Società Italiana di Genetica Agraria
fondata nel 1954 da Carlo Jucci
Italian Society of Agricultural Genetics
founded by Carlo Jucci in 1954
Congressi SIGA
- Book of abstracts cover
- Scientific Programme
- Session I - Functional genomics and proteomics
- Session II - New challenges in the Mediterranean area
- Session III - GMO: scientifical, technical, legal and public acceptance aspects
- Session IV - Conventional and innovative approaches for plant and animal breeding
- Session VI - Co-evolution of genes and genomes
- Parallel Session C - Genomics and proteomics
- Parallel Session D - Plant-environment interaction
- Parallel Session E - Plants as bioreactors
- Parallel Session F - Conventional and innovative approaches for plant and animal breeding
- Parallel Session G - Fruit and woody trees
- Parallel Session H - Quality
- Authors Index
- Keywords Index
Keywords Index
| 5S rDNA | C.07 | |
| A | ||
| abiotic stress | C.04 , G.19 | |
| abscisic acid | C.46 , F.09 , F.10 | |
| Ac/Ds maize transposon sequences | 1.04 | |
| Acetolactate synthase (ALS) | D.50 | |
| activation tagging | C.17 | |
| acyltransferase isolation | C.63 | |
| adaptive value | 4.06 | |
| adaptor ligation PCR | 3.01 | |
| addition lines | C.13 | |
| AFLP |
F.18 , F.31 , F.32 , F.38 , F.44 , F.45 , F.66 , F.67 , F.77 , G.02 , H.03 , H.27 |
|
| AFLP and CAPS markers | 4.07 | |
| AFLP and SAMPL molecular markers | H.21 | |
| AFLP marker | F.78 | |
| AFLP-TP | 1.05 , C.43 | |
| Aglianico del Vulture wine | F.67 | |
| agriculture requirements | 4.01 | |
| Agrobacterium | E.02 , E.13 | |
| Agrobacterium rhizogenes | E.05 , H.22 | |
| alfalfa | C.60 , F.50 , F.51 | |
| allele frequencies | 4.06 | |
| almond | H.16 | |
| Aloe arborescens | H.20 | |
| alpha globin allele | F.71 | |
| alternative oxidase | D.32 , D.35 | |
| AMOVA Mantel test | H.21 | |
| amplification | C.24 | |
| Andean germplasm | F.24 | |
| antilepidopteran spray | 3.09 | |
| antimicrobial peptides | E.08 | |
| antioxidant enzymes | D.48 | |
| antioxidant systems | D.35 | |
| antioxidants | C.55 , D.44 | |
| APA locus | C.26 | |
| Aphididae | D.16 | |
| apomictic rootstocks | F.65 | |
| apomixis | 1.02 | |
| apple | D.21 , F.64 , G.07 , G.08 | |
| apple proliferation | F.65 | |
| apple rootstock | G.09 | |
| aquaculture | F.76 | |
| Arabidopsis | C.32 , C.44 , C.47 , C.49 , D.24 , D.45 | |
| Arabidopsis thaliana | C.27 , C.65 , D.42 | |
| aroma | H.05 , H.17 | |
| arrays | C.02 | |
| artiodactyl | F.72 | |
| ascorbate | D.08 , D.43 | |
| ascorbic acid | C.65 | |
| association analysis | F.74 , F.75 | |
| association mapping | C.10 , C.14 , D.22 , F.07 , G.22 | |
| asymbiotic germination | F.56 | |
| AtCys | G.09 | |
| autochthonous yeasts | H.24 | |
| autoimmunity | E.12 | |
| auxin | C.47 , F.19 | |
| AVG | G.15 | |
| B | ||
| BAC library | C.26 | |
| Bacillus thuringiensis subsp. kurstaki | 3.09 | |
| bar | 3.02 | |
|
barley |
C.25 , C.38 , C.39 , D.09 , F.12 , F.15 , F.16 , F.17 , F.18 |
|
| basil | E.01 | |
| BDL | F.09 | |
| bean | F.34 | |
| Beauveria | G.09 | |
| berseem | F.53 | |
| Beta vulgaris | D.19 | |
| beta-galactosides | F.35 | |
| beta-zein | H.07 | |
| bioactive secondary metabolites | H.22 | |
| biochemistry | 1.03 | |
| biodiversity | D.06 , F.02 , F.46 , F.70 , F.73 , G.12 | |
| bioinformatics | C.16 , C.18 | |
| biolistic transformation | F.34 | |
| biomass production | E.05 | |
| bio-molecular markers | H.13 | |
| biotechnological methodologies | 4.01 | |
| blond and blood orange cultivars | C.62 | |
| blue-light photoreceptors | D.47 | |
| bone disease | E.06 | |
| Brassica juncea | D.41 | |
| breast cancer | E.09 | |
| breeding | F.22 , F.24 , F.36 , F.59 , F.64 | |
| breeding ( Asparagus ) | F.48 | |
| breeding work | 4.01 | |
| BSA analysis | F.40 | |
| bulk segregant analysis | F.64 | |
| bush and running habit | F.29 | |
| BY-2 | C.65 | |
| bZIP transcription factor | D.41 | |
| C | ||
| cadmium | D.40 , D.41 | |
| cadmium tolerance | G.24 | |
| caesium | D.42 | |
| candidate gene | 1.02 , 2.04 , 4.08 , C.25 , F.07 , G.22 | |
| Cannabis sativa L. | D.37 , D.38 | |
| capillary electrophoresis | F.06 | |
| CAPs marker | F.21 | |
| Capsicum annuum | F.44 | |
| carotene desaturase | C.56 | |
| carotenoid biosynthesis | C.56 | |
| carotenoids | D.45 , E.04 , H.03 | |
| carrot | E.01 | |
| caseins | F.70 | |
| catalase | G.21 | |
| cbf1 | D.28 | |
| cDNA arrays | C.03 | |
| cDNA-AFLP | C.50 , C.60 , D.33 , G.25 | |
| cell and hairy roots | H.22 | |
| cell culture | C.03 , C.50 , D.10 , E.07 | |
| cell cycle control | C.29 | |
| cell wall | D.13 | |
| cereals | C.18 | |
| certification | F.38 | |
| Chalcone synthase | G.19 | |
| characterisation | F.30 | |
| cheese | F.69 | |
| chemical composition | F.75 | |
| Chianina | 4.08 , F.74 , F.75 | |
| Chicorium intybus | 3.08 | |
| chilling | D.31 | |
| Chimeric Virus Particles (CVPs) | E.08 , E.10 | |
| Chlorella pyrenoidosa | C.65 | |
| chloride channels | D.30 | |
| chlorophyll | D.43 | |
| chlorophyll fluorescence | D.26 | |
| chlorophyll proteins | D.26 | |
| chloroplast development | C.38 | |
| chloroplast mutants | C.39 | |
| chloroplasts | H.07 | |
| chromatin | C.28 | |
| Chrysomelidae | D.16 | |
| Cilentana goat | F.70 | |
| Citrus | 3.10 | |
| clones | G.11 | |
| clones identification | F.68 | |
| cluster analysis | F.39 , F.44 , G.12 | |
| co-evolution | F.12 | |
| co-expression network | C.18 | |
| cold induced genes | D.31 | |
| cold resistance | C.39 , F.27 | |
| cold stress | C.59 | |
| cold tolerance | D.30 | |
| common bean | C.06 , C.26 , F.36 | |
| comparative gene expression profiling | H.11 | |
| condensed tannins | C.17 , D.46 | |
| conservation | F.73 | |
| conventional and assisted breeding | 4.02 | |
| COP-PCR | F.69 | |
| copper | D.38 | |
| cosuppression | C.45 | |
| cowpea | F.37 | |
| cry gene | 3.09 | |
| Cucumis melo | F.41 , F.42 , F.43 | |
| cultivar development | 4.01 | |
| cultivar identification | F.37 , F.66 , G.01 | |
| cultivars | H.12 | |
| cybrids | 3.10 | |
| Cynara cardunculus L. | C.61 , C.63 , F.45 , F.47, D.29 | |
| cynarin | C.63 | |
| cysteine residues | C.22 | |
| cytogenetic map | 4.04 | |
| cytogenetics | H.28 | |
| cytokinesis | C.29 | |
| cytokinin | F.19 | |
| cytoplasm | H.07 | |
| cytotoxicity | H.20 | |
| D | ||
| defence | G.09 | |
| defence genes | D.09 , G.20 | |
| defence response | G.08 | |
| degenerate oligonucletide | G.10 | |
| delta-9-THC | H.23 | |
| desaturases | E.03 | |
| detection | 3.05 | |
| development | D.48 | |
| diabetes mellitus | E.12 | |
| diallel cross | F.50 | |
| Dianthus caryophillus L. | D.12 | |
| Diaporthe helianthi | D.07 | |
| Dicentrarchus labrax | F.77 | |
| differential expression | G.07 | |
| differential gene expression | D.09 | |
| differentially expressed cDNAs | D.26 | |
| differentially expressed genes | C.05 | |
| dihydroflavonol 4-reductase | C.62 | |
| dioxin | H.28 | |
| discriminant analysis | F.14 | |
| discriminating capacity | G.02 | |
| disease resistance genes | F.22 | |
| disease severity | D.11 | |
| diversity | F.12 | |
| DNA extraction | G.06 | |
| DNA fingerprinting | F.44 , F.45 | |
| DNA markers | F.76 | |
| DNA microarray | D.20 | |
| DNA vaccine | C.57 | |
| domestication | F.32 | |
| domestication centres | F.78 | |
| drought | D.20 | |
| drought related genes | C.04 | |
| drought response | F.10 | |
| drought stress | D.18 , F.52 | |
| drought stress tolerance | D.17 | |
| DsRed | D.12 | |
| durum wheat |
C.04 , C.21 , C.37 , D.17 , D.18 , D.22 , D.25 , D.27 , F.04 , F.05 , H.03 |
|
| E | ||
| E7 oncoprotein | C.57 | |
| earliness | F.24 | |
| early emergence | F.27 | |
| electron microscopy | D.02 | |
| electron transport | D.51 | |
| electrophoretic variant | F.71 | |
| elicitors | D.10 | |
| elongation factor | G.04 | |
| emmer | H.01 | |
| endogenous gene | G.06 | |
| endoplasmic reticulum | H.08 | |
| endosperm development | F.08 | |
| enological selection | H.24 | |
| enteropathies | E.13 | |
| environment | D.29 , H.28 | |
| environmental impact assessment | 3.05 | |
| enzymatic assay | C.37 | |
| epigenetic control | C.32 | |
| equids | F.73 | |
| Equine Herpes Virus | E.13 | |
| Eropean ash | G.23 | |
| essential oil | D.02 | |
| EST | C.02 , C.13 , C.20 , H.01 | |
| ESTree DB | C.16 | |
| ESTuber DB | C.16 | |
| ethylene | 4.09 , G.18 | |
| ethylene receptor genes | C.51 | |
| Eucalyptus | C.58 | |
| European Community regulation | H.23 | |
| European germplasm | F.78 | |
| evolution | C.06 , C.07 , F.72 | |
| evolutionary adaptation | F.52 | |
| evolutionary conservation | C.15 | |
| expansin | C.01 | |
| expressed genes | G.07 | |
| expression analysis | C.21 , H.04 | |
| F | ||
| farm landraces | F.51 | |
| fatty acids | E.03 | |
| feed | 3.06 , H.12 | |
| female sterility | C.60 | |
| fiber hemp | H.23 | |
| filariasis | E.13 | |
| fine mapping | 4.07 | |
| fingerprinting | G.11 | |
| fire blight plant disease | D.04 | |
| FISH | 4.04 | |
| flavonoid pathway | D.46 | |
| flavonoids | E.06 , F.60 | |
| flowering | C.49 | |
| fluorescent fingerprinting | H.18 | |
| food and non food industrial end uses | 4.02 | |
| food pigments | E.01 | |
| forest trees | G.19 | |
| Fragaria x ananassa | C.55 , H.10 | |
| free-hybrid | F.50 | |
| freezing | F.29 | |
| fresh market | F.29 | |
| fruit quality | C.55 , H.11 | |
| fruit ripening | G.18 | |
| fruit softening | 4.09 | |
| fruit-set | 2.01 | |
| fumonisins | D.11 | |
| functional genes | 4.02 | |
| functional genomics | C.03 , C.18 | |
| functional map | C.13 | |
| functional markers | 4.09 , C.51 | |
| fungal plasmid | D.07 | |
| Fusarium | D.08 | |
| Fusarium oxysporumf. sp. dianthi | D.12 | |
| Fusarium oxysporum f. sp.melonis | F.42 , F.43 | |
| Fusarium verticillioides | D.11 | |
| Fusarium wilt | F.40 | |
| fusion-PCR | G.17 | |
| G | ||
| GA 20-oxidases | C.45 | |
| GAD65 | E.12 | |
| gain of function | C.44 | |
| gas-chromatography | H.23 | |
| GDP-L-galactose pyrophosphatase | C.65 | |
| geminivirus | D.01 | |
| gene activity | C.28 | |
|
gene expression |
C.02 , C.18 , C.41 , C.46 , C.51 , C.58 , C.59 , C.60 , D.20 , D.34 , D.48 , G.04 |
|
| gene family | C.26 , F.72 | |
| gene flow | 3.08 | |
| gene function | C.01 , C.42 | |
| gene isolation | 2.01 | |
| gene mapping | 4.09 | |
| gene structure | H.04 | |
| gene transfer | 3.09 | |
| genepool | C.64 | |
| genes | C.19 | |
| genetic and phenotypic characterization | F.03 | |
| genetic control | F.55 | |
| genetic differentiation | 2.03 , G.23 | |
| genetic distance | F.05 | |
| genetic diversity | F.41 , F.44 , F.76 , F.78 | |
| genetic fingerprinting | F.38 | |
| genetic improvement | 4.04 , F.53 | |
| genetic introgression | F.39 | |
| genetic linkage map | 4.05 | |
| genetic management | F.73 | |
| genetic polymorphism | F.67 | |
| genetic resistance | F.48 , F.73 | |
| genetic resources | F.52 , H.21 | |
| genetic structure | G.14 | |
| genetic traceability | F.69 | |
| genetic transformation | F.23 , F.57 , G.13 | |
| genetic variability | F.70 , F.77 | |
| genetic variation | F.33 | |
| genetically modified organism | 3.04 | |
| genome structure | C.12 | |
| genomic library | C.61 | |
| genomics | C.20 | |
| genotype | D.51 | |
| genotype x environment interaction | F.52 | |
| geographic origin | D.07 | |
| germination | D.30 , H.06 | |
| germplasm | D.19 , F.33 | |
| germplasm collection | F.29 | |
| GFP | D.12 | |
| Gingko biloba | C.24 | |
| gliadin | C.34 | |
| globe artichoke | F.46 | |
| glossy mutants | C.48 | |
| glutamyl protease | C.31 | |
| glutathione | D.08 | |
| glutathione cycle | D.25 | |
| glutathione S-transferases | D.49 | |
| gluten | C.34 | |
| glutenin | C.34 | |
| glutenin polymers | C.22 | |
| glycosil-transferase | G.04 | |
| GMO | 3.05 , 3.08 | |
| GMO traceability | 3.07 | |
| grape | 1.05 , C.02 , H.18 , H.25 | |
| grapevine | 4.10 , C.03 | |
| grazing tolerance | F.49 | |
| Green Fluorescent Protein | H.07 | |
| GS | C.64 | |
| gut contents | D.16 | |
| H | ||
| haplotype diversity | F.16 | |
| HD-Zip | D.05 | |
| Headspace-SPME-GC/MS | H.05 | |
| heat stress | 2.01 | |
| heavy metals | D.38 , G.24 | |
| Helianthus annuus | C.11 , C.56 , F.27 , F.28 | |
| Helichrysum | F.60 | |
| hemoglobin | 4.06 , F.71 | |
| herbicide resistance | D.50 | |
| herbicides | D.49 | |
| heritability | F.49 , F.75 | |
| heterologous expression | C.34 | |
| heterosis | 4.03 , D.06 , F.55 | |
| histone acetylation | C.28 | |
| histone deacetylase | C.28 | |
| HIV-1 | E.11 | |
| HMW-GS | H.02 | |
| homeobox gene | D.05 | |
| Hordeum spp | 1.04 | |
| Hordeum vulgare | F.13 | |
| hormones | C.53 , C.54 | |
| HPSEC | H.15 | |
| HPV16 | C.57 | |
| hsp101 | D.27 | |
| hybrid amplicon | 3.06 | |
| hydrogen peroxide | D.35 | |
| hydroperoxide lyase | H.16 | |
| I | ||
| ichthyosis | 4.08 | |
| in situ hybridisation | C.08 , C.07 , F.61 , H.10 | |
| in vitro cultivation | F.56 | |
| in vitro culture | E.01 , F.55 , F.57 , H.20 | |
| in vitro production | E.07 | |
| in vitro shoot proliferation | F.34 | |
| inbred lines | F.41 | |
| inbreeding | F.49 | |
| inducible promoter | D.05 | |
| industrial crop | 3.05 | |
| inflorescence | F.11 | |
| inhibition of bone resorption | E.06 | |
| innovative breeding | 4.10 | |
| inoculation | D.11 | |
| integrated molecular and physical maps | 4.10 | |
| interspecific crosses | F.59 | |
| interspecific hybridisation | F.48 | |
| intrabodies | C.23 | |
| intraspecific variability | D.07 | |
| introgression | 3.08 | |
| intron | F.68 | |
| inulin | D.29 | |
| Isatis tinctoria | H.21 | |
| ISSR | C.09 , G.01 , H.01 | |
| ISSR markers | F.25 | |
| Italian germplasm | 4.01 | |
| Italian orchids | F.56 | |
| Italy | F.03 | |
| ITS | F.54 | |
| J | ||
| jasmonates | G.18 | |
| jasmonic acid | H.19 | |
| K | ||
| kernel development | 1.03 | |
| KNOX | C.53 , C.54 | |
| L | ||
| landraces | F.18 , F.30 , F.38 | |
| lanthanides | D.44 | |
| LDR/Universal Array | 3.07 | |
| leaf development | C.02 | |
| leaf stripe | D.09 | |
| legume | C.53 | |
| Lemna minor | D.40 | |
| Lens culinaris | C.64 | |
| leucine-rich repeat | G.08 | |
| Licopersicon esculentum L. | 3.04, 4.07 , C.45 , D.47 , F.21 , D.08 | |
| light intensity | D.46 , D.51 | |
| lignine | C.58 | |
| Limonium spp. | F.59 | |
| linkage disequilibrium (LD) | C.10 , C.14 , F.07 , F.32 , G.14 , G.22 | |
| linkage map | D.17 , G.16 | |
| lipids | E.03 | |
| lipoxygenase | H.10 , H.16 | |
| local ecotypes | F.21 | |
| Lotus | F.54 | |
|
low molecular weight glutenin subunits (LMW-GS) |
C.22 , C.33 | |
| LTR retrotransposon | C.12 | |
| M | ||
| M13-PCR | F.31 | |
| macroarray | C.21 | |
| MADS box gene | F.16 | |
|
maize |
1.03 , C.43 , C.47 , C.59 , D.11 , D.21 , D.30 , F.09 , F.10 , F.11 |
|
| maize cuticle | C.48 | |
| MALDI-TOF | H.13 | |
| malting quality | F.14 | |
| malting quality traits | F.15 | |
| Malus spp. | D.31 , G.11 , G.12 | |
| Malus x domestica Borkh | G.10 , H.17 | |
| marker assisted selection | G.05 | |
| marker free plants | 3.01 | |
| marker gene | 3.02 | |
| mass spectrometry | C.22 | |
| mass-propagation | F.57 | |
| mating type | F.18 | |
| mchc | 4.06 | |
| meat color | F.74 | |
| Medicago sativa | C.29 , F.52 | |
| Medicago sativa L. complex | F.49 | |
| Medicago species | C.07 | |
| Medicago truncatula | C.07 , C.17 , C.50 , C.53 | |
| medicinal and aromatic plants (MAPs) | E.05 | |
| medicinal plants | H.20 | |
| mei 2 | C.42 | |
| meiosis | C.42 | |
| meiosis gene isolation | C.44 | |
| melanocortin receptor | F.69 | |
| Melolontha | G.09 | |
| Meloydogine spp. | F.36 | |
| meristems | C.49 , F.28 | |
| metal tolerance and accumulation | D.39 | |
| metallothionein | G.24 | |
| microanalysis | D.38 | |
| microarray | C.20 , D.19 | |
| microarray technology | 3.07 | |
| micropropagation | F.19 , F.46 | |
| microRNA | C.41 | |
| microsatellite | G.14 , F.45 , F.74 , F.75 , G.01 , G.16 , H.03 | |
| microsatellite DNA sequences | F.26 | |
| mip 1 | C.42 | |
| Miridae | D.16 | |
| mitochondria | D.30 , D.32 | |
| mitochondrial DNA | C.36 | |
| MOB domain | C.40 | |
| molecular assisted breeding | 4.09 , C.04 | |
| molecular chaperones | H.08 | |
| molecular descriptors | F.66 | |
| molecular mapping | C.51 , F.17 | |
| molecular maps | F.32 | |
|
molecular marker |
2.03 , 3.08 , 3.10 , F.64 , 4.02 , C.11 , D.14 , F.02 , F.04 , F.05 , F.12 , F.33 , F.39 , F.41 , F.42 , F.43 , F.58 , F.62 , F.65 , F.67 , G.12 , G.23 , H.14 |
|
| molecular repertoires | C.23 | |
| morphological descriptors | F.04 | |
| Mps-one-binder (Mob) | C.29 | |
| multigene family | G.21 | |
| multiplex PCR | 3.07 | |
| multivariate analysis | F.66 | |
| murine myeloma | H.20 | |
| mutagenesis | D.15 , F.20 , F.35 | |
| mutant | C.25 , D.24 , D.45 | |
| MYB gene | D.31 | |
| mycotoxin | D.08 | |
| N | ||
| NBS | G.10 | |
| NBS LRR | C.06 | |
| NBS profiling | F.05 | |
| Nef | E.11 | |
| Negroamaro | H.24 , H.25 | |
| neutral mutation | F.71 | |
| Nicotiana benthamiana | G.17 | |
| Nicotiana species genetic diversity | C.09 | |
| Nicotiana tabacum | 3.01 , C.09 , D.23 , D.35 , D.39 , E.11 | |
| nitric oxide | C.05 , C.35 , D.32 , D.36 | |
| nitrogen nutrition | D.25 | |
| non-symbiotic haemoglobin | D.36 | |
| novel genes | D.31 | |
| nutritional value | H.09 | |
| O | ||
| Olea europaea L. |
C.19, F.61 , F.62 , F.63 , G.01 , G.02 , G.03 , G.04 |
|
| oligo array | C.38 , C.39 | |
| olive | F.62 | |
| olive oil | F.63 , G.03 , H.14 | |
| oncogene | E.09 | |
| oral tolerance | E.12 | |
| Orchids spp. | F.57 , F.58 | |
| organelles genes | D.04 | |
| organic vs conventional products | H.13 | |
| organogenesis | F.55 , F.57 , G.15 | |
| orthology | C.06 | |
| Oryza sativa | C.12 , H.05 | |
| osmotic adjustment | D.19 | |
| Osmyb 4 | D.21 | |
| Osteospermum | D.21 | |
| Osteospermum ecklonis | 3.01 | |
| ovate | F.21 | |
| overdominance | 4.03 | |
| overexpression | F.11 | |
| overripening | 1.05 | |
| oxidative stress | D.33 | |
| oxidized triglycerides | H.15 | |
| oxidosqualene cyclase | E.02 | |
| oxylipins | H.16 | |
| ozone | D.33 | |
| ozone stress | D.32 , D.34 , D.35 | |
| P | ||
| packed cell volume | 4.06 | |
| PAL | C.61 | |
| paralogy | C.06 | |
| pathogen-derived resistance | D.01 | |
| PCD | C.40 | |
| PCoA | H.21 | |
| PCR | G.06 , H.02 | |
| PDI-like proteins | H.04 | |
| peach | C.16 , C.20 , G.17 | |
| pear-shaped fruit | F.21 | |
| pectin | D.13 | |
| Petunia x hybrida | C.01 , C.42 , F.55 | |
| PGIP | D.13 | |
| phage display | C.23 | |
| phaseolin | H.09 | |
| phaseoline | F.78 | |
| Phaseolus coccineus | F.33 | |
| Phaseolus spp. | F.34 | |
| Phaseolus vulgaris | F.32 , F.78 , H.09 | |
| phenolic compounds | C.03 , C.61 | |
| phospholipase A2 | C.37 | |
| phosphomannose isomerase | 3.02 | |
| photosynthesis | D.40 , E.07 | |
| photosynthesis-related genes | C.52 | |
| photosynthetic pigments | D.26 | |
| photosystem II | D.51 | |
| phyllotaxy | F.28 | |
| phylogenesis | G.12 | |
| phylogenetic analysis | F.54 | |
| phylogeny | G.21 | |
| phylogeography | H.26 | |
| Phyrenophora teres | F.12 , F.18 | |
| physical mapping | C.20 , H.18 | |
| phytates | F.35 | |
| phytochelatin synthase | D.39 | |
| phytoene synthase | C.56 | |
| phytoestrogens | E.06 | |
| phytoextraction | D.38 | |
| Phytophthora infestants resistance gene | F.23 | |
| phytoremediation | D.37 , D.41 | |
| Picea abies | C.08 , C.14 , C.24 | |
| PIN-1 | C.47 | |
| Pinus pinea | D.48 | |
| Pisum | H.12 | |
| Pisum sativum | D.15 | |
| plant cell culture | H.19 | |
| plant chromatin | C.32 | |
| plant defence response | D.03 , D.36 | |
| plant defense | C.05 | |
| plant disease | C.35 , D.15 , G.20 | |
| plant expression | E.08 | |
| plant growth-promoting rhizobacteria | D.03 | |
| plant mitochondria | C.37 | |
| plant molecular farming | E.09 | |
| plant pigments | C.55 | |
| plant reproduction | C.40 | |
| plant-derived vaccines | E.13 | |
| plant-growth promoting Rhizobacterium | D.06 | |
| plastid transformation | E.03 | |
| plastome transformation | H.07 | |
| Platanus acerifolia | G.20 | |
| Pleurotus eryngii | F.03 | |
| ploidy level | F.65 | |
| Plum Pox Virus | G.17 | |
| pmi | 3.02 | |
| Poa pratensis | 1.02 | |
| point mutation | D.50 , F.13 | |
| polar compounds | H.15 | |
| polimorphism | F.31 | |
| pollen | C.13 | |
| pollen function | C.43 | |
| pollen-pistil interaction | C.43 | |
| polyamines | G.18 | |
| polycross | F.49 | |
| polygalacturonase inhibiting protein (PGIP) | C.33 | |
| polyphenols | C.55 | |
| polyploid frequency | F.19 | |
| polyploids | D.50 | |
| population genetics | 2.03 | |
| Populus | D.34 , F.68 , G.21 | |
| Populus alba | G.22 , G.24 | |
| Populus nigra | C.10 | |
| potato | C.36 , D.24 , E.04 , F.23 , F.25 , F.26 | |
| Potato Virus X (PVX) | E.08 , E.10 | |
| powdery mildew | 4.07 , D.14 | |
| PPV | G.13 | |
| predator-prey | D.16 | |
| probability of coincidence | F.66 | |
| promoter region | C.62 | |
| protease inhibitor | C.31 | |
| protein content | H.12 | |
| protein kinase | C.27 | |
| proteinase inhibitors | C.15 | |
| proteomics | 1.03 , C.23 , C.33 , C.34 , C.35 | |
|
Proton Transfer Reaction-Mass Spectrometry |
H.11 , H.17 | |
| Prunus armeniaca | G.13 | |
| Prunus avium | G.14 , G.15 | |
| Prunus persica | C.54 , G.16 , G.18 | |
| Pyrus communis | D.04 | |
| Q | ||
| qPCR | F.65 , H.27 | |
| Quantitative Trait Loci (QTL) | 4.03 , 4.05 , C.51 , F.07 , F.09 , F.10 , F.15 , H.06 | |
| quality | F.22 , F.48 , H.12 | |
| quantitative traits | H.17 | |
| R | ||
| ra 1 mutant | F.11 | |
| radioisotopes | D.42 | |
| raisining | 1.05 | |
| rapeseed | C.31 | |
| rare earth elements | D.44 | |
| reactive oxygen species | D.04 | |
| Real Time RT-PCR | D.46 , D.49 | |
| Real Time PCR | 3.06 , D.27 , F.63 , H.14 | |
| receptor kinase | G.08 | |
| recombination | C.12 | |
| regeneration | G.13 | |
| regeneration efficiency | F.34 | |
| region of provenance | G.23 | |
| Rep | D.01 | |
| repetitive DNA | C.24 , F.61 | |
| reproduction | 1.02 | |
| resistance | F.36 , F.42 , F.65 , G.13 | |
| resistance gene | C.15 , D.14 , D.15 , F.05 , F.43 | |
| Resistance Gene Homologues | C.06 | |
| resistance to biotic and abiotic stress | F.29 | |
| retrotransposon | C.11 , C.24 , F.01 , F.17 , F.47 , F.62 , G.11 | |
| reverse genetics | F.13 | |
| RFLP | F.61 | |
| rice | D.21 , D.49 | |
| rice blast | D.10 | |
| rice fields | D.50 | |
| ripening | 1.05 , H.10 | |
| river buffalo | 4.04 | |
| RNA interference | G.17 | |
| rol B | D.39 | |
| rol C gene | E.05 | |
| rol D | C.49 | |
| root traits | F.09 | |
| rooting | C.49 | |
| root-knot nematodes | F.36 | |
| roots | D.29 | |
| RT-PCR | C.60 , D.18 | |
| runner bean | F.33 | |
| S | ||
| Saccharomyces | H.24 , H.25 | |
| safe crops | D.42 | |
| safeguard | F.30 | |
| salt tolerance | D.24 | |
| salt stress | D.23 | |
| Salvelinus alpinus | F.76 | |
| Salvia sclarea | H.22 | |
| SAMPL | G.02 | |
| saponine | C.17 | |
| scab | G.07 | |
| SCAR | C.19 , G.02 | |
| SCE | H.28 | |
| scFv | E.09 | |
| SDS-PAGE | H.02 | |
| secretion | C.57 | |
| seed conductivity | H.06 | |
| seed mutants | F.08 | |
| seed quality | F.30 , F.35 , H.06 | |
| seed storage proteins | F.37 | |
| seeds | F.20 | |
| selenate | D.43 | |
| selenite | D.43 | |
| SEM and TEM analysis | C.48 | |
| Senecio scadens L. | D.43 | |
| senescence | C.50 , C.52 | |
| sequence variation | C.64 | |
| Serapias | F.58 | |
| sexual determination | G.25 | |
| sheep | F.72 , H.28 | |
| sheep blood | 4.06 | |
| Shoot Apical Meristem (SAM) | C.47 | |
| silver nitrate | G.15 | |
| single nucleotide polymorphism (SNP) |
C.10, C.14 , C.19 , D.46 , F.63, G.22 , 2.03 , 2.04 , C.58, C.59 |
|
| site-directed mutagenesis | D.13 | |
| skin colour | F.64 | |
| S-nitrosylation | C.35 | |
| Solanum aethiopicum L. | F.39 , F.40 | |
| Solanum melongena | F.40 | |
| Solanum tuberosum | C.15 , C.36 , F.24 , H.13 | |
| somatic hybridization | F.40 | |
| somatic hybrids | 3.10 , F.25 | |
| sour cherry | E.01 | |
| soy isoflavones | E.06 | |
| SRAP | C.19 | |
| SSAP | F.01 , F.47 | |
| S-SAP markers | F.17 | |
| SSCP | F.68 | |
| SSR | G.03 , H.26 | |
| SSR markers | F.51 | |
| stay green mutant | C.52 | |
| storage proteins | H.08 , H.09 | |
| Streptomyces griseus | C.31 | |
| stress resistance | D.22 | |
| stress-responsive gene | D.24 | |
| stress tolerance | 2.04 , C.04 , D.05 , D.21 , D.37 , G.20 | |
| substantial equivalence | 3.04 | |
| substitution lines | D.28 | |
| sulphate metabolism | D.40 | |
| sulphur nutrition | D.25 | |
| sunflower | C.11 , E.07 | |
| suppression subtractive hybridisation | D.34 | |
| symbiontic association | C.05 | |
| symbiotic bacteria | D.02 | |
| synteny | C.25 | |
| synthetic | F.50 | |
| T | ||
| T cell response | E.10 | |
| table grapes | G.05 | |
| tandem repeated DNA sequences | C.08 | |
| Taqman probe | 3.06 | |
| taxonomy | F.60 | |
| T-cell receptor | F.72 | |
| T-DNA | D.42 | |
| technical protocols | 3.05 | |
| technological properties | F.06 | |
| temperature | D.51 | |
| TGM1 | 4.08 | |
| thermotolerance | D.27 | |
| TILLING | C.17 , F.13 , F.20 | |
| tobacco | D.32 | |
| tocopherol | E.07 | |
| tocopherol biosynthesis | H.19 | |
| tolerance / susceptibilty | D.10 | |
| tolerant genotypes | D.23 | |
| tomato |
2.01 , C.45 , D.05 , D.21 , E.04 , F.19 , F.20 , F.22 , F.23 |
|
| tomato spotted wilt virus | 3.04 | |
| traceability | G.06 , H.13 , H.14 | |
| transcription factor | C.25 , C.53 , C.54 | |
| transcriptional profiling | D.49 | |
| transcriptome | 1.05 | |
| transcriptomics | 1.03 | |
| transformation | E.02 | |
| transgenic plant | G.04 , G.15 , D.21 ,E.11 , E.12 | |
| transgenic wheat | C.33 | |
| transient transfection | C.32 | |
| transpiration | C.46 | |
| trichome development | C.48 | |
| Trifolium alexandrinum | F.53 | |
| triglyceride oligopolymers | H.15 | |
| triterpenoid saponins | E.02 | |
| Triticum dicoccum | H.01 | |
| Triticum durum | C.52 , D.33 , D.44 | |
| Triticum spp. | 1.04 | |
| Triticum timopheevii | H.02 | |
| Triticum turanicum | F.06 | |
| Triticum turgidum L. subsp durum | 4.05 | |
| truffle | C.16 , F.02 | |
| tuber dormancy | F.24 | |
| Tuber magnatum | H.26 | |
| Tuber melanosporum | F.01 | |
| TUNEL assay | C.40 | |
| twin genes | C.64 | |
| two-hybrid | C.27 | |
| typical product | F.31 | |
| tyrosine phosphorylation | C.27 | |
| U | ||
| UV radiation | G.19 | |
| V | ||
| vaccine | E.11 | |
| variability | H.01 | |
| varietal characterisation | F.04 | |
| varietal composition | H.14 | |
| varietal identification | F.26 | |
| variety composition | F.63 | |
| Venturia inaequalis | G.10 | |
| vernalization | F.16 | |
| vetiver root | D.02 | |
| Vetiveria zizanioides (L.) Nash | D.02 | |
| vicilin | F.37 | |
| VIGS | D.01 | |
| virescent | D.26 | |
| virgin olive oil | G.01 , H.15 | |
| virulence genes | D.04 | |
| Vitamin E | H.19 | |
| Vitis | G.06 | |
| Vitis vinifera | C.27 , G.05 | |
| viviparous | C.46 | |
| VOCs | H.17 | |
| Y | ||
| yield potential | F.27 | |
| Z | ||
| Zea mays L. |
4.03 , C.13 , C.28 , C.41 , D.06 , D.20 , D.26 , F.07 , F.08 , H.06 |
|
| zinc finger domain | F.11 | |
| Zn-contaminated soil | D.37 |