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A genetically encoded far-red fluorescent indicator for imaging synaptically released Zn 2+

https://doi.org/10.1126/sciadv.add2058

Wu, Tianchen ; Kumar, Manoj ; Zhang, Jing ; Zhao, Shengyu ; Drobizhev, Mikhail ; McCollum, Mason ; Anderson, Charles T. ; Wang, Ying ; Pokorny, Antje ; Tian, Xiaodong ; et al ( March 2023 , Science Advances)

A far-red fluorescent protein-based indicator allowed the imaging of synaptic Zn 2+ in brain slices and awake mice.
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Editorial: Mechanisms of Fluorescent Proteins

https://doi.org/10.3389/fmolb.2021.701523

Fang, Chong ; Drobizhev, Mikhail ; Ng, Ho Leung ; Pantazis, Periklis ( May 2021 , Frontiers in Molecular Biosciences)
null (Ed.)
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A sensitive and specific genetically-encoded potassium ion biosensor for in vivo applications across the tree of life

https://doi.org/10.1371/journal.pbio.3001772

Wu, Sheng-Yi ; Wen, Yurong ; Serre, Nelson B. ; Laursen, Cathrine Charlotte ; Dietz, Andrea Grostøl ; Taylor, Brian R. ; Drobizhev, Mikhail ; Molina, Rosana S. ; Aggarwal, Abhi ; Rancic, Vladimir ; et al ( September 2022 , PLOS Biology)
Dutzler, Raimund (Ed.)
Potassium ion (K + ) plays a critical role as an essential electrolyte in all biological systems. Genetically-encoded fluorescent K + biosensors are promising tools to further improve our understanding of K + -dependent processes under normal and pathological conditions. Here, we report the crystal structure of a previously reported genetically-encoded fluorescent K + biosensor, GINKO1, in the K + -bound state. Using structure-guided optimization and directed evolution, we have engineered an improved K + biosensor, designated GINKO2, with higher sensitivity and specificity. We have demonstrated the utility of GINKO2 for in vivo detection and imaging of K + dynamics in multiple model organisms, including bacteria, plants, and mice.
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