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You have entered the IISP: Interactive Information System on Pathogenomics

 

If you would like to insert information about your research or research group, please click to the following link to download the form. After filling it out, please send back to m.karrasch@fz-juelich.de or g.gebreselassie@fz-juelich.de.

Here you will find information about Research groups in the PathoGenoMics fields from the ERA-NET partner countries (Austria, Finland, France, Hungary, Israel, Latvia, Portugal, Slovenia and Spain).
This information is supposed to support cooperation between researchers from different European countries
and thus enhance the development of a European Research Area for PathoGenoMics .

 

The following information is available and can be searched for:

  • researcher names
  • Institution of the respective researcher, city and country of his/her institution
  • Contact data of the researcher (address, phone, email)
  • Research topics and studied microorganisms of the researcher
  • Special techniques applied by the researcher
  • Potential cooperation topics suggested by the researcher

If you have any comments/questions or if you would like to add some information, please contact m.karrasch@fz-juelich.de

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Name: Prof. Dr. di Pietro, Antonio
Address: Edificio Mendel 5, Campus Univers. de Rabanales
Institution: Dpto. Genetica, Universidad de Cordoba
 
City: Cordoba Zip: ES-14071
Country: Spain Phone:
    Fax:
Email: ge2dipia@uco.es
www:

 

Research Topics:
Fungi cause disease in plant and animal hosts. The extent to which virulence determinants are conserved between both classes of pathogens is unknown. We have developed a dual plant-animal infection model based on a single strain of Fusarium oxysporum, the causal agent of vascular wilt disease in plants and an emerging opportunistic pathogen of humans. Injection of microconidia of the well-characterized tomato pathogenic isolate 4287 in the lateral tail vein of immunodepressed mice resulted in disseminated infection of multiple organs and death of the animals. Knockout mutants in genes encoding a Pmk1-type mitogen-activated protein kinase, the pH response transcription factor PacC or a class V chitin synthase, all previously shown to be implicated in virulence on tomato plants, were tested in the disseminated mouse model. Our results indicate that some of these virulence factors play functionally distinct roles during infection of tomato and mice. Thus, a single F. oxysporum strain can be used to study fungal virulence mechanisms in plant and mammalian pathogenesis.

 

Organisms studied:
  • Fusarium oxysporum

 

Special methods / technologies:

 

Suggestions for potential research cooperations:
Fungal virulence mechanisms, evolutionary relationship between fungal pathogenicity on plants and mammals
 
   
   
   
     
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