Processes in which these genes may very well be involved, a Set Enrichment Evaluation (GSEA) was was performed in the distinct be involved, a Gene Gene Set Enrichment Analysis (GSEA) performed within the diverse groups. The first group, formed 4,859 genes with high effect variants in the the Vouves groups. The first group, formed by by 4859 genes with high influence variants inVouves bottom tree sample, Methyl jasmonate Formula presented an enrichment eight terms: “IMP Salvage” (GO: 0032264), bottom tree sample, presented an enrichment in in eight terms: “IMP Salvage” (GO: 0032264), “Heme Oxidation” (GO: 0006788), “rRNA processing” (GO: 0006364), “cellulose “Heme Oxidation” (GO: 0006788), “rRNA processing” (GO: 0006364), “cellulose biosynbiosynthetic process”0030244), “Glycolytic process” (GO: 0006096), “Telomere maintenance” thetic process” (GO: (GO: 0030244), “Glycolytic process” (GO: 0006096), “Telomere maintenance” (GO: 0000723), “DNA repair” (GO: 0006281) and “Carbohydrate metabolic (GO: (GO: 0000723), “DNA repair” (GO: 0006281) and “Carbohydrate metabolic process” process” (GO: 0005975) The second group had 2,278 genes 2,278 higher impact variants for the 0005975) (Figure 6A). (Figure 6A). The second group had with genes with higher influence variants leading the Vouves best presented enrichment inside the following terms “Regulation of proVouves for tree sample. It tree sample. It presented enrichment in the following terms “Regulation of proton0010155), “Mitochondrial “Mitochondrial electron transport ubiqton transport” (GO: transport” (GO: 0010155), electron transport ubiquinol to cytochrome uinol to cytochrome”Terpenoid biosynthetic process” (GO: 0016114), “Response to metal c” (GO: 0006122), c” (GO: 0006122), “Terpenoid biosynthetic process” (GO: 0016114), “Response to metal ion” (GO: 0010038), “Biosynthetic process” (GO: 0009058), “L-phenylion” (GO: 0010038), “Biosynthetic process” (GO: 0009058), “L-phenylalanine catabolic alanine catabolic process” “tyrosine metabolic process” (GO: process” (GO: 0006570), “typrocess” (GO: 0006559), (GO: 0006559), “tyrosine metabolic 0006570), “tyrosine biosynthetic rosine biosynthetic process” (GO: 0006571), “Metabolic process” “Double-strand break repair process” (GO: 0006571), “Metabolic process” (GO: 0008152), (GO: 0008152), “Doublestrand break repair by way of homologous recombination” (GO: 0000724), “Anaphase-promotvia homologous recombination” (GO: 0000724), “Anaphase-promoting complicated dependent ing complicated dependent catabolic process” (GO: Moveltipril custom synthesis 0031145), “Dolichol-linked oligosacchacatabolic process” (GO: 0031145), “Dolichol-linked oligosaccharide biosynthetic process” ride biosynthetic process” (GO: 0006488), “Phytochelatin biosynthetic process” (GO: 0006488), “Phytochelatin biosynthetic process” (GO:0046938) and “Photosynthesis (GO:0046938) and “Photosynthesis light harvesting” (GO: 0009765) (Figure 6B). light harvesting” (GO: 0009765) (Figure 6B).Figure 5. Venn diagram showing Figure 5. Venn diagram displaying the amount of Higher Effect (HI) variants shared among the Vouves number of High Impact (HI) variants shared in between the Vouves tree bottom (green), the Vouves tree top rated sample (blue) the other Greek accessions (yellow). tree bottom (green), the Vouves tree leading sample (blue) and as well as the other Greek accessions (yellow).The third group had 970 genes related to higher influence changes shared by all of the Greek accessions (`Kalamon’, `Koroneiki’, `Mastoidis’, `Mavreya’, `Megaritiki’ and `Myrtolia’) but absent inside the Vouves tree. This cluster presente.