Summary of 172-Yoshida-ERKTracheaDev

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SSBD:repository URL

Title
Time-lapse images of ERK activity in embryonic murine trachea under ex vivo culture condition dissected from E12.5.
Description
-
Relase date
2022-03-31
Updated date
-
License
CC BY
Kind
Image data based on Experiment
Number of Datasets
2 ( Image datasets: 2, Quantitative data datasets: 0 )
Size of Datasets
62.2 GB ( Image datasets: 62.2 GB, Quantitative data datasets: 0 bytes )

Organism(s)
Mus musculus
Protein name(s)
ERK

Datatype
-
Molecular Function (MF)
MAP kinase activity
Biological Process (BP)
trachea development
Cellular Component (CC)
-
Biological Imaging Method
time lapse microscopy
X scale
0.702 micrometer/pixel, 0.994 micrometer/pixel
Y scale
0.702 micrometer/pixel, 0.994 micrometer/pixel
Z scale
2 micrometer/slice, 1 micrometer/slice
T scale
10 minutes per time interval, 5 minutes per time interval

Image Acquisition
Experiment type
-
Microscope type
-
Acquisition mode
-
Contrast method
-
Microscope model
-
Detector model
-
Objective model
-
Filter set
-

Related paper(s)

Takuya Yoshida, Michiyuki Matsuda, Tsuyoshi Hirashima (2020) Incoherent Feedforward Regulation via Sox9 and ERK Underpins Mouse Tracheal Cartilage Development., Frontiers in cell and developmental biology, Volume 8, pp. 585640

Published in 2020 (Electronic publication in Oct. 22, 2020, midnight )

(Abstract) Tracheal cartilage provides architectural integrity to the respiratory airway, and defects in this structure during embryonic development cause severe congenital anomalies. Previous genetic studies have revealed genes that are critical for the development of tracheal cartilage. However, it is still unclear how crosstalk between these proteins regulates tracheal cartilage formation. Here we show a core regulatory network underlying murine tracheal chondrogenesis from embryonic day (E) 12.5 to E15.5, by combining volumetric imaging of fluorescence reporters, inhibitor assays, and mathematical modeling. We focused on SRY-box transcription factor 9 (Sox9) and extracellular signal-regulated kinase (ERK) in the tracheal mesenchyme, and observed a synchronous, inverted U-shaped temporal change in both Sox9 expression and ERK activity with a peak at E14.5, whereas the expression level of downstream cartilage matrix genes, such as collagen II alpha 1 (Col2a1) and aggrecan (Agc1), monotonically increased. Inhibitor assays revealed that the ERK signaling pathway functions as an inhibitory regulator of tracheal cartilage differentiation during this period. These results suggest that expression of the cartilage matrix genes is controlled by an incoherent feedforward loop via Sox9 and ERK, which is supported by a mathematical model. Furthermore, the modeling analysis suggests that a Sox9-ERK incoherent feedforward regulation augments the robustness against the variation of upstream factors. The present study provides a better understanding of the regulatory network underlying the tracheal development and will be helpful for efficient induction of tracheal organoids.

Contact
Tsuyoshi Hirashima , Kyoto University , Department of Pathology and Biology of Diseases, Graduate School of Medicine , Multicellular Biophysics in Development and Reproduction
Contributors


Dataset List of 172-Yoshida-ERKTracheaDev

#
Dataset ID
Kind
Size
4D View
SSBD:OMERO
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# 6848
Dataset Kind Image data
Dataset Size 43.0 GB
4D view
SSBD:OMERO
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# 6849
Dataset Kind Image data
Dataset Size 19.3 GB
4D view
SSBD:OMERO
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