Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish

Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish

10.7554/eLife.11475

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Bibliographic Details
Main Authors: Perez-Camps M., Tian J., Chng S.C., Sem K.P., Sudhaharan T., Teh C., Wachsmuth M., Korzh V., Ahmed S., Reversade B.
Other Authors: BIOLOGICAL SCIENCES
Format: Article
Published: 2020
Subjects:
transcription factor NANOG
Nanog protein, zebrafish
octamer transcription factor 4
pou5f1 protein, zebrafish
protein binding
zebrafish protein
Article
controlled study
downstream processing
fluorescence
fluorescence correlation spectroscopy
gene expression
human
nonhuman
quantitative analysis
signal transduction
spatial autocorrelation analysis
zebra fish
animal
chemistry
embryology
fluorescence microscopy
intravital microscopy
mesoderm
spatiotemporal analysis
spectrofluorometry
Animals
Intravital Microscopy
Mesoderm
Microscopy, Fluorescence
Nanog Homeobox Protein
Octamer Transcription Factor-3
Protein Binding
Spatio-Temporal Analysis
Spectrometry, Fluorescence
Zebrafish
Zebrafish Proteins
Online Access:https://scholarbank.nus.edu.sg/handle/10635/173989
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1739892024-11-11T08:14:59Z Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish Perez-Camps M. Tian J. Chng S.C. Sem K.P. Sudhaharan T. Teh C. Wachsmuth M. Korzh V. Ahmed S. Reversade B. BIOLOGICAL SCIENCES transcription factor NANOG Nanog protein, zebrafish octamer transcription factor 4 pou5f1 protein, zebrafish protein binding transcription factor NANOG zebrafish protein Article controlled study downstream processing fluorescence fluorescence correlation spectroscopy gene expression human nonhuman quantitative analysis signal transduction spatial autocorrelation analysis zebra fish animal chemistry embryology fluorescence microscopy intravital microscopy mesoderm spatiotemporal analysis spectrofluorometry zebra fish Animals Intravital Microscopy Mesoderm Microscopy, Fluorescence Nanog Homeobox Protein Octamer Transcription Factor-3 Protein Binding Spatio-Temporal Analysis Spectrometry, Fluorescence Zebrafish Zebrafish Proteins 10.7554/eLife.11475 eLife 5 42614 e11475 2020-09-02T06:48:48Z 2020-09-02T06:48:48Z 2016 Article Perez-Camps M., Tian J., Chng S.C., Sem K.P., Sudhaharan T., Teh C., Wachsmuth M., Korzh V., Ahmed S., Reversade B. (2016). Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish. eLife 5 (42614) : e11475. ScholarBank@NUS Repository. https://doi.org/10.7554/eLife.11475 2050084X https://scholarbank.nus.edu.sg/handle/10635/173989 Unpaywall 20200831
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic transcription factor NANOG
Nanog protein, zebrafish
octamer transcription factor 4
pou5f1 protein, zebrafish
protein binding
transcription factor NANOG
zebrafish protein
Article
controlled study
downstream processing
fluorescence
fluorescence correlation spectroscopy
gene expression
human
nonhuman
quantitative analysis
signal transduction
spatial autocorrelation analysis
zebra fish
animal
chemistry
embryology
fluorescence microscopy
intravital microscopy
mesoderm
spatiotemporal analysis
spectrofluorometry
zebra fish
Animals
Intravital Microscopy
Mesoderm
Microscopy, Fluorescence
Nanog Homeobox Protein
Octamer Transcription Factor-3
Protein Binding
Spatio-Temporal Analysis
Spectrometry, Fluorescence
Zebrafish
Zebrafish Proteins
spellingShingle transcription factor NANOG
Nanog protein, zebrafish
octamer transcription factor 4
pou5f1 protein, zebrafish
protein binding
transcription factor NANOG
zebrafish protein
Article
controlled study
downstream processing
fluorescence
fluorescence correlation spectroscopy
gene expression
human
nonhuman
quantitative analysis
signal transduction
spatial autocorrelation analysis
zebra fish
animal
chemistry
embryology
fluorescence microscopy
intravital microscopy
mesoderm
spatiotemporal analysis
spectrofluorometry
zebra fish
Animals
Intravital Microscopy
Mesoderm
Microscopy, Fluorescence
Nanog Homeobox Protein
Octamer Transcription Factor-3
Protein Binding
Spatio-Temporal Analysis
Spectrometry, Fluorescence
Zebrafish
Zebrafish Proteins
Perez-Camps M.
Tian J.
Chng S.C.
Sem K.P.
Sudhaharan T.
Teh C.
Wachsmuth M.
Korzh V.
Ahmed S.
Reversade B.
Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish
description 10.7554/eLife.11475
author2 BIOLOGICAL SCIENCES
author_facet BIOLOGICAL SCIENCES
Perez-Camps M.
Tian J.
Chng S.C.
Sem K.P.
Sudhaharan T.
Teh C.
Wachsmuth M.
Korzh V.
Ahmed S.
Reversade B.
format Article
author Perez-Camps M.
Tian J.
Chng S.C.
Sem K.P.
Sudhaharan T.
Teh C.
Wachsmuth M.
Korzh V.
Ahmed S.
Reversade B.
author_sort Perez-Camps M.
title Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish
title_short Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish
title_full Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish
title_fullStr Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish
title_full_unstemmed Quantitative imaging reveals real-time Pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish
title_sort quantitative imaging reveals real-time pou5f3-nanog complexes driving dorsoventral mesendoderm patterning in zebrafish
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/173989
_version_ 1821195871359860736

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