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Congressi SIGA

Logo congresso annuale Siga

AGI-SIBV-SIGA Joint Congress

Assisi (PG),  19-22 September 2011

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Keywords Index

 

 
 

 
A B C D E F G H I J K L M N

 		 O P Q R S T U V W X Y Z



 8.21
1000 Genomes project 3B.02
14-3-3 protein 2C.12
2D electrophoresis 2A.73, 2A.77, 7.29
3D crystallization 9.37
454 sequencing 7.12
454-reads 2A.76
5’UTR variants 6B.06
5A chromosome 2A.75
5-azaCytidine 2A.01
5s rRDNA NTS 2A.16
5'-Tyrosyl-DNA phosphodiesterase 6A.44
6 Kb palindromic structure 2A.03


A
 
A. officinalis 2A.14
A/B-genome 6A.09
ABA 2A.68
ABC transporter 2B.10
aberrant mRNA-splicing 6A.36
abiotic stress  1.02, 2A.40, 2A.70, 2C.02, 6A.37, 8.04, 9.19
abscisic acid  8.04
acclimation  4.04
ACL  9.54, 9.55
activity-of-bc1-complex family  2C.04
acute ozone stress 9.43
adaptive evolution  2A.10
Adriano Buzzati-Traverso 3C.01
AFLP  2A.18, 2A.42, 3A.17, 5C.08, 9.18
AFLP markers  5C.09
agamic propagation 3A.03
AGAMOUS-like gene  2A.57
AGEs   5A.05
aggressive periodontitis   6B.05
aging  1.07, 9.48
Aglianico 3A.17
agricultural residue  5C.03
Agrobacterium tumefaciens 5C.06
Agrobacterium tumefaciens-mediated transformation  4.07
agroinfiltration  5C.15
AHAS-inhibiting herbicides 9.07
albino leaves 2C.09
alfalfa   9.24, 9.25, 9.26, 9.28
algae 5C.04
alien gene transfer  6A.20
alkalization  9.19
allergenicity  3A.21
allergens   5C.15
allergies  8.12
almond  9.40
alternative splicing 2A.04, 2A.25
AM fungi  7.28
amino acid inhibitors as herbicides  6A.41
aminobisphosphonates 6A.41
amiprophos-methyl  9.11
amorpha-4,11diene synthase 6A.47
ampelography  3A.17
amylases 5B.01
ancient DNA  9.21, 9.45
Antarctic krill  2A.59
anthocyanin 2A.26, 3A.09, 6A.23, 6A.32, 8.18, 8.31
anthocyanin mutants 8.28
antinutritional factors 8.19
antioxidant  6A.48, 7.13, 8.01, 8.28, 8.32
antioxidant compounds 8.14
antioxidant enzyme 6A.35
AP1   2A.30
aphid  2A.63
apoptosis 2A.58
Approximate Bayesian Computation 9.45
aquaporins    6A.05
Arabidopsis        1.13, 2A.78, 5B.01, 7.40
Arabidopsis thaliana    1.12, 2A.04, 2A.51, 2B.06, 2C.12, 5B.02, 5B.03, 6A.45, 7.14, 7.34, 7.38, 7.41
arbuscular mycorrhiza 7.05
arbuscular mycorrhizal symbiosis 2C.03
ARDRA  7.27
arsenic   2C.13
Artemisia 5C.05
Artemisia annua  6A.47
Artemisia umbelliformis 5C.09
artemisinin 5C.05, 6A.47
artichoke  1.06, 2A.43
artificial inoculation  7.07
Arundo donax  5C.07
ascorbate peroxidase 8.26
ascorbic acid 8.27, 8.34
ascorbic acid degradation 8.07
asparaginyl peptidase  2A.82
Asplenium nidus  2A.15
association analysis  6A.19
association mapping 2A.79, 6A.12, 6A.16, 6A.28
association study 3A.20
Asteraceae 9.10
ATP synthesis  2C.05
authentication  9.20
autophagy  9.50
autoregulation of nodulation 7.37
auxin   6A.24, 9.32
auxin biosynthesis  6A.26
axillary meristem 2A.19


B
 
BAC probes  2A.65
Bacillus subtilis  5C.13
bacterial endophytes   7.27
barcode 3A.23
barcoding   2A.73, 9.13
barley 7.15, 9.01, 9.04
base composition  9.52
bean resistance  7.30
bean weevils 7.30
berry color   2A.12
beta-carotene 8.09
bHLH  2A.37
big bud mite  3A.06
BILs  2A.53
bioactive compounds  8.23
biochemical and transcriptional analysis  2A.35
biocontrol agent 2A.52
biodiesel  6A.46
biodiversity 9.46
biodiversity conservation 9.16
bioethanol  5C.11
biofuel    5C.03, 5C.04, 5C.10
bioinformatics 2A.49, 2A.86, 4.15, 7.07
biological activity   5C.08
biomass  5C.07, 5C.12, 6A.37
biopharmaceuticals  5C.14
bioremediation  5C.02
biosynthetic genes 9.22
biotechnological manipulation  4.01
biotic stress 7.41, 6A.37
biotic stress tolerance 2A.52, 7.28
biotype 3A.17
Blast2GO   2A.31
blind analysis         8.29
Bos primigenius   9.51
Botrytis cinerea 7.34
bovine 2A.13
bovine mitochondrial DNA 9.51
Brachypodium distachyon 2A.17
Brassica oleracea   1.10
Brassica rapa L. cv. sylvestris  8.25, 8.27
bread-making quality  7.32
breeding 3A.20, 8.28, 9.15
BTH  7.39
bud set 6A.39
bud sprouting 3A.05


C
 
cadmium 2B.06
cadmium treatment   2B.09
calcium  9.33
calcium homeostasis 2C.02
Camelus dromedarius  2A.62
cAMP-sponge  4.07
candidate genes  2A.10, 2A.50, 6A.03
carbohydrates 3A.02, 5C.04
carotenoid  2B.11, 4.03, 8.13
carotenoid bleaching  3A.11
carotenoid pathway 2A.28, 8.06
carotenoid pigments   6A.17
Castanea sativa     3A.07
cattle   9.46
CCCH zinc finger domain 2A.78
CDKN2A 6B.06
cDNA microarray  7.11
cell adhesion morphogenesis 6B.02
cell cultures 5C.05, 8.24
cell cycle  5A.03, 9.53
cell cycle regulation 7.06
cell division  5A.04
cell expansion  2A.19
cell migration  2A.08
cell proliferation 2A.08
cell wall   2A.19, 7.20, 9.32
cell wall degrading enzymes 5C.03, 7.09
cellular redox state  7.06
cellulase 5C.11, 5C.13
cellulose 5C.13
cellwall reinforcement 7.22
Centaurea  9.41
centromere 1.04
centromeric sequences 2A.46
Cetartiodactyla  2A.60
cGMP 7.41
changing phase 3A.03
chemotipes 5C.08
chestnut 3A.07
chilling units  3A.05
chimeric photoreceptors 2A.66
ChIP-seq 2A.30
chitosan  7.33
Chlamydomonas reinhardtii  2B.11
chlorogenic acid  8.31
chlorophyll fluorescence  3A.12
chloroplast    2A.27, 2B.04, 2B.08, 2C.04, 7.35, 9.36
chloroplast DNA analysis 9.21
Chondrilla  1.02, 5A.04, 6B.01, 9.14
chromatin remodelling  1.14
chromosomal rearrangements 2A.80
chromosome   9.54
chromosome 5A  2A.83
chromosome aberrations 5A.05, 9.53
chromosome abnormality 9.46
chromosome engineering  6A.20, 6A.21
chromosome evolution 2A.65
chromosome pairing 9.28
chromosome segregation 5A.04, 9.55
Chrysanthemum cinerariaefolium L. 9.10
Chrysolina herbacea  7.26
Cichorium 9.14
Cichorium intybus L.  6A.04
circadian clock   2A.59
Citrus  3A.08, 7.29
Citrus rootstock  3A.04
Citrus sinensis  6A.34
Claviceps purpurea 7.21
clearfield rice    9.07
CM proteins nitrogen fertilization 8.12
cognitive decline  9.48
colchicine 9.11
cold shock domain protein  2A.08
cold storage  8.23
cold stress  3A.12, 9.36
cold treatment  6A.38
CombiMatrix Array  3A.04
common bean  8.04, 9.27
common fragile sites    6B.08
complex N-glycans  2B.05
component resolved diagnosis  8.16
computational pipeline  4.05
consensus map  2A.80
conservation genetics   9.41
conservation measure  8.08
control analysis    4.01
crop evolution  9.17, 9.29
crop productivity 6A.04
crop residue 5C.03
crop safety   2C.13
cry gene 2A.45
cryptic variation  2A.56
crystal-Stellate 2A.56
CTV  7.29
C-type LMW-GS   2A.77
Culex quinquefasciatus 2A.64
cultivated cardoon 5C.12
cyanophicin 5C.01
cybrid cell lines   1.05
cyclodextrins 5C.05
Cycloidea-like genes 2A.41
Cynara cardunculus 2A.43, 8.21, 9.12
cysteine  9.38
cytochrome c  6B.04
cytochrome P450  7.25
cytogenetic map 2A.02, 2A.75
cytokine genes   6B.05
cytokinesis 9.54
cytokinin signalling 7.01
cytokinin-auxin crosstalk  9.30
cytokinins 7.42
cytoplasmic DNA 2A.85
cytosine methylation   1.03
CzcCBA transporter  4.10


D
 
Damage-associated molecular patterns (DAMPs) 7.36
DArT markers  6A.13, 6A.16
Daucus carota 7.05
de novo assembly 2A.36
debranching enzymes 5B.01
deep sequencing 1.06
defence genes  7.11, 7.18, 9.33
defence proteins 7.30
defence response 7.19, 7.34
deficiens 6A.31
Dendrobium 9.09, 9.11
Dermatophagoides pteronyssinus  5C.15
desaturases  3A.16
detoxification 6A.34
development  6A.24
DGAT    5C.06
Diabrotica virgifera virgifera 7.31
dicaffeoylquinic acids 8.03
DICER-LIKE 4 2A.09
differential gene expression  2A.05, 3A.04
disease 8.01
disease resistance 7.24
DNA barcoding   9.21
DNA extraction  8.20
DNA methylation 1.08, 1.11
DNA methyltransferase genes  9.24
DNA polymerase gamma pathological mutation 6B.10
DNA polymerase zeta 6B.10
DNA repair    6A.44
DNA repair foci 9.53
DNA-methylation  1.09
domain    2A.54
domestication 5A.02, 9.12, 9.17, 9.51
downy mildew 2A.40
DREB genes 2A.81
Drosophila  5A.04, 5A.05, 9.54, 9.55
Drosophila melanogaster 2A.56
drought                     2A.72, 6A.05, 6A.27, 6A.30
drought stress 6A.08
drought tolerance 6A.01
Duplex PCR 8.33
durum wheat  2A.01, 2A.75, 2A.77, 2A.78, 2A.79, 2A.80, 2A.81, 6A.07, 6A.10, 6A.14, 6A.15, 6A.18, 8.12, 8.13, 9.01, 9.08
durum wheat (Triticum durum Desf.) 6A.12, 6A.13
durum wheat mitochondria 2C.05
 

E
 
E7 protein 9.31
early nodulin 7.08
ecology 4.06, 4.13
EcoTILLING  3A.15
ectodermal dysplasia 6B.02
ectomycorrhizae  9.39
ectopic expression 2A.21
eggplant 6A.33, 7.17
elicitors  7.34
elongation 4.04
EMS 6A.17
endangered breed 9.46
endemic species  9.41
endo-1,4-beta-glucanase 5C.13, 7.09
endoplasmic reticulum 2B.07
endoreduplication 6A.26
endosperm            6A.26
endosperm mutant   4.12, 4.15
energy crop  5C.07, 5C.12
Enhancer Tetraplex 3D conformation 2A.03
ent-kaurenoic acid oxidase 6A.36
environmental associations  2A.10
environmental changes 9.41
environmental security      3A.07
environmental stress 1.08, 2C.05
epigenetic  1.02, 1.07, 1.13, 1.14, 6B.01, 8.18, 9.24
epigenetic marks 1.08
epigenetic regulation  1.04
epiphilly  2A.31
epistasis 6B.05
epithelial development and differentiation   6B.03
er1 resistance  7.04
ERF (Ethylene-Responsive Factor)   6A.45
EST-SSRs  2A.55
ethylene  7.25
European aurochsen  9.51
evergrowing 3A.05
evolution  2A.02, 2A.71, 4.05, 4.06, 4.13
evolutionary synthesis 3C.03
expansin  2A.19
experimental mutagenesis 7.04
expression analysis  2A.72
expression-QTL mapping 2A.72
 

F
 
F1 hybrids   6A.04
fAFLP   9.08
fatty acid      3A.16
fertility    5A.03
FHB resistance  6A.21
filbert tree   3A.06
fine mapping   6A.14
fingerprinting 9.08
FISH 2A.02, 9.02
flavonoids   2A.35, 2A.37, 3A.19
floral meristem  2A.30
floral symmetry   2A.41
floral transition    2A.30, 9.03
flow cytometry  9.02
flow cytometry and sorting 9.11
flower development  2A.57
flowering  1.14, 4.04
flowering regulome  3A.03
flowering time 1.03
flower-organ identity genes  3A.24
fluorescence resonance energy transfer (FRET)-based indicator  2C.02
folding  2B.08
food   8.01
food allergens 8.15
food allergy   8.16
food genomics   8.20
food labelling   8.15
food preferences 3B.03
FORL  7.25
fructan   8.01
fruit development  3A.05
fruit quality  3A.20, 6A.48
fruit set  6A.43
fruit tree breeding   3A.06
FTIR spectroscopy   5C.04
functional food   3A.11, 8.18
functional genomics   2A.04, 2A.25
functional markers    6A.19
fungal and bacterial pathogens    7.02
fungal disease  4.13
fungal inoculation    7.17
fungal proteins   7.11
Fusarium ear rot      7.24
Fusarium oxysporum  7.17
Fusarium verticillioides 7.07



G

 
G6PDH 6A.42
GAD65   5C.17
GAD65mut   5C.16
GAPC 2B.06
gas exchange 2C.06
gene  2A.02, 4.05, 6B.01
gene cluster 2A.54
gene expression  2A.27, 4.06, 5C.05, 8.26
gene expression analysis 6A.29
gene expression profiling  2A.36
gene family  3A.21
gene flow 2A.55, 9.07
Gene Ontology classes 7.12
gene promoter 9.05, 9.52
gene pyramiding  6A.18
gene silencing  1.15
genetic traceability  3A.18
genetic transformation  3A.10
genetic variability    3A.07
genetic variability analysis  9.27
genetic variation  9.18
genetics of taste 3B.03
genetically encoded Ca2+ specific probes 2C.02
Geneticists’ Manifesto  3B.01
genome  2A.60
genome annotation 2A.07
genome assembly  2A.48
genome evolution 2A.38
genome organization  2A.43
genome sequencing 2A.07, 2A.44
genome stability  9.55
genome walking  2A.32
genome-wide association 6A.27
genomic instability 6B.08
Genomic interspecies survey 2A.03
genomic organization  2A.60
genomics   6A.27
genotype fingerprinting 5C.09
genotyping   2A.69
germin like protein   8.07
germination     1.09, 2A.78, 8.22
germplasm    2A.42, 3A.23, 6A.46
germplasm conservation  9.18
GH3 enzymes  3A.22
gibberellic acid 6A.43
gibberellin 6A.43
gibberellin biosynthesis  6A.36
gibberellins response 5B.02
global DNA methylation 1.05
Globosa 6A.31
glucose   5A.05
glucosinolate 7.25
glutamine sinthetase 2C.15
glutaredoxin 9.38
glutathione 8.25
glutathione S-transferase 2A.26, 8.03
glutathione transferase  6A.34
glutathionylation 9.38
gluten proteins   2B.03
glycine rich-protein 3 7.36
glycoalkaloids   8.31
grain protein content   6A.10
grain yield     6A.14
grape     2A.12, 2A.37, 3A.02, 3A.19
grapevine 2A.38, 3A.10
green coffee 8.22
green microalgae 5C.02
green tissues 8.23
growth   1.09
guard cell  5B.03, 4.14
GUS  4.14
gut microbial flora 7.26
GxE interaction  9.23
GxS interaction 6A.39


H 		 
H+-ATPase  2C.12
hand grip 9.47
haplotype 2A.12
haplotype analysis  7.15
haplotype diversity  2A.07
HD-Zip  2A.51
heat dissipation  1.15
heat stress 2A.72, 6A.30
heavy metal   6A.35, 4.10
Helianthus annuus 6A.03, 2A.41
Helianthus spp.    9.13
heme lyase 6B.04
herbicide tolerance   9.07
hereditary disease 6B.03
heterosis 6A.25, 9.26
High Resolution Melting 2A.81, 3A.16
high-amylose 8.10
High-Molecular-Weight Glutenin Subunit    2B.03
histone acetylation 1.07, 1.12, 9.55
histone variants 5A.04
history of genetics 3C.03
HIV infection 6B.07
holocentric chromosomes 2A.63
homogalacturonan   7.20
Hordeum vulgare 6A.22
hordoindolines 9.04
hormonal crosstalk 7.01
hormones  3A.22
Horse mitochondrial genome 5A.02
horticultural traits  6A.33
host genetic factors   6B.07
HPV vaccination   9.31
HRM  8.33, 9.01
HSP 18.2 promoter  6A.30
human demography  3B.02
human genome  2A.65
hydroperoxide stereochemistry  8.13
hydroponic colture  5C.11
hydroxylase3 8.09
hydroxyphenylpyruvate reductase (HPPR) gene  8.24
Hypersensitive Response (HR) 7.35, 7.38, 7.40
hypogeous organism 2A.66


I		  
Illumina assay  6A.11
Illumina GoldenGate assay 2A.69
immune response  4.13
immunity    7.36
immuno-markers 6B.07
immunotherapy  8.16
in situ hybridization  2A.65
in vitro propagation   2A.18
inbred lines  8.09
indel  2A.49
inflorescence                     6A.43
intellectual disability 6B.01
intercropping  6A.46
international scientific cooperation   3C.01
inter-organelle connections   2B.04
interphase nuclei   2A.65
interspecific hybrid verification    9.13
intraindividual chromosomal instability  2A.63
introgression lines 3A.01, 4.11, 5C.10
intron loss  2A.28
ionic effect   2C.07, 2C.14
ionome  4.11
ions 8.17
IQ debate  3B.01
Iranian population 9.56
iron chlorosis  3A.04
ISSR 2A.42
Italian rice cultivars 7.39
ITS 9.13
ITS sequencing  9.39
 

J		  
Jatropha curcas 5C.06
Jerusalem artichoke 6A.37, 6A.38
juvanility 3A.03


K		  
K. x houghtonii   2A.31
K+ channel   2C.05
KEGG pathways  7.12
kernel proteome 2A.83
kernel texture   9.04
kinase-associated protein phosphatase 7.36
kinetochore  1.04


L		  
laccase 5C.02
lacking haemolytic activity (LHA)  2A.24
Lactuca    9.14
lamb’s lettuce  8.23
lamins   2A.11
LAR      2A.20
larval development 7.31
laser capture microdissection 3A.08
Laser Micro Dissection (LMD)  6A.05
lateral roots  7.01
LC-ESI-QTOF-MS/MS  2A.21
leaf development 2A.25, 2A.51
leaf hydraulic conductance 2C.06
leaf rust 2A.17, 7.16
Leaf rust (Puccinia triticina Eriks.) 6A.12
leaf stripe 7.15
Lesion Mimic Mutant (LMM)  7.35
light and temperature changes 8.02
light harvesting protein  2A.32
light responses  2A.66
light stress   2A.67
linkage disequilibrium  2A.79, 9.29
linkage map   2A.17
linkage mapping     6A.11
lipase    8.22
lipid  5C.04, 8.22
lipoxygenases  8.13
LMW-GS    2A.82
local genotypes  9.42
longevity   8.01, 9.47, 9.49
Lotus corniculatus  2A.20
Lotus japonicus   9.22
low and high amylose 5B.04
low input 9.15
low phytic acid   8.04
LOX   6A.09
lpa280-10 mutant  8.19
Lr14  6A.12
LTR retrotransposons 2A.64
LTR_STRUC  2A.64
lutein  8.13
lycopene  8.06
Lycopersicon esculentum genome 2A.54
lysosomal enzyme  5C.14


M		  
M. truncatula  2A.25
MADS-box sequences  3A.24
Magnaporthe oryzae 7.23
maize 2A.09, 8.17, 8.18
major QTL  6A.14
malate  3A.02
male sterile mutants  6A.04
male sterility  6A.31
Malus domestica  3A.11
Malus x domestica    3A.20, 3A.21
mannosidase     5C.14
mannosidosis  5C.14
MAP kinases     7.34
MAPK      7.40, 9.33
Maremmano breed  2A.61
Marker Assisted Selection 6A.01, 6A.18, 7.04, 8.33
mass spectrometry   7.37, 8.12, 9.35, 9.36
MAT1A gene  1.05
mating type  2A.23
maturation process  2A.82
Medicago sativa 9.03, 9.23
Medicago truncatula 2A.24, 2A.26, 6A.44, 7.01, 7.05, 7.08, 7.42
Mediterranean pines 2A.10
meiosis  5A.03, 9.54
melanoma   6B.06
membrane potential 2C.05
membrane proteins 2B.05
Mentha aquatica 7.26
Mentha species and hybrids 2A.16
mesophyll cells  9.09
metabolic flux  8.07
metabolic modelling  4.01
metabolic pathways 9.49
metabolism  2A.58, 8.25
metabolite profiling  3A.13
metabolomics   4.03, 7.39
metagenomic    5C.13
metallothionein     6A.35
metals    2C.04
metals accumulation   4.11
methyl jasmonate 6A.45
methylation   1.10
methyltransferase     3A.09
microarray  2A.01, 2A.59, 2A.84, 3A.08, 9.43
microarray analysis 4.12, 4.15, 7.07, 7.17
microarrays 2A.33
microRNA  1.06, 4.08
microsatellite markers   7.30
microsatellites 2A.75, 9.40, 9.41
microsporogenesis    1.12
microtubers    6A.38
mineral nutrients  2C.09
mineral nutrition 2C.03
miRNAs  6B.07, 7.03
miRNome   2A.70
mistletoe 2C.09
mitochondria 2B.04, 4.09, 5A.01, 6B.04, 6B.09
mitochondrial disease   6B.04, 6B.09
mitochondrial DNA   9.45
mitochondrial genome 2A.61
mitochondrion  2A.29
Mixed Linear Model  6A.28
mlo resistance  7.04
Moco   2A.68
molecular cytogenetics 9.14
molecular explanation 3C.03
molecular fingerprinting 2A.16
molecular markers 2A.14, 2A.18, 2A.85, 2A.86, 6A.10, 6A.37, 7.24, 9.20
Monilophytes 2A.15
monocotyledons  7.23
monoterpenoids  7.26
morphological traits   8.08
morphotype  4.06
mouse gametogenesis 6B.08
MPV17/SYM1 5A.01
MRP transporter 8.04
M-SAP 1.09
M-SAP technique  1.10
mtDNA   5A.01
mtDNA haplogroups    5A.02
mtDNA instability  5A.01
mtDNA variability  1.05
MtN5  7.08
multi-elements   9.20
multigene family  2A.32
multilocation trials   9.23
multilocus longevity 9.49
Multiplex Real-Time PCR 8.15
mutant   6A.36
mutation   3A.16
MYB   6A.32
Myrtus communis  5C.08


N		  
N metabolism 2C.10, 2C.11
NAD(P)H oxidase 9.34
NAD+-dependent deacetylases  2A.39
NADH-GOGAT  2A.76
natural range  9.44
natural variation 3A.15
near isogenic lines 6A.25
nectin   6B.02
network  6B.01
network analysis 4.03
Neurospora transformants 2A.66
neutrality tests  2A.10
Next Generation Sequencing (NGS) 2A.12, 2A.36, 2A.44, 2A.47, 2A.49, 2A.59, 3A.01, 6A.11, 6A.15
Next-Generation Sequencing technologies 2A.48
N-glycoproteome 2B.05
NGS sequencing 2A.43
Nicotiana benthamiana  3A.10, 5C.17
Nicotiana tabacum  2A.21, 2B.08, 5C.11, 5C.14, 5C.16, 9.03, 9.37
nitrate reductase 2C.15
nitric oxide   7.38, 7.41, 9.33, 9.48
nitrogen fixing nodules  7.01
nitrogen metabolism   2C.15
nodal explants  6A.38
normalized library  2A.59
NOS-1   9.48
nuclear DNA 2A.85
nuclear transformation 2B.11
nucleotide diversity  9.17, 9.29
nutraceutical    8.24
nutritional stress response 9.50
nutritional value 8.28


O		  
OeSLG and OeSCR  3A.25
OeSRK 3A.25
Oidium neolycopersici  7.13
oil DNA 9.21
Olea europaea 3A.12, 3A.15, 3A.16, 3A.23, 3A.24, 3A.25
oleanolic acid 2A.24
oligogalacturonides 7.14
olive oil   8.20
omega 3 fatty acid desaturase 3A.15
Opaque-2  4.12
Opaque-6  4.15
Opaque-7  4.12
OPPP  6A.42
Orchidaceae  2A.57
organelle fission  2B.04
organic agriculture 9.15
organic farming 9.23
origin of Equus caballus 5A.02
Oryza sativa  6A.28
osmotic stress 6A.44
oxalate oxidase 8.07
oxidation 9.38
oxidative stress  2B.06, 2C.04, 6A.40, 7.33
ozone  9.33, 9.34
ozone-responsive genes  9.43
 

P		  
p53 family   2A.58
P5C  6A.41
P63  2A.08, 6B.03
paleopolyploidy  2A.38
paralogs  2A.06
pathogenesis  7.03
pathogenicity   7.09
PCA  4.11
PCR 8.09
PCR-based markers  2A.53
PCR-RFLP  2A.16
PDR gene family  3A.14
peach  7.03
pectic enzymes 7.10
pectin 7.02
pectin methyl esterase inhibitor   7.22
pectin methylesterase   7.02
peeled tomato  8.29
PEP carboxykinase 3A.02
peroxidases   8.27
peroxisomes   2B.04
peroxynitrite 7.40
Petunia 2A.37
Petunia hybrida 2A.19, 3A.09
PFF    2A.77
PGIP  7.18, 7.21
pH   9.19
pharmaceuticals 8.03
phaseolin 2B.08
Phaseolus vulgaris  7.30, 9.17, 9.29
phenolic biodiversity 8.14
phenolics   8.32
phenological stages  8.31
phenology  3A.05
phenotypic plasticity 2A.05, 6A.39
pheromones 2A.23
phloem structure 2C.09
phosphate uptake 2C.03
phospholipase A2  6A.08
photo-oxidative damage 6A.44
photoprotection  1.15
photoreceptors    2A.27
photosynthesis 2C.04
Photosystem II core complex  9.37
phylogenesis   4.05
phylogenetic analysis 2A.61
phylogensis  9.52
physic nut   6A.46
phytic acid    8.17, 8.19
phytochrome  4.04
phytoene synthase 2B.11
phytopatogenic fungi 7.10
Phytoptus avellanae (Nalepa) 3A.06
phytoremediation   2A.50, 2B.09, 4.10
PI3K signaling  2A.08
pig   9.46
pigmented wheat  8.14
pigments      8.02
PIN auxin efflux carriers  6A.24
Pinus sylvestris  9.44
piRNAs pathways    2A.56
plant adaptation   2A.32
plant architecture  2A.04
plant branching   9.22
plant breeding   6A.18
plant cell cultures 5C.06
plant cell wall   7.10, 7.14
plant defence 7.14
plant development  2A.09
plant disease  7.22
plant genetic resources  9.16
plant growth  5B.02
plant miRNAs  2A.33
plant mitochondria            2A.15, 2C.02
plant proteomics    2B.09
plant resistance 7.02
plant signaling  7.41
plant-insect interactions  2A.84
plant-microbe interactions   7.05
plants  9.37
plasma membrane 9.32
plastics 5C.01
Plastidic glucose-6-phosphate dehydrogenase 6A.42
plastids differentiation   1.15
Platanus acerifolia 7.11
PLMVd  7.03
PMEI  7.18
PMF  2A.77
Polar Auxin Transport  6A.24
pollen 4.14, 9.34
polyamine oxidase 4.14
Polygalacturonase  7.20, 7.21
Polygalacturonase inhibitor protein  7.22
polyhydroxyalkanoate 5C.01
polymers 5C.01
polymorphism 8.11
polyphenol oxidase activity 6A.19
polyphenols  8.34
polyploidization 9.11, 9.24
polyploydy 9.28
polysomal profiling      6B.06
poplar  2A.47, 2B.09
poplar clones 9.43
population genetics   2A.22, 3C.01, 9.44
population structure   2A.79
population studies 3B.03
Populus deltoides  2A.46
Populus nigra   2A.46, 2A.48, 6A.39
Populus trichocarpa  2A.46, 2A.48, 6A.42
positional cloning 6A.22
postharvest storage 8.27
potassium channel 2B.10
potato   2A.85
potato virus X  5C.15
powdery mildew 2A.01
PP2A 9.53
PR-10 3A.21
prebiotics  8.01
proanthocyanidin  2A.21, 2A.20
programmed cell death  7.06, 7.33
programmed cell death under biotic stress conditions  6A.41
proline    6A.40
proline dehydrogenase/proline oxidase  2A.58
proline metabolism  6A.41
propagation 6A.46
protein bodies    2B.07
protein folding 9.05
protein modeling 2A.62
protein stability  2B.08
protein turnover 2B.10
protein-protein interactions 2C.12, 5B.01
proteins 8.17
proteomic    2A.82, 2A.83, 7.29, 8.05, 8.10, 9.35
protoplast    9.09, 9.10
Prunus persica 2A.49, 3A.01, 3A.03, 3A.11, 3A.13
Prunus/Anemone rust  7.12
Przewalskii horse 5A.02
Pseudomonas putida 4.10
Pseudomonas syringae pv. tomato (Pst)  8.33
Pseudoplatanus  7.33
Pseudotomentella 9.39
Psy gene family   2A.28
PTGS 3A.10
purification 5C.16
Pyrenochaeta lycopersici  7.09
pyrosequencing 2A.31


Q
 
qPCR  3A.21, 6A.26
QTL  2A.17, 2A.53, 5C.12, 6A.20, 6A.25, 6A.33, 6A.39
QTL analysis  2A.35, 6A.23, 7.16
QTL cloning 6A.14
QTL mapping                   6A.01, 6A.13
quantitative resistance 2A.17
Quercus frainetto 2A.55
Quercus petraea  2A.55
Quercus pubescens 2A.55


R
 
R/FR    4.04
r1 gene 6A.23
R2R3 MYB  2A.40
racial science 3B.01
radiobiology 3C.01
ragweed   9.34
Random Forest      6A.28
RAPD 9.08
Reactive Oxygen Species (ROS)  7.13, 7.39, 7.35
Real Time RT-PCR   2A.45, 2A.57
recombinant allergens 8.16
Recombinant Inbred Line 6A.07, 6A.09
red rice  9.07
redox     5B.03, 9.32
redox sensor 9.38
regulation  2A.29
regulatory design   4.01
regulatory networks 4.08
Regulatory Region   2A.03
repeated sequences 2A.44, 2A.47
replication 2A.11
reproduction   1.13
reproductive organs 2A.41
rescue of mtDNA mutability 6B.10
resistance gene  1.11, 2A.38, 7.15, 7.16
resistance to mites 3A.06
responsive elements 2A.58
Restriction-site Associated DNA (RAD)  6A.33
resveratrol   3A.14
retrotransposons  2A.44, 2A.47, 2A.67
Rev1   6B.10
Rev3 mutagenesis  6B.10
reverse genetic     6A.03, 8.06
reversible glucan phosphorylation 5B.01
RFLP     2A.73
R-genes  7.12
rhizobia  7.08
rhizosecretion   5C.11
rhododendron    9.19
Ribosome Inactivating Proteins  9.31
rice  6A.27, 7.23
rice germplasm    6A.40
ripening  4.03
ripetitive sequences   2A.43
RNAi    2A.20
RNA-seq 2A.13, 3A.12
ROC  2A.34
root damage 7.31
root meristem mainteinance 9.30
root morphology     6A.07
roots   4.14
ROS   1.05, 8.01, 8.25, 9.34
rosaceae 3A.01
rosmarinic acid   8.24
R-protein   2A.54
rRNA genes   9.14
rubber   5C.01


S
 
saccharification   5C.03
Saccharomyces cerevisiae 1.07, 4.09, 6B.09, 9.50
SAGA complex  1.04
Salicaceae 2A.50
salinity 1.09, 6A.30
salt stress   1.06, 2A.67, 2A.78
salt stress tolerance  2A.81, 6A.40
salt tolerance    2C.14
Salvia officinalis 8.24
San Marzano 8.29
saponin  2A.24
saporin  9.31
scab    6A.21
scarecrow  9.30
Scenedesmus sp.     8.02
scientific racism  3B.01
screening  6A.40
secondary metabolites  2A.21
Seed Storage Proteins  2B.03
SEEDSTIK-like gene   2A.57
segregation distortion  2A.80
selection 9.29
self-incompatibility  3A.08, 9.40
semi-quantitative RT-PCR  8.26
sense and antisense RNA 1.14
sensitivity  2A.34
Septoria tritici blotch (STB) 6A.16
sequencing   2A.14
sesquiterpene lactones  8.21
sex chromosome 2A.14
sexual polyploidization 9.28
Sgp-1  8.11
Shannon entropy  9.52
shortened SSR  8.20
Sicilian Helichrysum 9.18
signal transduction   2A.23
signalling      2C.10, 2C.11
signalling pathway    7.35
significantly differentially expressed genes 2A.34
silicon    2C.13
Silk Road 3B.03
Simple Sequence Repeat  2A.42, 6A.09, 9.42
Single Nucleotide Polymorphisms (SNP)  2A.50, 6A.11
Sinorhizobium meliloti     7.37
Sir2    1.07
siRNA    1.11, 7.03
sirtuin                                2A.39
skeletal muscle  2A.13
S-nitrosylation 7.38
SNP     2A.12, 2A.49, 2A.69, 3A.13, 4.06, 6A.25, 6A.28, 9.01, 9.56
sodium bicarbonate 9.19
sodium dodecyl sulfate-polyacrylamide gel electrophoresis    7.32
Solanaceae 1.15
2A.86, 6A.32
Solanum lycopersicum L. 4.11, 6A.29, 6A.31, 8.06, 8.28, 8.30, 8.33
Solanum pennellii introgression lines (ILs)   6A.48, 8.32
Solanum tuberosum  2A.07
somatic mutation  2A.62
specificity  2A.34
spermatogenesis  5A.03
sphingolipid metabolism genes     9.50
Spinacia oleracea  2A.32
sporophytic self-incompatibility  3A.25
sprouting                           6A.38
Sr isotope ratio 9.20
SRT1  2A.39
SRT2     2A.39
SSR   2A.22, 3A.17, 3A.20, 8.08, 8.29, 8.30
SSR markers    6A.16, 8.20, 9.12, 9.26
SSR-microsatellite 9.08
SSRs 6A.13
starch   2A.74, 5B.01, 5B.03, 5B.04, 8.10, 8.11, 8.17
starch branching enzyme 2A.74
starch metabolism  5B.02
stem cell niche 9.30
sterile spikelets  6A.15
stilbene synthases  2A.40
stomata opening   5B.03
storage 8.22
strategy development  9.16
stress conditions  9.22
stress response 2C.11, 3A.14, 6A.27
strigolactones   9.22
STRs 9.56
substrate range

 

 3A.11
succinate dehydrogenase 6B.09
sugar metabolism  5C.10
sulfate assimilation    9.06
sulfur metabolism 9.06
Sunn pest  7.32
supply-demand analysis 4.01
SVP 2A.30
SYBR Green  8.15
symbiosis 2C.10, 7.08, 7.28
symbiotic nodule formation 7.42
synonymies and homonymies 9.42
synteny   2A.28, 2A.71, 6A.15, 6A.12
systemin  2A.84
Systems Biology 4.13


T
 
T1D   5C.17
T1DM  5C.16
TAIL-PCR   9.25
Ta-siRNAs  2A.09
T-cell receptor         2A.60
T-DNA  9.25
tellurite   4.09
telomerase 2A.63
telomere 2A.11, 2A.63
TERMINAL FLOWER1 gene 9.03
thiols  8.25
thousand kernel weight  6A.15
tiling array  2A.27
tillering  6A.22
TILLING 6A.01, 6A.17, 9.01
tobacco 5C.02
tobacco BY-2 cells 4.07
tocopherols 8.27
tomato 2A.27, 2C.13, 2C.14, 3A.02, 4.03, 5C.10, 6A.31, 7.28, 8.30
tomato fruit quality 8.32
tomato plants 7.13
tomato proline transporter (LeProT1)  6A.30
tomato wild species 2A.53
Tomentella 9.39
tonoplast biogenesis 2B.05
totipotent cDNA 2A.01
traceability 8.29, 9.20
transcription factor 2A.04, 2A.06, 2A.25, 2A.37, 4.08, 6A.32, 7.39, 7.42
transcriptome  2A.05, 2A.36, 3A.13, 9.43
transcriptomics 2B.07, 8.32
transformation 3A.19, 5C.06
transgene copy number 2A.45
transgenic plant  6A.34, 7.18, 7.19
transgenic poplar 2A.45, 6A.35
transgenic wheat  8.05, 8.10
transient expression 5C.17
translation efficiency 6B.06
transmission electronic microscopy  4.09
transport  2C.10
transposable elements 1.02
transposon  2A.41, 2A.56
TRAP molecular markers 9.27
treatment 8.23
TRG and TRD loci  2A.62
TRG locus 2A.60
Trichoderma-plant interaction 2A.52
tristeza 1.11
TriticeaeGenome 6A.22
Triticum   9.05, 9.06
Triticum aestivum     2B.03, 6A.21, 7.32, 9.02
Triticum durum 2A.67, 2A.72, 2B.03, 6A.21, 7.16, 8.08
Triticum durum Desf.   6A.08, 6A.11, 6A.16
truffle 2A.22, 2A.23, 9.35
tuber 2A.22, 2A.23
Tuber aestivum  9.39
tuber biology   2A.07
two-dimensional electrophoresis   9.35, 9.36
two-dimensional gel electrophoresis  7.37
two-dimensional liquid chromatography 2B.09
TYLCSV     7.28
tyrosine nitration 7.40


U
 
ultrastructure 8.02
uncoupling proteins    9.47
UNESCO Statements on Race 3B.01
unfolded protein response  2B.07
Uniculme4     6A.22
urea 2C.15


V
 
vacuole biogenesis 2B.10
varietal characterization 3A.07
vein density     2C.06
vessel grouping       2C.07
Vicia faba 9.23
Vicia sativa  9.23
VIGS 8.03, 8.06
virus resistance 3A.10
Vitamin B6 5A.05
vitamin C 8.07
Vitis    3A.18
Vitis vinifera 2A.05, 2A.33, 2A.34, 2A.35, 2A.38, 2A.39, 3A.09, 3A.14, 3A.22, 6A.43
Vitis vinifera (“Prosecco”) 7.27
Vitis vinifera cv. Corvina 2A.36
Vitis vinifera L. 6A.05, 9.42
viviparous 2A.68
VOCs analysis 7.26
VvMYB5a 3A.19
VvMYB5b 3A.19


W
 
wall associated kinase 1    7.36
water availability 2C.06, 2C.07
water deficit 6A.29
water deficit tolerance   6A.48
western blot 7.32
wheat  2A.28, 2A.69, 2A.70, 2A.71, 2A.74, 2A.76, 2A.82, 2A.83, 5B.04, 6A.17, 6A.20, 7.18, 7.19, 7.21, 8.11
wheat allergy 8.05
wheat collection 6A.19
wheat development 7.20
wheat kernel proteins  8.05
wheat quality 9.05, 9.06
white poplar 6A.35
Whole Genome Duplication (WGD) 2A.06
whole- genome sequence 3B.02
wild potato species  2A.86
wounding stress 6A.45
WRKY genes 7.23


X
 
X-chromosome 2A.02
xylanase inhibitor protein 7.19
xylanases  7.19
xylanases inhibitor   7.22


Y
Y-chromosome 9.56
yeast model   5A.01, 6B.04, 6B.09
yeast strains  4.05
yield  6A.13, 6A.20


Z
 
Zea mays L. 1.02, 1.03, 1.08, 1.14, 2A.73, 2C.15, 4.12, 4.15, 6A.23, 6A.24, 6A.26, 7.07, 7.24, 7.31, 8.09, 8.16
zein 2A.73, 2B.07