Extremely Bright, Near-IR Emitting Spontaneously Blinking Fluorophores Enable Ratiometric Multicolor Nanoscopy in Live Cells

New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule localization microscopy (SMLM). Here we report the design, synthesis, and biological evaluation of Yale676sb, a photostable, near-IR-emitting fluor...

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Published in	ACS central science Vol. 7; no. 8; pp. 1419 - 1426
Main Authors	Tyson, Jonathan, Hu, Kevin, Zheng, Shuai, Kidd, Phylicia, Dadina, Neville, Chu, Ling, Toomre, Derek, Bewersdorf, Joerg, Schepartz, Alanna
Format	Journal Article
Language	English
Published	United States American Chemical Society 25.08.2021 American Chemical Society (ACS)
Subjects	Absorption Fluorophores Heterocyclic compounds INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY Lasers Quantum yield
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Abstract	New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule localization microscopy (SMLM). Here we report the design, synthesis, and biological evaluation of Yale676sb, a photostable, near-IR-emitting fluorophore that achieves these goals in the context of an exceptional quantum yield (0.59). When used alongside HMSiR, Yale676sb enables simultaneous, live-cell, two-color SMLM of two intracellular organelles (ER + mitochondria) with only a single laser and no chemical additives.
AbstractList	New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule localization microscopy (SMLM). Here we report the design, synthesis, and biological evaluation of Yale676sb, a photostable, near-IR-emitting fluorophore that achieves these goals in the context of an exceptional quantum yield (0.59). When used alongside HMSiR, Yale676sb enables simultaneous, live-cell, two-color SMLM of two intracellular organelles (ER + mitochondria) with only a single laser and no chemical additives. New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule localization microscopy (SMLM). Here we report the design, synthesis, and biological evaluation of Yale676sb, a photostable, near-IR-emitting fluorophore that achieves these goals in the context of an exceptional quantum yield (0.59). When used alongside HMSiR, Yale676sb enables simultaneous, live-cell, two-color SMLM of two intracellular organelles (ER + mitochondria) with only a single laser and no chemical additives.New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule localization microscopy (SMLM). Here we report the design, synthesis, and biological evaluation of Yale676sb, a photostable, near-IR-emitting fluorophore that achieves these goals in the context of an exceptional quantum yield (0.59). When used alongside HMSiR, Yale676sb enables simultaneous, live-cell, two-color SMLM of two intracellular organelles (ER + mitochondria) with only a single laser and no chemical additives. New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule localization microscopy (SMLM). Here we report the design, synthesis, and biological evaluation of Yale , a photostable, near-IR-emitting fluorophore that achieves these goals in the context of an exceptional quantum yield (0.59). When used alongside HMSiR, Yale enables simultaneous, live-cell, two-color SMLM of two intracellular organelles (ER + mitochondria) with only a single laser and no chemical additives. New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule localization microscopy (SMLM). Here we report the design, synthesis, and biological evaluation of Yale 676sb , a photostable, near-IR-emitting fluorophore that achieves these goals in the context of an exceptional quantum yield (0.59). When used alongside HMSiR, Yale 676sb enables simultaneous, live-cell, two-color SMLM of two intracellular organelles (ER + mitochondria) with only a single laser and no chemical additives. The bright and near-IR-emitting spontaneously blinking fluorophore Yale 676sb is paired with HMSiR to enable two-color live-cell single-molecule localization microscopy with no chemical additives and a single 642 nm laser.
Author	Bewersdorf, Joerg Chu, Ling Zheng, Shuai Hu, Kevin Toomre, Derek Schepartz, Alanna Kidd, Phylicia Dadina, Neville Tyson, Jonathan
AuthorAffiliation	Department of Chemistry Department of Molecular and Cellular Biology California Institute for Quantitative Biosciences (QB3) Department of Molecular, Cellular, and Developmental Biology Kavli Institute for Neuroscience Nanobiology Institute Department of Biomedical Engineering Department of Cell Biology
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Snippet	New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule... New bright, photostable, emission-orthogonal fluorophores that blink without toxic additives are needed to enable multicolor, live-cell, single-molecule...
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SubjectTerms	Absorption Fluorophores Heterocyclic compounds INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY Lasers Quantum yield
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Title	Extremely Bright, Near-IR Emitting Spontaneously Blinking Fluorophores Enable Ratiometric Multicolor Nanoscopy in Live Cells
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