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How haematopoiesis research became a fertile ground for regulatory network biology as pioneered by Eric Davidson.

Accepted version
Peer-reviewed

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Authors

Rothenberg, Ellen V 
Göttgens, Berthold 

Abstract

PURPOSE OF REVIEW: This historical perspective reviews how work of Eric H. Davidson was a catalyst and exemplar for explaining haematopoietic cell fate determination through gene regulation. RECENT FINDINGS: Researchers studying blood and immune cells pioneered many of the early mechanistic investigations of mammalian gene regulatory processes. These efforts included the characterization of complex gene regulatory sequences exemplified by the globin and T-cell/B-cell receptor gene loci, as well as the identification of many key regulatory transcription factors through the fine mapping of chromosome translocation breakpoints in leukaemia patients. As the repertoire of known regulators expanded, assembly into gene regulatory network models became increasingly important, not only to account for the truism that regulatory genes do not function in isolation but also to devise new ways of extracting biologically meaningful insights from even more complex information. Here we explore how Eric H. Davidson's pioneering studies of gene regulatory network control in nonvertebrate model organisms have had an important and lasting impact on research into blood and immune cell development. SUMMARY: The intellectual framework developed by Davidson continues to contribute to haematopoietic research, and his insistence on demonstrating logic and causality still challenges the frontier of research today.

Description

Keywords

Animals, Gene Regulatory Networks, Hematopoiesis, Humans, Models, Genetic, Regulatory Elements, Transcriptional, Sea Urchins

Journal Title

Curr Opin Hematol

Conference Name

Journal ISSN

1065-6251
1531-7048

Volume Title

28

Publisher

Ovid Technologies (Wolters Kluwer Health)

Rights

All rights reserved
Sponsorship
Medical Research Council (MC_PC_12009)
Medical Research Council (MC_PC_17230)
Relevant support for EVR was from USPHS grants R01HL119102 and R01HD100039 and the Ruddock Professorship at Caltech. Research in the BG laboratory is supported by Wellcome, MRC, Cancer Research UK, NIH-NIDDK and Blood Cancer UK.