AIMS: Fungi could be responsible for several problems in wines but the fungal ecosystem of grapes remains little known. The use of traditional methods does not allow to describe quickly this ecosystem. Therefore, we need to improve the knowledge about these fungi to prevent defects in wine. This study aims at evaluating the potentialities of the temporal temperature gradient gel electrophoresis (TTGE) method to describe the fungal ecosystem of grapes. METHODS AND RESULTS: The internal transcribed spacer (ITS) region was amplified and analysed using TTGE. A reference database of 56 fungal species was set up to evaluate the discrimination power of the method. The database was used for the direct identification of the fungal species present in complex samples. The sensitivity of the method is below 10(4) spores per ml. CONCLUSIONS: This method allows to describe the fungal diversity of grapes, but does not always allow to directly identify all fungal species, because of the taxonomic resolution of the ITS sequences. However, this identification strategy is less time consuming than traditional analysis by cloning and sequencing the bands. SIGNIFICANCE AND IMPACT OF THE STUDY: With this method, it will be possible to compare the fungal species present in different vineyards and to connect the presence of some fungi with particular defects in wine.
AIMS: Fungi could be responsible for several problems in wines but the fungal ecosystem of grapes remains little known. The use of traditional methods does not allow to describe quickly this ecosystem. Therefore, we need to improve the knowledge about these fungi to prevent defects in wine. This study aims at evaluating the potentialities of the temporal temperature gradient gel electrophoresis (TTGE) method to describe the fungal ecosystem of grapes. METHODS AND RESULTS: The internal transcribed spacer (ITS) region was amplified and analysed using TTGE. A reference database of 56 fungal species was set up to evaluate the discrimination power of the method. The database was used for the direct identification of the fungal species present in complex samples. The sensitivity of the method is below 10(4) spores per ml. CONCLUSIONS: This method allows to describe the fungal diversity of grapes, but does not always allow to directly identify all fungal species, because of the taxonomic resolution of the ITS sequences. However, this identification strategy is less time consuming than traditional analysis by cloning and sequencing the bands. SIGNIFICANCE AND IMPACT OF THE STUDY: With this method, it will be possible to compare the fungal species present in different vineyards and to connect the presence of some fungi with particular defects in wine.