Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekte.

<h4>Background</h4>South African plant species of the genera Fadogia, Pavetta and Vangueria (all belonging to Rubiaceae) are known to cause gousiekte (literally 'quick disease'), a fatal cardiotoxicosis of ruminants characterised by acute heart failure four to eight weeks after...

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Main Authors: Brecht Verstraete, Daan Van Elst, Hester Steyn, Braam Van Wyk, Benny Lemaire, Erik Smets, Steven Dessein
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-04-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21541284/?tool=EBI
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spelling doaj-635245ae8b4e4bb29aeaec2766f071882021-03-04T01:56:41ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-04-0164e1926510.1371/journal.pone.0019265Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekte.Brecht VerstraeteDaan Van ElstHester SteynBraam Van WykBenny LemaireErik SmetsSteven Dessein<h4>Background</h4>South African plant species of the genera Fadogia, Pavetta and Vangueria (all belonging to Rubiaceae) are known to cause gousiekte (literally 'quick disease'), a fatal cardiotoxicosis of ruminants characterised by acute heart failure four to eight weeks after ingestion. Noteworthy is that all these plants harbour endophytes in their leaves: nodulating bacteria in specialized nodules in Pavetta and non-nodulating bacteria in the intercellular spaces between mesophyll cells in Fadogia and Vangueria.<h4>Principal findings</h4>Isolation and analyses of these endophytes reveal the presence of Burkholderia bacteria in all the plant species implicated in gousiekte. Although the nodulating and non-nodulating bacteria belong to the same genus, they are phylogenetically not closely related and even fall in different bacterial clades. Pavetta harborii and Pavetta schumanniana have their own specific endophyte--Candidatus Burkholderia harborii and Candidatus Burkholderia schumanniana--while the non-nodulating bacteria found in the other gousiekte-inducing plants show high similarity to Burkholderia caledonica. In this group, the bacteria are host specific at population level. Investigation of gousiekte-inducing plants from other African countries resulted in the discovery of the same endophytes. Several other plants of the genera Afrocanthium, Canthium, Keetia, Psydrax, Pygmaeothamnus and Pyrostria were tested and were found to lack bacterial endophytes.<h4>Conclusions</h4>The discovery and identification of Burkholderia bacteria in gousiekte-inducing plants open new perspectives and opportunities for research not only into the cause of this economically important disease, but also into the evolution and functional significance of bacterial endosymbiosis in Rubiaceae. Other South African Rubiaceae that grow in the same area as the gousiekte-inducing plants were found to lack bacterial endophytes which suggests a link between bacteria and gousiekte. The same bacteria are consistently found in gousiekte-inducing plants from different regions indicating that these plants will also be toxic to ruminants in other African countries.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21541284/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Brecht Verstraete
Daan Van Elst
Hester Steyn
Braam Van Wyk
Benny Lemaire
Erik Smets
Steven Dessein
spellingShingle Brecht Verstraete
Daan Van Elst
Hester Steyn
Braam Van Wyk
Benny Lemaire
Erik Smets
Steven Dessein
Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekte.
PLoS ONE
author_facet Brecht Verstraete
Daan Van Elst
Hester Steyn
Braam Van Wyk
Benny Lemaire
Erik Smets
Steven Dessein
author_sort Brecht Verstraete
title Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekte.
title_short Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekte.
title_full Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekte.
title_fullStr Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekte.
title_full_unstemmed Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekte.
title_sort endophytic bacteria in toxic south african plants: identification, phylogeny and possible involvement in gousiekte.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-04-01
description <h4>Background</h4>South African plant species of the genera Fadogia, Pavetta and Vangueria (all belonging to Rubiaceae) are known to cause gousiekte (literally 'quick disease'), a fatal cardiotoxicosis of ruminants characterised by acute heart failure four to eight weeks after ingestion. Noteworthy is that all these plants harbour endophytes in their leaves: nodulating bacteria in specialized nodules in Pavetta and non-nodulating bacteria in the intercellular spaces between mesophyll cells in Fadogia and Vangueria.<h4>Principal findings</h4>Isolation and analyses of these endophytes reveal the presence of Burkholderia bacteria in all the plant species implicated in gousiekte. Although the nodulating and non-nodulating bacteria belong to the same genus, they are phylogenetically not closely related and even fall in different bacterial clades. Pavetta harborii and Pavetta schumanniana have their own specific endophyte--Candidatus Burkholderia harborii and Candidatus Burkholderia schumanniana--while the non-nodulating bacteria found in the other gousiekte-inducing plants show high similarity to Burkholderia caledonica. In this group, the bacteria are host specific at population level. Investigation of gousiekte-inducing plants from other African countries resulted in the discovery of the same endophytes. Several other plants of the genera Afrocanthium, Canthium, Keetia, Psydrax, Pygmaeothamnus and Pyrostria were tested and were found to lack bacterial endophytes.<h4>Conclusions</h4>The discovery and identification of Burkholderia bacteria in gousiekte-inducing plants open new perspectives and opportunities for research not only into the cause of this economically important disease, but also into the evolution and functional significance of bacterial endosymbiosis in Rubiaceae. Other South African Rubiaceae that grow in the same area as the gousiekte-inducing plants were found to lack bacterial endophytes which suggests a link between bacteria and gousiekte. The same bacteria are consistently found in gousiekte-inducing plants from different regions indicating that these plants will also be toxic to ruminants in other African countries.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21541284/?tool=EBI
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