An out-of-body experience: the extracellular dimension for the transmission of mutualistic bacteria in insects

An out-of-body experience: the extracellular dimension for the transmission of mutualistic bacteria in insects

Across animals and plants, numerous metabolic and defensive adaptations are a direct consequence of symbiotic associations with beneficial microbes. Explaining how these partnerships are maintained through evolutionary time remains one of the central challenges within the field of symbiosis research...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Vol. 282; no. 1804; p. 20142957
Main Authors: Salem, Hassan, Florez, Laura, Gerardo, Nicole, Kaltenpoth, Martin
Format: Journal Article
Language:English
Published: England The Royal Society 07-04-2015
Subjects:
Animals
Bacteria
Bacteria - genetics
Bacterial Physiological Phenomena
Biological Evolution
Host–microbe Coevolution
Insecta - genetics
Insecta - microbiology
Insecta - physiology
Mutualism Stability
Review
Review Articles
Symbiont Transmission
Symbiosis
mutualism stability
symbiosis
host–microbe coevolution
symbiont transmission
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Summary:Across animals and plants, numerous metabolic and defensive adaptations are a direct consequence of symbiotic associations with beneficial microbes. Explaining how these partnerships are maintained through evolutionary time remains one of the central challenges within the field of symbiosis research. While genome erosion and co-cladogenesis with the host are well-established features of symbionts exhibiting intracellular localization and transmission, the ecological and evolutionary consequences of an extracellular lifestyle have received little attention, despite a demonstrated prevalence and functional importance across many host taxa. Using insect–bacteria symbioses as a model, we highlight the diverse routes of extracellular symbiont transfer. Extracellular transmission routes are unified by the common ability of the bacterial partners to survive outside their hosts, thereby imposing different genomic, metabolic and morphological constraints than would be expected from a strictly intracellular lifestyle. We emphasize that the evolutionary implications of symbiont transmission routes (intracellular versus extracellular) do not necessarily correspond to those of the transmission mode (vertical versus horizontal), a distinction of vital significance when addressing the genomic and physiological consequences for both host and symbiont.
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ISSN:0962-8452
1471-2954
DOI:10.1098/rspb.2014.2957