The evolution of the gene regulatory networks patterning the Drosophila Blastoderm.

Animals Blastoderm / embryology Body Patterning / genetics Drosophila / classification Drosophila melanogaster / embryology Evolution, Molecular Gene Expression Regulation, Developmental Gene Regulatory Networks Genes, Insect / genetics Models, Genetic Phylogeny
Arthropod Blastoderm Evolution Gap gene Insect Pair-rule gene Segment polarity gene Segmentation

Journal

Current topics in developmental biology
ISSN: 1557-8933
Titre abrégé: Curr Top Dev Biol
Pays: United States
ID NLM: 0163114

Informations de publication

Date de publication:
2020
Historique:
entrez: 27 5 2020
pubmed: 27 5 2020
medline: 24 8 2021
Statut: ppublish

Résumé

The Drosophila blastoderm gene regulatory network is one of the best studied networks in biology. It is composed of a series of tiered sub-networks that act sequentially to generate a primary segmental pattern. Many of these sub-networks have been studied in other arthropods, allowing us to reconstruct how each of them evolved over the transition from the arthropod ancestor to the situation seen in Drosophila today. I trace the evolution of each of these networks, showing how some of them have been modified significantly in Drosophila relative to the ancestral state while others are largely conserved across evolutionary timescales. I compare the putative ancestral arthropod segmentation network with that found in Drosophila and discuss how and why it has been modified throughout evolution, and to what extent this modification is unusual.

Identifiants

DOI: 10.1016/bs.ctdb.2020.02.004 PMID: 32450964
pubmed: 32450964
pii: S0070-2153(20)30030-2
doi: 10.1016/bs.ctdb.2020.02.004
pii:
doi:

Types de publication

Journal Article

Langues

eng

Sous-ensembles de citation

IM

Pagination

297-324

Informations de copyright

© 2020 Elsevier Inc. All rights reserved.

Auteurs

Ariel D Chipman (AD)

The Department of Ecology, Evolution & Behavior, The Hebrew University of Jerusalem, Edmond J. Safra Campus, Givat Ram, Jerusalem, Israel. Electronic address: ariel.chipman@mail.huji.ac.il.

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Classifications MeSH

questionsmedicales.fr Eucaryotes Animaux The evolution of the gene regulatory networks...
questionsmedicales.fr Structures de l'embryon Embryon non mammalien Blastoderme The evolution of the gene regulatory networks...
questionsmedicales.fr Phénomènes physiologiques Croissance et développement Morphogenèse Plan d'organisation du corps The evolution of the gene regulatory networks...
questionsmedicales.fr Eucaryotes Animaux Invertébrés Arthropodes Insectes Pterygota Neoptera Holometabola Diptera Drosophilidae Drosophila The evolution of the gene regulatory networks...
questionsmedicales.fr Eucaryotes Animaux Invertébrés Arthropodes Insectes Pterygota Neoptera Holometabola Diptera Drosophilidae Drosophila Drosophila melanogaster The evolution of the gene regulatory networks...
questionsmedicales.fr Phénomènes biologiques Évolution biologique Évolution moléculaire The evolution of the gene regulatory networks...
questionsmedicales.fr Phénomènes génétiques Régulation de l'expression des gènes Régulation de l'expression des gènes au cours du développement The evolution of the gene regulatory networks...
questionsmedicales.fr Phénomènes génétiques Structures génétiques Séquences d'acides nucléiques régulatrices Réseaux de régulation génique The evolution of the gene regulatory networks...
questionsmedicales.fr Phénomènes génétiques Structures génétiques Génome Génome d'insecte Gènes d'insecte The evolution of the gene regulatory networks...
questionsmedicales.fr Techniques d'investigation Modèles théoriques Modèles biologiques Modèles génétiques The evolution of the gene regulatory networks...
questionsmedicales.fr Sciences de l'information Phylogenèse The evolution of the gene regulatory networks...