N Hierro1, A González, A Mas, J M Guillamón. 1. Departament de Bioquímica i Biotecnologia, Facultat d'Enologia, Unitat d'Enologia, Centre de Referència en Tecnologia d'Aliments (CeRTA), Universitat Rovira i Virgili, Ramón y Cajal, Tarragona, Spain.
Abstract
AIMS: To characterize reference yeast strains and identify indigenous strains isolated from wine fermentations by PCR methods. METHODS AND RESULTS: We compared several PCR techniques for yeast identification. We used oligonucleotide primers that are complementary to (i) intron splice sites, (ii) REP and (iii) ERIC elements to produce PCR fingerprints that display specific patterns between the different yeast species. These three techniques were used to characterize 41 reference yeast strains belonging to 15 different species and to identify 40 indigenous strains isolated from grape must and wine fermentations. Species-specific banding patterns were obtained with the three PCR-techniques with different degrees of intraspecific differentiation depending on the method. By comparing the PCR fingerprints of unknown isolates with those produced by reference strains, we identified yeast strains isolated from an industrial wine fermentation. CONCLUSIONS: All three PCR techniques are rapid, reliable and simple methods of yeast identification. As far as we know, this is the first time that the primers designed for amplifying repetitive elements in bacteria have been successfully used in yeast. SIGNIFICANCE AND IMPACT OF THE STUDY: Industry needs rapid, reliable and simple methods of yeast identification. The proposed PCR techniques will allow to achieve this objective.
AIMS: To characterize reference yeast strains and identify indigenous strains isolated from wine fermentations by PCR methods. METHODS AND RESULTS: We compared several PCR techniques for yeast identification. We used oligonucleotide primers that are complementary to (i) intron splice sites, (ii) REP and (iii) ERIC elements to produce PCR fingerprints that display specific patterns between the different yeast species. These three techniques were used to characterize 41 reference yeast strains belonging to 15 different species and to identify 40 indigenous strains isolated from grape must and wine fermentations. Species-specific banding patterns were obtained with the three PCR-techniques with different degrees of intraspecific differentiation depending on the method. By comparing the PCR fingerprints of unknown isolates with those produced by reference strains, we identified yeast strains isolated from an industrial wine fermentation. CONCLUSIONS: All three PCR techniques are rapid, reliable and simple methods of yeast identification. As far as we know, this is the first time that the primers designed for amplifying repetitive elements in bacteria have been successfully used in yeast. SIGNIFICANCE AND IMPACT OF THE STUDY: Industry needs rapid, reliable and simple methods of yeast identification. The proposed PCR techniques will allow to achieve this objective.
Authors: Larralde-Corona Claudia Patricia; Ramírez-González María Del Socorro; Rosas-Hernández Iván; De la Cruz-Arguijo Erika; De Santiago Carolina; Shirai Keiko; Narváez-Zapata José Alberto Journal: Biotechnol Rep (Amst) Date: 2021-06-22