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Transcriptomes of Ralstonia solanacearum during Root Colonization of Solanum commersonii

Puigvert, Marina ; Guarischi-Sousa, Rodrigo ; Zuluaga, Paola ; Coll, Núria S ; Macho, Alberto P ; Setubal, João C ; Valls, Marc

Frontiers in plant science, 2017-03, Vol.8, p.370-370 [Periódico revisado por pares]

Switzerland: Frontiers Media

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  • Título:
    Transcriptomes of Ralstonia solanacearum during Root Colonization of Solanum commersonii
  • Autor: Puigvert, Marina ; Guarischi-Sousa, Rodrigo ; Zuluaga, Paola ; Coll, Núria S ; Macho, Alberto P ; Setubal, João C ; Valls, Marc
  • Assuntos: Genetic transcription ; Movements of plants ; Moviments de les plantes ; Plant Science ; Solanaceae ; Solanàcies ; Transcripció genètica
  • É parte de: Frontiers in plant science, 2017-03, Vol.8, p.370-370
  • Notas: ObjectType-Article-1
    SourceType-Scholarly Journals-1
    ObjectType-Feature-2
    content type line 23
    This article was submitted to Plant Microbe Interactions, a section of the journal Frontiers in Plant Science
    Reviewed by: Yasufumi Hikichi, Kōchi University, Japan; Chiu-Ping Cheng, National Taiwan University, Taiwan
    Edited by: Fabienne Vailleau, Centre Toulouse Midi-Pyrénées (INRA), France
  • Descrição: Bacterial wilt of potatoes-also called brown rot-is a devastating disease caused by the vascular pathogen that leads to significant yield loss. As in other plant-pathogen interactions, the first contacts established between the bacterium and the plant largely condition the disease outcome. Here, we studied the transcriptome of UY031 early after infection in two accessions of the wild potato showing contrasting resistance to bacterial wilt. Total RNAs obtained from asymptomatic infected roots were deep sequenced and for 4,609 out of the 4,778 annotated genes in strain UY031 were recovered. Only 2 genes were differentially-expressed between the resistant and the susceptible plant accessions, suggesting that the bacterial component plays a minor role in the establishment of disease. On the contrary, 422 genes were differentially expressed (DE) compared to growth on a synthetic rich medium. Only 73 of these genes had been previously identified as DE in a transcriptome of extracted from infected tomato xylem vessels. Virulence determinants such as the Type Three Secretion System (T3SS) and its effector proteins, motility structures, and reactive oxygen species (ROS) detoxifying enzymes were induced during infection of . On the contrary, metabolic activities were mostly repressed during early root colonization, with the notable exception of nitrogen metabolism, sulfate reduction and phosphate uptake. Several of the genes identified as significantly up-regulated during infection had not been previously described as virulence factors. This is the first report describing the transcriptome directly obtained from infected tissue and also the first to analyze bacterial gene expression in the roots, where plant infection takes place. We also demonstrate that the bacterial transcriptome can be studied when pathogen numbers are low by sequencing transcripts from infected tissue avoiding prokaryotic RNA enrichment.
  • Editor: Switzerland: Frontiers Media
  • Idioma: Inglês
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