iBio platform

The iBio (Informatics-BIOinformatics) platform provides support for statistical and bioinformatics analyses of large biological datasets.

 The iBio platform has developed skills in:

-genomic, metagenomic, transcriptomic, phenotypic and metabolic studies.

-phylogenetic/phylogenomic approaches.

-the use of multivariate analysis tools such as Principal Component Analysis, co-inertia analysis and co-occurrence/co-exclusion network analysis within microbial communities from various ecosystems.

The iBio platform is staffed by a lecturer and a design engineer, mainly based at LyonTech-la Doua (office 13.037, 3rd floor of the Mendel building, Villeurbanne).

How to find us :

-The services of the iBio platform are accessible only to members of the Unit.

Put all requests in writing, because keeping a record of requests means you can group together common requests, organize work time, distinguish between major projects and one-off requests, and build up a repertoire of proposed solutions.

-Contact the platform before submitting projects to funding agencies if these projects will require the type of analyses supported by the platform.

Contact :

For further information and to access the calculation servers, please contact the generic address: ibio@univ-lyon1.fr

For ultra-punctual requests, you can visit us at Office 13.037.

Access to the Wiki, which includes methodologies used for completed or ongoing projects (access via Lyon 1 login):
http://ecomicro.univ-lyon1.fr/wiki/doku.php?id=ibio:start​​​​​​​

 

Publications to which iBio has contributed:

-Normand et al. 2023. Draft Genomes of Frankia strains AiPa1 and AiPs1 retrieved from soil with monocultures of Picea abies or Pinus sylvestris using Alnus incana as capture plant. J Genomics, 11:1-8. doi: 10.7150/jgen.77880.

 -Gruet et al. 2023. Wheat genome architecture influences interactions with phytobeneficial microbial functional groups in the rhizosphere. Plant Cell Environ, 46:1018-1032. doi: 10.1111/pce.14508.

-Alonso et al. 2022. Microbiome analysis of new, insidious cave wall alterations in the apse of Lascaux cave. Microorganisms, 10:2449. doi: 10.3390/microorganisms10122449.