Data supporting: Bmp9 regulates Notch signaling and the temporal dynamics of angiogenesis via Lunatic Fringe

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Katie Bentley Timmaso Ristori

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Abstract

Computational code to simulate the crosstalk between Bmp9 and Notch signaling in endothelial cells (and pericytes) within in vitro experiments or during sprouting angiogenesis. The objective of the research was to investigate the role that Bmp9-mediated upregulation of Lunatic Fringe expression plays in modulating the activity of Notch in cell culture and angiogenesis experiments. The results of the computational simulations were validated via in vitro and in vivo experiments.

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Database name 4TU.ResearchData

Publication date 27 November 2025

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Publisher website (DOI) 10.4121/37b88a57-230e-4b04-ba9f-b1fb229181c7.v1

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Katie Bentley

Cellular Adaptive Behaviour Laboratory

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Katie Bentley

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Cellular Adaptive Behaviour Laboratory

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Data supporting: Bmp9 regulates Notch signaling and the temporal dynamics of angiogenesis via Lunatic Fringe

Authors list

Abstract

Details

Repository links

Keywords

Crick labs/facilities

Katie Bentley

Crick authors

Katie Bentley

The Francis Crick Institute is a unique partnership between

Research partnerships

Technical training

Free events for the public

About us

The Crick magazine

Data supporting: Bmp9 regulates Notch signaling and the temporal dynamics of angiogenesis via Lunatic Fringe

Authors list

Abstract

Details

Repository links

Keywords

Crick labs/facilities

Katie Bentley

Crick authors

Katie Bentley

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