Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.

Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.

It has been known for decades that some insect-infecting trypanosomatids can survive in culture without heme supplementation while others cannot, and that this capability is associated with the presence of a betaproteobacterial endosymbiont in the flagellate's cytoplasm. However, the specific m...

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Main Authors: João M P Alves, Logan Voegtly, Andrey V Matveyev, Ana M Lara, Flávia Maia da Silva, Myrna G Serrano, Gregory A Buck, Marta M G Teixeira, Erney P Camargo
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21853145/?tool=EBI
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spelling doaj-04085939708e41d0af54a7c9f7372c782021-03-04T01:40:03ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-0168e2351810.1371/journal.pone.0023518Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.João M P AlvesLogan VoegtlyAndrey V MatveyevAna M LaraFlávia Maia da SilvaMyrna G SerranoGregory A BuckMarta M G TeixeiraErney P CamargoIt has been known for decades that some insect-infecting trypanosomatids can survive in culture without heme supplementation while others cannot, and that this capability is associated with the presence of a betaproteobacterial endosymbiont in the flagellate's cytoplasm. However, the specific mechanisms involved in this process remained obscure. In this work, we sequence and phylogenetically analyze the heme pathway genes from the symbionts and from their hosts, as well as from a number of heme synthesis-deficient Kinetoplastida. Our results show that the enzymes responsible for synthesis of heme are encoded on the symbiont genomes and produced in close cooperation with the flagellate host. Our evidence suggests that this synergistic relationship is the end result of a history of extensive gene loss and multiple lateral gene transfer events in different branches of the phylogeny of the Trypanosomatidae.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21853145/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author João M P Alves
Logan Voegtly
Andrey V Matveyev
Ana M Lara
Flávia Maia da Silva
Myrna G Serrano
Gregory A Buck
Marta M G Teixeira
Erney P Camargo
spellingShingle João M P Alves
Logan Voegtly
Andrey V Matveyev
Ana M Lara
Flávia Maia da Silva
Myrna G Serrano
Gregory A Buck
Marta M G Teixeira
Erney P Camargo
Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.
PLoS ONE
author_facet João M P Alves
Logan Voegtly
Andrey V Matveyev
Ana M Lara
Flávia Maia da Silva
Myrna G Serrano
Gregory A Buck
Marta M G Teixeira
Erney P Camargo
author_sort João M P Alves
title Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.
title_short Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.
title_full Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.
title_fullStr Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.
title_full_unstemmed Identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.
title_sort identification and phylogenetic analysis of heme synthesis genes in trypanosomatids and their bacterial endosymbionts.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description It has been known for decades that some insect-infecting trypanosomatids can survive in culture without heme supplementation while others cannot, and that this capability is associated with the presence of a betaproteobacterial endosymbiont in the flagellate's cytoplasm. However, the specific mechanisms involved in this process remained obscure. In this work, we sequence and phylogenetically analyze the heme pathway genes from the symbionts and from their hosts, as well as from a number of heme synthesis-deficient Kinetoplastida. Our results show that the enzymes responsible for synthesis of heme are encoded on the symbiont genomes and produced in close cooperation with the flagellate host. Our evidence suggests that this synergistic relationship is the end result of a history of extensive gene loss and multiple lateral gene transfer events in different branches of the phylogeny of the Trypanosomatidae.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21853145/?tool=EBI
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