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Literature DB >> 26079046

Quantitative two-photon imaging of fluorescent biosensors.

Abstract

Fluorescent biosensors are now routinely imaged using two-photon microscopy in intact tissue, for instance, in brain slices and brains in living animals. But most studies measure temporal variation-for example, calcium transients in response to neuronal activity-rather than calibrated levels of biosensor occupancy (and thus levels of the sensed analyte). True quantitative measurements are challenging, since it is difficult or impossible to calibrate a sensor's dose-response in situ, and difficult to compare the optical signals from tissue to those during in vitro calibration. Ratiometric measurements (at two wavelengths) are complicated by variations in laser power and by wavelength-dependent attenuation in tissue. For some biosensors, fluorescence lifetime imaging microscopy (FLIM) provides a valuable alternative that gives well-calibrated measurements of analyte levels.

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Year: 2015 PMID： 26079046 PMCID： PMC4553104 DOI： 10.1016/j.cbpa.2015.05.024

Source DB: PubMed Journal: Curr Opin Chem Biol ISSN： 1367-5931 Impact factor: 8.822

35 in total

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Authors: George T Hanson; Tim B McAnaney; Eun Sun Park; Marla E P Rendell; Daniel K Yarbrough; Shaoyou Chu; Lixuan Xi; Steven G Boxer; Marshall H Montrose; S James Remington
Journal: Biochemistry Date: 2002-12-31 Impact factor: 3.162

Review 2. Green fluorescent protein based pH indicators for in vivo use: a review.

Authors: Ranieri Bizzarri; Michela Serresi; Stefano Luin; Fabio Beltram
Journal: Anal Bioanal Chem Date: 2008-11-26 Impact factor: 4.142

Review 3. Optical properties of biological tissues: a review.

Authors: Steven L Jacques
Journal: Phys Med Biol Date: 2013-05-10 Impact factor: 3.609

4. Imaging cytosolic NADH-NAD(+) redox state with a genetically encoded fluorescent biosensor.

Authors: Yin Pun Hung; John G Albeck; Mathew Tantama; Gary Yellen
Journal: Cell Metab Date: 2011-10-05 Impact factor: 27.287

5. Dynamic and quantitative Ca2+ measurements using improved cameleons.

Authors: A Miyawaki; O Griesbeck; R Heim; R Y Tsien
Journal: Proc Natl Acad Sci U S A Date: 1999-03-02 Impact factor: 11.205

6. In vivo tomographic imaging of deep-seated cancer using fluorescence lifetime contrast.

Authors: William L Rice; Daria M Shcherbakova; Vladislav V Verkhusha; Anand T N Kumar
Journal: Cancer Res Date: 2015-02-10 Impact factor: 12.701

7. Hidden electronic excited state of enhanced green fluorescent protein.

Authors: Haruko Hosoi; Shoichi Yamaguchi; Hideaki Mizuno; Atsushi Miyawaki; Tahei Tahara
Journal: J Phys Chem B Date: 2008-02-15 Impact factor: 2.991

8. A PKA activity sensor for quantitative analysis of endogenous GPCR signaling via 2-photon FRET-FLIM imaging.

Authors: Yao Chen; Jessica L Saulnier; Gary Yellen; Bernardo L Sabatini
Journal: Front Pharmacol Date: 2014-04-02 Impact factor: 5.810

9. Genetically encoded calcium indicators for multi-color neural activity imaging and combination with optogenetics.

Authors: Jasper Akerboom; Nicole Carreras Calderón; Lin Tian; Sebastian Wabnig; Matthias Prigge; Johan Tolö; Andrew Gordus; Michael B Orger; Kristen E Severi; John J Macklin; Ronak Patel; Stefan R Pulver; Trevor J Wardill; Elisabeth Fischer; Christina Schüler; Tsai-Wen Chen; Karen S Sarkisyan; Jonathan S Marvin; Cornelia I Bargmann; Douglas S Kim; Sebastian Kügler; Leon Lagnado; Peter Hegemann; Alexander Gottschalk; Eric R Schreiter; Loren L Looger
Journal: Front Mol Neurosci Date: 2013-03-04 Impact factor: 5.639

10. A genetically encoded fluorescent reporter of ATP:ADP ratio.

Authors: Jim Berg; Yin Pun Hung; Gary Yellen
Journal: Nat Methods Date: 2009-01-04 Impact factor: 28.547

33 in total

Review 1. Fluorescent Biosensors for Neuronal Metabolism and the Challenges of Quantitation.

Authors: Dorothy Koveal; Carlos Manlio Díaz-García; Gary Yellen
Journal: Curr Opin Neurobiol Date: 2020-06-16 Impact factor: 6.627

2. Visualizing Protein Kinase A Activity In Head-fixed Behaving Mice Using In Vivo Two-photon Fluorescence Lifetime Imaging Microscopy.

Authors: Bart C Jongbloets; Lei Ma; Tianyi Mao; Haining Zhong
Journal: J Vis Exp Date: 2019-06-07 Impact factor: 1.355

3. Quantitative in vivo imaging of neuronal glucose concentrations with a genetically encoded fluorescence lifetime sensor.

Authors: Carlos Manlio Díaz-García; Carolina Lahmann; Juan Ramón Martínez-François; Binsen Li; Dorothy Koveal; Nidhi Nathwani; Mahia Rahman; Jacob P Keller; Jonathan S Marvin; Loren L Looger; Gary Yellen
Journal: J Neurosci Res Date: 2019-05-20 Impact factor: 4.164

4. Fluorescence lifetime microscopy of NADH distinguishes alterations in cerebral metabolism in vivo.

Authors: Mohammad A Yaseen; Jason Sutin; Weicheng Wu; Buyin Fu; Hana Uhlirova; Anna Devor; David A Boas; Sava Sakadžić
Journal: Biomed Opt Express Date: 2017-04-03 Impact factor: 3.732

5. Fluorescence Lifetime Imaging of a Caspase-3 Apoptosis Reporter.

Authors: Johanna M Buschhaus; Anne E Gibbons; Kathryn E Luker; Gary D Luker
Journal: Curr Protoc Cell Biol Date: 2017-12-11

6. Chromis-1, a Ratiometric Fluorescent Probe Optimized for Two-Photon Microscopy Reveals Dynamic Changes in Labile Zn(II) in Differentiating Oligodendrocytes.

Authors: Daisy Bourassa; Christopher M Elitt; Adam M McCallum; S Sumalekshmy; Reagan L McRae; M Thomas Morgan; Nisan Siegel; Joseph W Perry; Paul A Rosenberg; Christoph J Fahrni
Journal: ACS Sens Date: 2018-02-12 Impact factor: 7.711