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« Previous AbstractComparative chemical analysis of army ant mandibular gland volatiles (Formicidae: Dorylinae)    Next AbstractEvolutionary assembly of cooperating cell types in an animal chemical defense system »

J Exp Biol


Title:Molecular evolution of gland cell types and chemical interactions in animals
Author(s):Bruckner A; Parker J;
Address:"Division of Biology and Biological Engineering, California Institute of Technology, 1200 E. California Boulevard, Pasadena, CA 91125, USA bruckner@caltech.edu joep@caltech.edu"
Journal Title:J Exp Biol
Year:2020
Volume:20200207
Issue:Pt Suppl 1
Page Number: -
DOI: 10.1242/jeb.211938
ISSN/ISBN:1477-9145 (Electronic) 0022-0949 (Linking)
Abstract:"Across the Metazoa, the emergence of new ecological interactions has been enabled by the repeated evolution of exocrine glands. Specialized glands have arisen recurrently and with great frequency, even in single genera or species, transforming how animals interact with their environment through trophic resource exploitation, pheromonal communication, chemical defense and parental care. The widespread convergent evolution of animal glands implies that exocrine secretory cells are a hotspot of metazoan cell type innovation. Each evolutionary origin of a novel gland involves a process of 'gland cell type assembly': the stitching together of unique biosynthesis pathways; coordinated changes in secretory systems to enable efficient chemical release; and transcriptional deployment of these machineries into cells constituting the gland. This molecular evolutionary process influences what types of compound a given species is capable of secreting, and, consequently, the kinds of ecological interactions that species can display. Here, we discuss what is known about the evolutionary assembly of gland cell types and propose a framework for how it may happen. We posit the existence of 'terminal selector' transcription factors that program gland function via regulatory recruitment of biosynthetic enzymes and secretory proteins. We suggest ancestral enzymes are initially co-opted into the novel gland, fostering pleiotropic conflict that drives enzyme duplication. This process has yielded the observed pattern of modular, gland-specific biosynthesis pathways optimized for manufacturing specific secretions. We anticipate that single-cell technologies and gene editing methods applicable in diverse species will transform the study of animal chemical interactions, revealing how gland cell types are assembled and functionally configured at a molecular level"
Keywords:"Animals Bodily Secretions *Evolution, Molecular *Exocrine Glands Pheromones Cell type evolution Chemical ecology Exocrine glands Gene duplication Single-cell biology Terminal selectors;"
Notes:"MedlineBruckner, Adrian Parker, Joseph eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. Review England 2020/02/09 J Exp Biol. 2020 Feb 7; 223(Pt Suppl 1):jeb211938. doi: 10.1242/jeb.211938"

 
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Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
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