Congressi SIGA

IL SIGA Annual Congress

Potenza, 12-15 September 2005

Keywords Index

2 g mixograph	4.03
(poly)phenolic compounds	D.24
alpha-tocopherol	A.03

A
ABC transporter	D.54
abiotic stress	5.14
abortion	F.28
abscission	E.17
access to market	H.09
ACP	C.47
actin	C.47
Actinidia deliciosa	E.01
actinomorphic flowers	C.36
activation tagging	B.14
acyltransferase isolation	F.22
adaptation	C.63
adaptive traits	C.08
additive main effects and multiplicative interactions (AMMI) analysis	D.01
ADH1 gene	2.09
AFLP	B.34 , C.25 , C.33 , C.40 , E.12 , G.04
AFLP analysis	H.05
AFLP fingerprinting	F.17
AFLP markers	C.38 , C.49 , C.73
AFLP-TP	B.30 , D.48
Aglianico del Vulture	C.41
Agrobacterium rhizogenes	G.02
Agrobacterium tumefaciens	E.02
Agroinfiltration	A.06
aintegumenta	C.35
air pollution	D.05
alfa-alfa	C.35 , D.18 , 5.12
allele frequencies	C.71
allelic expression	C.19
allilyc alcohol tolerance	2.09
almond	D.34
amino acid	5.14
aminotransferase	5.14
amyloidosis	A.08
amyloplasts	5.15
amylose	F.04
ancient grape germplasm	C.41
androgenesis	E.05
aneuplod	C.24
annotation	5.02
annual medics	B.38
antagonistic fungi	D.42
anthers	E.04
anthocyanin	4.05 , D.22
anthocyanin metabolism	C.42
antibiotics	D.28
anticance	E.06
anticholesterolemic effect	B.08
antifungal activity	B.08
antigens	A.04
antinutritional compounds	F.10
antioxidant gene	D.23
antioxidants	B.32 , E.02 , F.12
Antonovka	E.19
antropic stress	D.07
APA locus	B.13
apolipoprotein	A.08
apomixis	B.15
apple	E.16
apple breeding	E.20
apricot	E.15
APX	D.23
aquaporins	D.21
Arabidopsis	B.05 , D.52
Arabidopsis thaliana	B.01 , B.18 , B.46 , D.08 , D.10
aroma	F.24
arrays	4.09
AsA	F.13
ascorbate	F.12
asexual reproduction	G.03
assay for genetic modification	B.44
association mapping	2.06 , C.04 , C.66 , D.13
association study	C.63
Asteraceae	B.29 , B.35
ateral roots	D.54
ATHB-2	D.08
AtPCS1	L.01
aux1 mutant	B.01
auxin	B.05 , B.18 , D.08 , D.54
avrPto	D.26
Azospirillum	D.43


B
b-32	D.38 , D.39
BAC	B.11
BAC library	2.08 , B.13 , B.34 , B.36
bacteria	D.26 , D.27
bar	H.01
barley	5.04 , C.12 , C.13 , C.14 , D.01 , 5.14
BCA	D.43
berry colour	C.42
berry development	B.33
berry skin	E.03
beta-carotene	F.14 , F.18
beta-galactosidase	1.10
biocontrol	1.03
biocontrol genes	D.33
biocontrol inducers	D.33
biodiversity	C.34 , C.69 , D.44 , G.01 , G.04
bioindicator	D.07 , D.14
bioinformatics	C.53
biopesticides	D.28
bioremediation	L.03
biosafety	5.01
biosynthetic genes	A.03
biotechnology	5.01 , H.10
Bipolaris sorokiniana	D.46
blue lupine	C.30
bound water	D.20
bovine	C.71
brachytic	C.16
branched-chain	5.14
breba	E.07
breeding	C.30 , C.59 , F.05
breeding strategies	C.57


C
C4-3	B.18
candidate gene	4.02 , 4.10 , B.17 , C.11 , C.12 , C.52
CAPS markers	5.16
carcass and meat quality traits	C.70
carotenoids	4.04 , F.16
case study	H.10
casein	4.06 , C.69
cattle	2.04 , F.27
Cbf	D.15
Cd accumulation	L.01
cDNA microarray	D.19 , E.20
cDNA-AFLP	D.05 , E.03 , E.15
cell cultures	4.09 , D.25
cell cycle	B.02
cellulose	B.48
cerato-ulmin	D.37
Chamelea gallina	5.16
chemical inducers of systemic acquired resistance	D.49
chemical mutagenesis	B.42
chemical thinners	E.17
Chicorium intybus	H.08
chlorogenic acid	4.07
chloroplast	5.02 , H.07 , 5.08 , 5.12
chloroplast development	5.04
chromatin	B.24
chromium	L.02
chromosomal localization	B.28
chromosome association	C.50
chromosome fragility	F.28
chromosome identification	C.56
chromosome number	C.23
chrysanthemum spray	D.25
Chs	C.46
cis-variation	C.19
Citrus	C.50
Citrus sinensis L.	4.05
Citrus spp	E.01
Citrus rootstock	2.03
class I knotted-like gene	E.11
class II knotted-like gene	E.10
clean gene	H.01
clonal identification	C.65
cluster analysis	4.07 , C.38 , C.73
CMS	F.20 , F.21
cold stress	D.22 , E.22
cold tolerance	D.16
combining ability	F.20
combinino ability	F.21
commercial release	H.09
common bean	C.31 , C.32 , F.10
common wheat	D.40 , F.05
comparative gene expression profiling	B.32
comparison test	C.54
complex traits	6.02
computer technology	2.02
conifers	C.63
conservation	C.67
containment	5.01
conventional farming	F.19
core collection	C.33 , C.38
Cre/loxP	H.14
cross-complementation	B.02
crude protein extracts	B.46
cryptochrome	F.15
cucumber mosaic virus (CMV)	D.29
cucumber mosaic virus satellite RNA	1.09
Cucumis melo L.	C.25
cultivar fingerprint	E.09
cultivar identification	E.12
cultivar protection	C.26
cuticular waxes	D.06
cycloartenol synthase	B.08
Cynara cardunculus	F.22
cypress	C.62
cytochrome b5	A.04
cytogenetics markers	C.56
cytokinesis	C.58
cytomixis	C.50


D
database	C.22
DD-cDNA-AFLP	L.02
ddNTPs	4.06
DDRT-PCR	5.14
decision-making process	H.02
DED	D.37
defence gene	1.02 , D.04 , D.46
dehydration responsive factors	D.09
desaturase	5.03
descriptors	C.40
deseases	C.07
development	B.01 , B.06 , C.12
DH	F.08
Diabetes Mellitus (T1DM)	A.07
differential expression	B.19 , B.30
differentially expressed genes	1.04
dioxin	F.28
Diplodia mutila	D.42
disease resistance	1.09
disease resistance (R) genes	D.36
disulphide bonds	F.02
DNA	5.05 , C.45
DNA and RNA fingerprinting	D.36
DNA expression	F.25
DNA methylation	D.07
DNA polymorphism	C.71
DNA transposon	C.20
DNA-based sensors	H.06
domestication	C.31
domestication syndrome	B.09
dominance	B.22
DON	F.06
double-headed proteinase inhibitors	F.10
drought	C.08 , C.10 , D.12 , D.23
drought tolerance	C.05 , D.10 , D.16 , D.20
DTT	E.02
durable resistance	1.06
durum wheat	B.36 , C.03 , C.05 , C.07 , C.08 , D.09 , D.12 , D.13 , D.17 H.11
durum wheat ( Triticum durum Desf.)	C.04
durum wheat mitochondria	5.17


E
edible plants	G.01
effector proteins	D.27
electric conductivity	D.24
embryogenesis	5.06
emp4	5.07
endogenous gene	H.03 , H.04
endophytic bacteria	D.56
endopolygalacturonase	E.13 , E.14
Endosperm Balance Number (EBN)	C.24
endosperm development	5.07
endosperm mutants	B.45
enhancer	B.43
epigenetic	B.24
epiphyllous bud	G.03
epiphylly	B.12
Erwinia chrysanthemi	D.02
essential oil	D.56
EST	B.31 , C.64 , E.14
ESTree db	C.52 , C.53
EST-SSR	C.01 , C.09
ethical and bioethical aspects	H.10
ethylene	D.54 , E.14 , E.17
everlasting flowers	G.02
evolution	F.27
expansin	B.06
Expressed Sequence Tag (EST)	C.52
expression	E.11
expression analysis	B.26 , B.33


F
Faba bean	C.30
farmer selection	C.03
fat composition	4.08
feed	H.03
fertility	C.50
field testing	H.09
fingerprinting	F.26
FISH	B.47 , C.56 , F.27
flavohemoglobin	D.02
flavonoids accumulation	B.32
floral mutants	C.36
floral symmetry	C.36
flow cytometry	2.11 , C.51 , E.05
flower development	2.07 , B.27
fluorescence in situ hybridization	B.28
Focus groups method	H.02
food allergy	F.23
forest trees	C.61
free water	D.20
frost tolerance	D.15
fruit	E.15
fruit development	E.20 , F.25
fruit quality	D.04 , E.17 , F.23
fruit set	D.19
fruit softening	E.13
function by RNA interference	E.11
function map	C.11
functional complementation	5.14
functional genomics	B.41 , C.53 , D.11
functional map	C.42
Fusarium oxysporum f. sp. melonis	D.44
Fusarium oxysporum f. sp. melongenae	C.28 , C.29
Fusarium spp	D.46
Fusarium verticillioides	D.39
Fusarium wilt	C.25


G
gabaculine	H.07
Gallus gallus	2.05
gametogenesis	B.15
gametophytic factor	B.16 , B.17
GBSS	F.05
GC/MS	F.24
geminivirus	1.06 , D.30
gene expression	B.04 , B.22 , B.24 , D.17 , D.19 , D.22 , D.49 , E.15
gene expression analysis	4.09 , B.45
gene family	C.15
gene flow	2.12 , H.08 , H.15
gene function	B.06 , B.21
gene isolation	4.05 , B.48
gene prediction	B.13
gene silencing	D.32 , F.03
genetic algorithms	6.02
genetic differentiation	C.67 , C.68
genetic diversity	2.03 , 2.06 , C.26 , C.27 , C.32 , C.63 , E.07 , G.01
genetic diversity statistics	C.38
genetic engineering	D.16
genetic map	B.34
genetic polymorphism	C.41
genetic resources	C.17 , C.44
genetic traceability	2.05
genetic transformation	D.38 , E.21
genetic variability	2.04 , C.68
genetic variation	C.57 , G.04
Genetically Modified (GM)	H.13
genome	B.29
genome sequencing	2.11
genomic organisation	E.10 , E.11
genomics	C.61
genotype by environment interaction (GEI)	D.01
geosmithia	D.37
geranylgeranyl reductase	D.04
germplasm	C.27 , C.45 , F.21
globe artichoke	C.39
glossy genes	D.06
glutathione	F.12
gluten proteins	F.07
glutenin	F.03
glutenin subunit	F.02
GM crop	H.15
GMO	H.02 , H.06 , H.09 , H.12
GMO detection	H.04 , H.11
goat	C.69
GOX gene	E.18
Gr receptor	H.05
grain quality	C.07
grain yield	C.02
grape ripening	B.33
grape transformation	E.02
grapevine	4.09 , C.42 , C.43
grapevine virus A	1.07
grape-withering	B.30
growth hormone receptor	C.71
growth stage	D.12
GSA-AT	H.07
GSH	L.01
guard cells activity	D.10
GUS expression	C.15
GUS reporter	B.04


H
H+ATPase	B.04
HAP3 transcription factor	B.39
haploid	C.24 , E.05
haplotypes	F.08
hazelnut	E.06
HCT	F.22
heat shock	D.18
heat stress	D.19
heavy metals	L.03
Helianthus	B.29 , C.37
Helianthus annuus	C.36
Helicoverpa zea	D.51
helitron	C.20
heterosis	B.22 , C.18
heterozygosis	2.04
Hibiscus cannabinus	B.48
high light stress	5.13
histone deacetylases	B.24
HIV	A.04 , A.06 , 5.10
HMW DNA	B.36
homeobox genes	2.07
Hordeum vulgare L.	2.07 , D.41
HPLC	4.07 , E.06
HPV	5.03
HR-melting analysis	C.48
hsp101	D.17
HSP70	D.18
Hsp90	C.18
hulless	F.08
human vaccine	5.10
hybrid vigor	B.22
hydric stress	D.09
hydroperoxide lyase lipidi body	D.34
hydrophobin	D.37
Hypersensitive Response (HR)	D.02 , D.52
hypoallergenic cultivar	F.23


I
IAA	B.37
image analysis	2.02 , C.10
imidazolinone resistance	D.55
immunolocalization	B.02 , E.13
import	5.05
in vitro regeneration	E.21
inbred line	F.20
incorporation	4.03
inflorescence	C.21
inheritance	D.55
innovative characters	C.30
insect protease	D.51
insertion/deletion mutation	2.09
insertion mutant	C.15
insertional mutagenesis	B.43
instable DNA methylation of genic regions	B.25
intra-specific variability	C.37
intra-varietal diversity	C.49
introgression	H.08
introgression lines	B.47
intron	C.65
intron-mediated regulation	2.07
IRAP	C.37
iron metabolism	5.06
isogenic line	D.47
ISSR	2.03 , C.01 , C.28 , C.29
Italian aromatic rice varieties	F.09


J
jasmonic acid	A.03


K
kenaf	B.48
Kentucky bluegrass	B.15 , B.23
K Intron Binding Proteins (KIBPs)	2.07
Knotted1-related Homeobox gene	B.12
KNOX	B.07


L
L1	5.03
labels	H.02
laccase	L.04
Lactuca serriola	H.08
landraces	C.03 , C.17
L-ascorbic acid	F.13
LCGreen^TMI	C.48
LC-QTOF-MS	B.32
leaf protoplasts	F.02
lectin family	B.13
lectins	C.32
legume	B.37
lemon	C.51
Lens culinaris	B.40 , C.34
Lens culinaris Medik	2.02
lentil	C.30
lepidochronology	D.14
Lesion Mimic Mutant (LMM)	D.52
light harvesting complex	5.13
light response	D.06
lignin	B.48
lilium	C.58
line x tester	F.21
linkage disequilibrium (LD)	2.06 , C.04 , C.06 , C.63 , C.66
linkage map	C.07
linkage mapping	E.19
Lipid Transfer Protein	F.23
lipoxygenase	F.11
LMW-GS	F.07
local breeds	2.05
local population	C.34
local varieties	C.43
long-SAGE	D.30 , D.31
low molecular weight glutenin subunits	4.03
LTR-retrotransposon	B.29 , C.37
LUX primer	H.12
lycopene	F.14
lycopene cyclase	F.16
Lycopersicon spp.	1.09
Lycopersicon esculentum	D.35 , F.12 , F.13
Lycopersicon pennellii	F.13


M
macroarray	D.29
MADS-box genes	B.27
maize	5.07 , B.05 , B.17 , B.26 , B.44 , C.16 , C.19 , C.20 , C.21
Malus x domestica	B.31 , E.20
mandarin	C.51
mapping	C.14
marker gene	H.01
marker-assisted selection	C.13
marker-free	H.14
markers	H.15
MAS	F.08
mating type	D.41
meat quality	4.02 , 4.08
Medicago	B.11
Medicago sativa	D.18 , H.07 , 5.08
Medicago truncatula	B.03 , B.07 , B.41
medicinal plants	G.01
Mediterranean forest	D.05
mei2	B.21
meiosis	B.21 , C.50 , C.58
meiotic gene	B.14
melanocortin-4 receptor	C.70
melon	D.44
membrane proteins	A.04
Meretrix spp.	5.16
meristem	B.12
message abundance andlocalisation	E.10
metabolic engineering	5.01 , A.01 , B.35
metabonomics	B.44
micotoxigenic fungi	F.06
microarray	B.03 , B.22 , B.33 , B.37 , F.24 , 5.15
micro-morphological traits	C.10
micropropagation	D.43
microRNAs	B.26
microsatellite-amplified fragment length polymorphism	2.05
microsatellite loci	F.26
microsatellite markers	C.72
microsatellites	2.04 , 5.02 , C.45 , E.05 , 5.12
microsynteny	B.11
milk proteins	4.10
milk quality	4.02 , 4.10
mip1	B.21
MIPS	B.09
MIR genes	B.26
mitochondria	5.05 , 5.06 , B.03
mlo	C.13
molecular assisted breeding	D.09
molecular chaperones	F.01
molecular characterization	D.45
molecular descriptors	E.07 , E.12
molecular diversity	B.09 , C.17
molecular farming	5.01 , A.02
molecular marker	2.12 , 4.07 , B.17 , B.23 , C.06 , C.09 , C.31 , C.34 , C.41 , C.46 , C.54 , C.57 , C.65 , F.17 , H.08
molecular tools	4.01
molecular traceability	E.09 , F.26
Monodehydroascorbate Reductase	F.13
morphological characters	G.04
morphological sterility	E.08
mortality	F.28
MSAP	D.35
mtDNA	C.72
mtDNA polymorphisms	5.16
mulberry germplasm	C.38
multigenic resistance	1.09
multiplex PCR	H.11 , H.13
multivariate analyses	C.27
mutagenesis	C.22
mutant	A.08 , C.16 , D.20
mutant phenotypic screening	B.42
myb4 gene	E.18
Myrtus communis	G.04


N
NAC transcription factors	1.05
network of excellence	C.61
Nicotiana benthamiana	A.05 , A.07
Nicotiana langsdorffii	H.05
Nicotiana tabacum	1.08 , A.01 , A.06 , A.08 , B.18 , L.01 , L.04 , 5.08
NIRs	F.14
nitric oxide	1.04 , D.02
nitrogen fixation	B.37
non-destructive	F.14
non-host resistance	1.01
Norway spruce	C.64
nuclear microsatellites	C.62 , C.67
nuclear magnetic resonance	B.44
nucleotide binding protein	1.07
nucleotide-binding-site motif	D.36
nutrient solution	D.24


O
oak decline	D.42
Olea europaea	C.45 , C.46 , C.47 , C.48 , C.49 , D.04 , E.01 , E.09
oligo-array	5.04
olive oil DNA	F.26
Ophiostoma	D.37
orange	D.50
or chids	C.59
organic farming	C.60 , F.19
organic seed production	C.60
organ-specific expression	B.40
ornamental crops	C.57
osmotic stress	5.17
Osmyb4	E.16
oxidative stress	D.05
oxylipins	D.34
ozone	D.05
ozone stress	D.03
ozone-associated genes	D.03


P
P. x euramericana	E.21
P. graminea	C.14
PAL	C.47
pathogenesis	1.01
PCR	F.07 , F.26
PCR based markers	B.47
PCR-RFLP	C.70
peach	C.53 , F.24
Penicillium italicum	D.50
pentatricopeptide repeat protein	5.07
Petunia hybrida	B.06 , B.21
PGIP	D.46
P-glycoprotein	C.16
PGPR	D.43
pharmaceuticals	A.08
phaseolin	5.08 , C.32 , C.33
Phaseolus	4.01
Phaseolus spp.	B.09 , B.11
Phaseolus vulgaris L.	2.02 , B.09 , C.33
phenolic compounds	4.09 , B.19
phenols	L.04
phenotipic traits	C.40
phenotype	C.22
phenotypical evaluation	C.26
phenylalanine ammonia-lyase	B.19
photomorphogenesis	F.15
phytoremediation	L.04
phosphomannose isomerase	H.01
photosynthesis	L.03
phyA gene	E.18
phyllotaxis	B.05
phylogeography	2.12
phylogenesis	B.27
physiologic race	D.44
physiological-biochemical test	D.56
phytates	B.09
phytochelatin	L.01
phytochrome	F.15
phytochrome A	C.48
Phytophthora citrophthora	D.50
phytoremediation	L.02
pig	C.70
PIN	B.05
Pinot noir ripening	B.33
Pinus sylvestris	C.68
Pirus communis	E.01 , E.18
plant architecture	G.02
plant biotechnology	1.08
plant cell culture	A.03
plant defence	D.39 , D.49
plant defense	1.04
plant disease	1.02 , 1.07 , 1.08 , 1.10 , D.26 , D.27 , D.33 , D.40 , D.48
plant immunity	1.01
plant improvement	4.01
plant metabolic engineering	F.16
plant regeneration	E.04
plant resistance	1.05
plant resistance gene	D.47
plant-pathogen interaction	D.02 , D.30 , D.31
plasmid	H.03
plastid	F.11
plastid transcription	5.15
plastid transformation	5.01 , 5.03 , 5.10
plastome inheritance	5.12
Platanus acerifolia	1.02
ploidy	C.34
ploidy bridges	C.23
Pm13 gene	D.40
Pmi	H.01
point mutation	B.42
polymorphism	2.04 , 4.06
polimorphic information content (PIC)	C.09
pollen	C.58
pollen pistil interaction	B.16
pollen tube growth	B.16
polymeric proteins	F.02
polymorphism	C.20 , C.69
polyploidization	C.73
poplar clones	E.21
poplar genome	C.66
population genetics	C.54 , C.62 , C.64
Populus	2.06 , C.65 , D.03
Populus alba	C.66 , D.23 , E.22 , E.23
Populus nigra	C.66
posidonia	D.24
Posidonia oceanica L.	D.07 , D.14 , D.21
post-harvest disease	D.50
post-transcriptional gene silencing	1.07
potato	5.03 , C.24 , C.73 , F.18
potato tubers	F.19
powdery mildew	1.01
powdery mildew resistance	C.13 , D.40
poxC	L.04
Ppi1	B.04
PR-proteins	1.05
probability of coincidence	E.12
Programmed Cell Death (PCD)	D.52
proinsulin	A.07
prolamins	4.03
propagative material	C.68
protease inhibitors	D.51
protein	5.05
protein and carbohydrate metabolism	B.45
protein traffic and accumulation	F.01
protein-protein interaction	D.11
proteome	B.37
proteomic	1.03
proton pump	B.04
protoplast fusion	C.51
Prunus avium	E.01
Prunus persica	C.52 , E.13 , E.14 , F.23
pure line identification	C.06
putative function	E.03
PVX	A.05 , A.07
Pyrenophora graminea	D.41 , F.08
Pyrenophora teres	C.14 , D.41


Q
QTL	4.02 , C.04 , C.08 , C.71 , E.19
quality	C.02 , F.03 , F.09
Quantitative Trait Loci(QTLs)	C.18
Quercus suber	C.67


R
ra1 mutant	C.21
Ralstonia solanacearum	D.48
random forests	6.02
RAPD	2.03 , B.34
Rapid Visco Analyzer	F.09
rDNA	C.56
rDNA amplification	D.56
real time RT-PCR	D.22
Real-Time	H.12
Real-Time PCR	B.19 , B.40 , D.17 , D.35 , F.06 , H.03 , H.04
recombinant protein	A.05
red chicory	C.40
reflectance spectroscopy	D.50
regeneration	E.18
Regions of Provenance	C.68
regulation of transcription	D.10
regulator gene	4.05
re-introduction	C.03
reproduction	F.27
reproductive mode	C.55
resistance	D.44
resistance gene	2.08 , 1.08 , C.25 , D.26 , D.35 , D.48 , E.19 , E.23 , F.17
resveratrol	E.23
retrotransposons	B.41 , C.39
retrotrasposon	B.43
R-gene markers	D.36
RHA	F.20 , F.21
rheology	4.03
Rhizoctonia	D.43
Rhodobacter sphaeroides	L.03
Ribosome Inactivating Protein	D.39
ripening	4.04 , E.03 , F.11 , F.14
risk perception	H.02
RNA silencing	1.06
rob(1;29)	F.27
rolD	B.01
root hairs	D.54
root secretion	A.02
roots	B.01 , B.07
RP-HPLC	F.07
Ruditapes spp.	5.16


S
SAG12-IPT	C.35
Salix spp.	L.02
salt stress	D.21 , D.25 , 5.17
sapogenins	B.38
saponins	B.38
scFv	A.02
secondary embryogenesis	E.04
secondary metabolites	A.01 , D.28 , G.02
seed development	5.07
seed proteins	C.32
seed quality	B.09 , F.10
seed size	C.35
seed trait	C.33
seedless	C.51
selection signatures	C.31
self-incompatibility	E.08
self-learning processes	6.02
senescence	B.03 , C.35
sequence-specific amplification polymorphism	2.05
sequencing	B.47
SERK	B.15
sex locus	C.44
sexual hybrydization	C.23
sexual reproduction	D.41
SGP1	F.04
shade avoidance response	D.08
SHATTERPROOF	B.10
sheep	F.28
silencing suppression	1.07
similarity relationships	E.07
Simple Sequence Repeat	E.05
Single Nucleotide Polymorphism (SNP)	2.06 , C.11 , C.47 , C.52
SNP	C.12 , C.13 , C.42 , C.48 , C.64
SNP discovery	C.53
SOD	D.23
software description	C.54
soil	E.23
soil-borne cereal mosaic virus (SBCMV)	C.04
Solanum aethiopicum L.	4.07 , C.28 , C.29
Solanum bulbocastanum	2.08
Solanum melongena	C.28 , C.29
Solanum spp.	C.27
Solanum tuberosum	5.15
somatic embryogenesis	B.39
somatic hybridization	C.28 , C.29
sorghum	B.26
sour orange	2.03
soybean contamination	H.03
Spinacia oleracea	5.13
SPME-GC/MS	F.09
sporogenesis	B.15
S-SAP	C.39
SSCP	C.65
SSH	D.47
SSH-PCR select	4.05
SSR	B.31 , B.34 , C.01 , C.43 , C.45 , C.55
SSR markers	C.26 , C.44 , E.08
stable isotope analysis	F.19
stamen development	B.18
starch	F.04
stony hard	E.14
storage proteins	F.01
stress resistance	D.13
stress tolerance	1.02 , C.07 , D.18 , E.16 , E.23
sunflower	B.29 , C.37 , D.55
suppression subtractive hybridisation	D.03 , E.22
sustainable agriculture	G.01
symbiontic associations	1.04
synteny	B.17 , C.12
systemic resistance	D.28


T
Tail-anchored	A.04
TDF	E.03
T-DNA insertion	1.05
T-DNA mutant	D.11
technological properties	4.08
test cross	F.20
tetraploid wheats	F.07
three-way interactions	1.03
TILLING	C.22
tocopherol	E.06
tomato	1.09 , 4.04 , A.06 , B.47 , C.22 , D.30 , D.31 , D.45 , D.47 , F.11 , F.15 , H.13
tomato ecotypes	F.17
tomato flower development	D.19
tomato fruits	D.24
tomato spotted wilt virus (TSWV)	D.29
tospovirus	D.32
totipotency	B.12 , B.39
traceability	4.02 , H.06
trangenic wheat	B.28
transcription factor	A.01 , B.07 , C.15 , D.15 , B.31
transcription profile	E.20
transcriptional factors	F.25
transcriptional profiling	D.30
transcriptomic	4.08 , L.02
transformation	E.01
transgenic	F.18
transgenic plants	1.06 , D.32 , E.16 , H.07
transient expression	A.05 , A.07
trans-resveratrol	F.12
trasformation	E.18
Trichoderma	1.03 , D.28
Trigla lucerna	C.72
triterpene saponins	B.35
Triticum	B.27
Triticum aestivum	2.11 , C.06 , D.38 , D.46
Triticum dicoccum	C.01 , C.02
Triticum durum	2.11 , C.05 , C.06
Triticum spelta	C.02
tRNA	5.05
trnT-trnD spacer	E.09
trpr gene	E.01
trypsin inhibitors	B.40
Tuber magnatum	C.55
two dimensional chromatography	B.46
two-dimensional electrophoresis	B.02
TYLCSV	D.35
TYLCV	D.31


U
uidA reporter gene	D.49
uncoupling protein	5.17
unfertilised ovules	E.04
UPGMA	E.07
US/EU regulations	H.09


V
validation	H.04
variability	C.01
variant	4.06
variety identification	2.02
vascular development	D.08
Venturia inaequalis	E.19
Vetiver root	D.56
VIGS	1.06 , F.15
viral recombination	D.29
virulence	D.27
virus resistance	D.32
virus-derived sequences	D.31
vitamin E	A.03
Vitis vinifera	5.02 , E.02 , E.04 , H.04
Vitis vinifera spp. silvestris	C.44
vivipary	G.03
VLPs	A.06


W
wall extension	B.06
water deficit	D.06
water-use efficiency	C.05
waxy	F.04 , F.05
weeds	H.15
wheat	C.09 , C.10 , D.15 , F.03 , F.04 , H.12
wheat gluten proteins	B.28
Wheat Head Scab (WHS)	D.38
wheat transformation	H.14
wheat-alien gene transfer	D.36
white poplar	E.22
wild and cultivated cardoon	C.39
wild species	H.15
wild strawberry	1.10


X
xyloglucan endo-transglycosylase	E.15


Y
yeast	2.09
yield components	C.08
y-type	F.03


Z
Zea mays L.	B.24 , C.17 , C.18 , D.06 , D.16 , D.39
zein	5.08
zinc finger domain	C.21
zygomorphic flowers	C.36
zygotic embryogenesis	B.39