Biology:Phylosymbiosis

From HandWiki

In the field of microbiome research, a group of species is said to show a phylosymbiotic signal if the degree of similarity between the species' microbiomes recapitulates to a significant extent their evolutionary history.[1] In other words, a phylosymbiotic signal among a group of species is evident if their microbiome similarity dendrogram could prove to have significant similarities with their host's phylogenic tree. For the analysis of the phylosymbiotic signal to be reliable, environmental differences that could shape the host microbiome should be either eliminated or accounted for. One plausible mechanistic explanation for such phenomena could be, for example, a result of host immune genes that rapidly evolve in a continuous arms race with members of its microbiome.

In animals

Across the animal kingdom there are many notable examples of phylosymbiosis. For instance, in non-human primates it was found that host evolutionary history had a substantially greater influence on the gut microbiome than either host dietary niche or geographic location.[2] It was speculated that changes in gut physiology within the evolutionary history of non-human primates was the primary reason. This finding was particularly interesting as it contradicted previous research which reported that dietary niche was a strong factor in determining the gut microbiome of mammals.[3][4][5]

Plants

A conceptual figure on the impact of domestication on the plant endophytic microbiome. (a) A phylogenetic distance among Malus species which contains wild species (black branches) and progenitor wild species (blue branches). The extended green branch represents Malus domestica with its close affiliation its main ancestor (M. sieversii). Dashed lines indicate introgression events between Malus progenitors which contributed to the formation of M. domestica. (b) The predicted three scenarios: Scenario 1, reduction in species diversity due to loss in microbial species; Scenario 2, increase in microbial diversity due to introgressive hybridization during the apple domestication; Scenario 3, diversity was not affected by domestication.

Phylosymbiosis has been reported in several plant groups including Malus[6] and Poaceae.[7] In the former case, Malus species, including wild and domesticated cultivars, harbored endophytic communities that corresponded to their phylogenetic relationship.[6]

See also

References

  1. W. Brooks, Andrew (November 18, 2016). "Phylosymbiosis: Relationships and Functional Effects of Microbial Communities across Host Evolutionary History". PLOS Biology 14 (11): e2000225. doi:10.1371/journal.pbio.2000225.g004. PMID 27861590. 
  2.  , Wikidata Q57735585
  3.  , Wikidata Q35015637
  4. Gordon, Jeffrey I.; Knight, Rob; Schrenzel, Mark D.; Tucker, Tammy A.; Schlegel, Michael L.; Bircher, J. Stephen; Ramey, Rob Roy; Turnbaugh, Peter J. et al. (2008-06-20). "Evolution of Mammals and Their Gut Microbes" (in en). Science 320 (5883): 1647–1651. doi:10.1126/science.1155725. ISSN 1095-9203. PMID 18497261. Bibcode2008Sci...320.1647L. 
  5. Gordon, Jeffrey I.; Knight, Rob; Henrissat, Bernard; Fontana, Luigi; González, Antonio; Clemente, Jose C.; Knights, Dan; Kuczynski, Justin et al. (2011-05-20). "Diet Drives Convergence in Gut Microbiome Functions Across Mammalian Phylogeny and Within Humans" (in en). Science 332 (6032): 970–974. doi:10.1126/science.1198719. ISSN 1095-9203. PMID 21596990. Bibcode2011Sci...332..970M. 
  6. 6.0 6.1 Abdelfattah, Ahmed; Tack, Ayco J. M.; Wasserman, Birgit; Liu, Jia; Berg, Gabriele; Norelli, John; Droby, Samir; Wisniewski, Michael (2021). "Evidence for host–microbiome co-evolution in apple" (in en). New Phytologist 234 (6): 2088–2100. doi:10.1111/nph.17820. ISSN 1469-8137. PMID 34823272. 
  7. Bouffaud, Marie-Lara; Poirier, Marie-Andrée; Muller, Daniel; Moënne-Loccoz, Yvan (2014). "Root microbiome relates to plant host evolution in maize and other Poaceae" (in en). Environmental Microbiology 16 (9): 2804–2814. doi:10.1111/1462-2920.12442. ISSN 1462-2920. PMID 24588973. https://onlinelibrary.wiley.com/doi/abs/10.1111/1462-2920.12442. 




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