Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.

Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.

The prominent feature of rhizobia is their molecular dialogue with plant hosts. Such interaction is enabled by the presence of a series of symbiotic genes encoding for the synthesis and export of signals triggering organogenetic and physiological responses in the plant. The genome of the Rhizobium s...

Full description

Bibliographic Details
Main Authors: Gaurav Sablok, Riccardo Rosselli, Torsten Seeman, Robin van Velzen, Elisa Polone, Alessio Giacomini, Nicola La Porta, Rene Geurts, Rosella Muresu, Andrea Squartini
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-07-01
Series:Frontiers in Microbiology
Subjects:
Rhizobium sullae
type strain
Hedysarum coronarium
Sulla coronaria
nod genes
host-specific symbiotic adaptation
Online Access:http://journal.frontiersin.org/article/10.3389/fmicb.2017.01348/full
id doaj-190cf09b12ac4d969e298e73124267db
record_format Article
spelling doaj-190cf09b12ac4d969e298e73124267db2020-11-24T23:04:55ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2017-07-01810.3389/fmicb.2017.01348267462Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.Gaurav Sablok0Riccardo Rosselli1Torsten Seeman2Robin van Velzen3Elisa Polone4Alessio Giacomini5Nicola La Porta6Nicola La Porta7Rene Geurts8Rosella Muresu9Andrea Squartini10Department of Biodiversity and Molecular Ecology, Research and Innovation Centre, Fondazione Edmund MachSan Michele all'Adige, ItalyDivision de Microbiología, Universidad Miguel HernandezSan Juan de Alicante, SpainVictorian Bioinformatics Consortium, Monash UniversityMelbourne, VIC, AustraliaLaboratory of Molecular Biology, Department of Plant Science, Wageningen UniversityWageningen, NetherlandsLaboratory of Molecular Biology, Department of Plant Science, Wageningen UniversityWageningen, NetherlandsDepartment of Agronomy, Food, Natural Resources, Animals and Environment, University of PadovaLegnaro, ItalyDepartment of Sustainable Agrobiosystems and Bioresources, Research and Innovation Centre, Fondazione Edmund MachSan Michele all'Adige, ItalyMOUNTFOR Project Centre, European Forest InstituteSan Michele all'Adige, ItalyLaboratory of Molecular Biology, Department of Plant Science, Wageningen UniversityWageningen, NetherlandsInstitute of Animal Production Systems in Mediterranean Environments-National Research CouncilSassari, ItalyDepartment of Agronomy, Food, Natural Resources, Animals and Environment, University of PadovaLegnaro, ItalyThe prominent feature of rhizobia is their molecular dialogue with plant hosts. Such interaction is enabled by the presence of a series of symbiotic genes encoding for the synthesis and export of signals triggering organogenetic and physiological responses in the plant. The genome of the Rhizobium sullae type strain IS123T nodulating the legume Hedysarum coronarium, was sequenced and resulted in 317 scaffolds for a total assembled size of 7,889,576 bp. Its features were compared with those of genomes from rhizobia representing an increasing gradient of taxonomical distance, from a conspecific isolate (Rhizobium sullae WSM1592), to two congeneric cases (Rhizobium leguminosarum bv. viciae and Rhizobium etli) and up to different genera within the legume-nodulating taxa. The host plant is of agricultural importance, but, unlike the majority of other domesticated plant species, it is able to survive quite well in the wild. Data showed that that the type strain of R. sullae, isolated from a wild host specimen, is endowed with a richer array of symbiotic genes in comparison to other strains, species or genera of rhizobia that were rescued from domesticated plant ecotypes. The analysis revealed that the bacterium by itself is incapable of surviving in the extreme conditions that its host plant can tolerate. When exposed to drought or alkaline condition, the bacterium depends on its host to survive. Data are consistent with the view of the plant phenotype as the primary factor enabling symbiotic nitrogen fixing bacteria to survive in otherwise limiting environments.http://journal.frontiersin.org/article/10.3389/fmicb.2017.01348/fullRhizobium sullaetype strainHedysarum coronariumSulla coronarianod geneshost-specific symbiotic adaptation
collection DOAJ
language English
format Article
sources DOAJ
author Gaurav Sablok
Riccardo Rosselli
Torsten Seeman
Robin van Velzen
Elisa Polone
Alessio Giacomini
Nicola La Porta
Nicola La Porta
Rene Geurts
Rosella Muresu
Andrea Squartini
spellingShingle Gaurav Sablok
Riccardo Rosselli
Torsten Seeman
Robin van Velzen
Elisa Polone
Alessio Giacomini
Nicola La Porta
Nicola La Porta
Rene Geurts
Rosella Muresu
Andrea Squartini
Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.
Frontiers in Microbiology
Rhizobium sullae
type strain
Hedysarum coronarium
Sulla coronaria
nod genes
host-specific symbiotic adaptation
author_facet Gaurav Sablok
Riccardo Rosselli
Torsten Seeman
Robin van Velzen
Elisa Polone
Alessio Giacomini
Nicola La Porta
Nicola La Porta
Rene Geurts
Rosella Muresu
Andrea Squartini
author_sort Gaurav Sablok
title Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.
title_short Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.
title_full Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.
title_fullStr Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.
title_full_unstemmed Draft Genome Sequence of the Nitrogen-Fixing Rhizobium sullae Type Strain IS123T Focusing on the Key Genes for Symbiosis with its Host Hedysarum coronarium L.
title_sort draft genome sequence of the nitrogen-fixing rhizobium sullae type strain is123t focusing on the key genes for symbiosis with its host hedysarum coronarium l.
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2017-07-01
description The prominent feature of rhizobia is their molecular dialogue with plant hosts. Such interaction is enabled by the presence of a series of symbiotic genes encoding for the synthesis and export of signals triggering organogenetic and physiological responses in the plant. The genome of the Rhizobium sullae type strain IS123T nodulating the legume Hedysarum coronarium, was sequenced and resulted in 317 scaffolds for a total assembled size of 7,889,576 bp. Its features were compared with those of genomes from rhizobia representing an increasing gradient of taxonomical distance, from a conspecific isolate (Rhizobium sullae WSM1592), to two congeneric cases (Rhizobium leguminosarum bv. viciae and Rhizobium etli) and up to different genera within the legume-nodulating taxa. The host plant is of agricultural importance, but, unlike the majority of other domesticated plant species, it is able to survive quite well in the wild. Data showed that that the type strain of R. sullae, isolated from a wild host specimen, is endowed with a richer array of symbiotic genes in comparison to other strains, species or genera of rhizobia that were rescued from domesticated plant ecotypes. The analysis revealed that the bacterium by itself is incapable of surviving in the extreme conditions that its host plant can tolerate. When exposed to drought or alkaline condition, the bacterium depends on its host to survive. Data are consistent with the view of the plant phenotype as the primary factor enabling symbiotic nitrogen fixing bacteria to survive in otherwise limiting environments.
topic Rhizobium sullae
type strain
Hedysarum coronarium
Sulla coronaria
nod genes
host-specific symbiotic adaptation
url http://journal.frontiersin.org/article/10.3389/fmicb.2017.01348/full
work_keys_str_mv AT gauravsablok draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT riccardorosselli draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT torstenseeman draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT robinvanvelzen draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT elisapolone draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT alessiogiacomini draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT nicolalaporta draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT nicolalaporta draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT renegeurts draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT rosellamuresu draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
AT andreasquartini draftgenomesequenceofthenitrogenfixingrhizobiumsullaetypestrainis123tfocusingonthekeygenesforsymbiosiswithitshosthedysarumcoronariuml
_version_ 1725628493191970816

Similar Items