiuZhiqi TianChengjun WangTakanori TakebeJun-Lin GuanYuncong ChenZijian GuoWeijiang HeJiajie DiaoNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-14 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Hongbao Fang
Shanshan Geng
Mingang Hao
Qixin Chen
Minglun Liu
Chunyan Liu
Zhiqi Tian
Chengjun Wang
Takanori Takebe
Jun-Lin Guan
Yuncong Chen
Zijian Guo
Weijiang He
Jiajie Diao
Simultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells
description Subcellular Zn2+ compartmentalisation is essential for cell biology. Here the authors make a turn-on fluorescent Zn2+ probe that localises to multiple organelles, and correlate its location using organelle morphology derived from structured illumination microscopy.
format article
author Hongbao Fang
Shanshan Geng
Mingang Hao
Qixin Chen
Minglun Liu
Chunyan Liu
Zhiqi Tian
Chengjun Wang
Takanori Takebe
Jun-Lin Guan
Yuncong Chen
Zijian Guo
Weijiang He
Jiajie Diao
author_facet Hongbao Fang
Shanshan Geng
Mingang Hao
Qixin Chen
Minglun Liu
Chunyan Liu
Zhiqi Tian
Chengjun Wang
Takanori Takebe
Jun-Lin Guan
Yuncong Chen
Zijian Guo
Weijiang He
Jiajie Diao
author_sort Hongbao Fang
title Simultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells
title_short Simultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells
title_full Simultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells
title_fullStr Simultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells
title_full_unstemmed Simultaneous Zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells
title_sort simultaneous zn2+ tracking in multiple organelles using super-resolution morphology-correlated organelle identification in living cells
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/3348302e73d1474f966b48938a84b972
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