5S ribosomal genes
|
G.12
|
|
|
|
|
A
|
|
Abies alba Mill.
|
A.38
|
abiotic stress
|
C.30
|
abscission
|
G.02
|
acyltransferase isolation
|
D.20
|
adaptation
|
C.02
|
aflatoxin
|
A.50
|
AFLP |
A.33 , A.37 , A.41 , A.71 , B.09 ,
B.10 , B.13 , H.04
|
AFLP-TP
|
D.27
|
agri-food supply chain
|
E.12
|
Agrobacterium transformation |
F.20
|
Agrobacterium tumefacien
|
E.10 , F.02 , I.07
|
agroinfiltration
|
F.08
|
air pollution
|
6.04
|
albina and xantha barley mutants
|
D.28
|
alfalfa
|
A.09 , E.01
|
allergen
|
G.01
|
allergenic proteins
|
E.07
|
Altamura PDO bread
|
B.02
|
amylose
|
B.03
|
aneuploidy
|
A.69
|
ankyrin
|
C.46
|
annotation
|
D.43
|
anther culture
|
A.74
|
anthocyanin
|
G.17 , G.18 , G.20
|
antibiotic resistance
|
E.04
|
antifungal activities
|
H.06
|
antimalarian phytochemical
|
F.15
|
antimicrobial
|
F.02
|
antioxidant regulation
|
C.25
|
antioxidants
|
H.05
|
APEX
|
B.22
|
aphid resistance
|
C.45
|
Apium graveolens
|
A.33 , A.71
|
apomixis
|
A.08 , A.23
|
apple
|
G.01
|
Arabidopsis
|
6.07 , C.30 , D.13 , I.06
|
Arabidopsis thaliana
|
2.04 , 5.04 , A.19 , C.08 , C.36 ,
D.10 , D.22 , I.02
|
Artemisia annua L.
|
F.15
|
artemisinin
|
F.15
|
artichoke
|
D.20
|
artificial inoculation
|
A.50
|
Aspergillus flavus
|
A.50
|
assignment methods
|
A.22
|
association analysis
|
A.24
|
association mapping
|
A.58
|
Aster
|
F.20
|
Aster caucasicus
|
F.14
|
Aster sedifolius
|
F.14
|
Asteraceae
|
D.42
|
autoimmunity
|
F.01
|
auxin
|
G.02
|
|
|
|
|
B
|
|
b-32
|
C.38
|
BAC extension
|
D.43
|
bacterial speck
|
C.32
|
banding
|
A.16
|
bar
|
G.21
|
barley
|
A.21 , B.05 , C.05 , C.07 , C.36 , D.32
|
barrel medic
|
F.19
|
berry quality
|
G.14
|
berry ripening
|
D.25
|
beta-estradiol induction
|
E.02
|
beta-glucan solubilase
|
B.06
|
beta-glucanase
|
B.06
|
beta-propeller
|
D.10
|
bHLH
|
2.02
|
biochemical parameters
|
B.19
|
biocontrol
|
5.02
|
biodiversity
|
1.01 , A.26 , A.33 , A.65 , D.44
|
bioinformatics
|
D.48 , G.10
|
bioinsecticides
|
5.02
|
biolistic
|
I.07
|
biophenol
|
G.23
|
BiP
|
F.18
|
birdsfoot trefoil
|
4.06
|
blast
|
A.52
|
blond and blood oranges
|
G.20
|
blood oranges
|
G.17
|
blue light
|
C.27
|
Blumeria graminis
|
H.07
|
brachytic
|
A.47
|
Branched-chain amino acid aminotransferase
|
C.07
|
Brassica juncea
|
I.03
|
bread wheat
|
A.13
|
breed
|
A.16 , A.17
|
breeding
|
1.01 , A.02 , A.04 , A.09
|
bulk segregant analysis
|
B.09
|
bZIP
|
I.03
|
|
|
|
|
C
|
|
cadmium
|
I.02 , I.03 , I.04
|
cadmium accumulation
|
I.06
|
cadmium genotoxicity
|
I.01
|
cadmium tolerance
|
I.06
|
Campania
|
A.68
|
cancer
|
A.17
|
candidate gene (CG)
|
B.05 , G.08
|
candidate gene mapping approach
|
D.35
|
candidate genes
|
A.58 , G.14
|
capillary electrophoresis
|
D.47
|
CAPs
|
A.75
|
CAPS marker
|
A.68
|
Capsicum annuum
|
7.08 , A.66
|
Capsicum spp.
|
A.67
|
cardoon
|
A.45
|
carotene hydroxylases
|
6.07
|
carotenoid biosynthesis
|
6.07
|
carotenoids
|
C.28 , B.01 , B.20 , C.29
|
casein kinase 2
|
C.21
|
cattle
|
A.17
|
CCCH zinc finger domain
|
C.30
|
cDNA AFLP
|
A.69
|
cDNA microarrays
|
6.05
|
cDNA-AFLP
|
6.04 , C.02 , C.31
|
cell adhesion
|
G.05
|
cell culture
|
F.15
|
cell cycle
|
D.10 , D.15
|
cell-specific gene expression
|
2.01
|
characterization
|
A.44
|
chemical characterization
|
F.13
|
chemical mutagenesis
|
6.06
|
cherry
|
G.07
|
chitinase
|
C.40
|
chlorogenic acid
|
A.25
|
chloroplast
|
F.18
|
chloroplast and nuclear microsatellites
|
A.63
|
chloroplast development
|
D.28
|
chloroplast markers
|
3.03
|
chloroplast microsatellites
|
A.39 , A.62
|
chromosome complement
|
D.03
|
chromosome fragility
|
A.17
|
chromosome number
|
A.72
|
chromosome sorting
|
7.03
|
circadian clock
|
I.02
|
cis-variation
|
D.34
|
Citrus
|
A.14 , G.19
|
class I knotted1-like genes
|
G.06 |
class II knotted-like gene
|
G.04
|
clean gene
|
E.06
|
clonal identification
|
A.40
|
cluster analysis
|
A.25 , A.33
|
cob colour
|
A.11
|
coexistence
|
4.05
|
cold stress
|
C.02 , D.24 , G.20
|
collection
|
A.21
|
common bean
|
D.23
|
comparative genomic hybridization
|
5.07
|
comparative method
|
3.03
|
computational EST analysis
|
D.52
|
condensed tannins
|
2.02
|
conifers
|
D.40
|
conservation
|
A.18 , A.36
|
constitutive heterochromatin
|
A.16
|
Corbarino landraces
|
C.45
|
corn
|
4.02
|
correlated traits
|
A.11
|
correlation analysis
|
B.19
|
Corylus avellana
|
A.41 |
Cre/loxP |
E.02
|
crop improvement
|
A.64
|
crossing
|
A.04
|
Cry IAb
|
E.05
|
cryosectioning
|
D.45
|
cryptochrome tomato
|
C.27
|
cryptochromes
|
C.26
|
cultivar
|
G.01 , G.10
|
cultivar discrimination
|
A.70
|
cultivar identification
|
A.37 , B.02 , B.13
|
cultivar release
|
A.13
|
cutaneous human Papillomavirus
|
F.08
|
cybrid
|
A.75
|
Cynara cardunculus
|
A.44
|
Cysteine Proteinase Inhibitor
|
C.43
|
cytochrome b5
|
F.06
|
cytogenetic map
|
5.08
|
cytomixis
|
A.08
|
cytoplasmic genomes
|
3.02
|
|
|
|
|
D
|
|
database
|
D.48
|
Daucus carota
|
C.16
|
de mutants
|
B.09
|
defence genes
|
5.05 , C.34
|
defence response
|
D.29
|
dehydration responsive factors
|
C.10
|
dehydrin
|
G.15
|
deliberate release
|
4.03
|
development
|
D.11
|
diabetes mellitus
|
F.01
|
diagnostic test
|
C.33
|
differential display
|
C.07
|
differential expression
|
D.27
|
diurnal and circadian rhythms
|
C.26
|
diversity
|
A.02 , A.20 , A.21 , A.35 , A.43
|
DNA
|
A.42
|
DNA bank
|
A.18
|
DNA methylation
|
A.48 , A.49
|
domain-specific markers
|
D.04
|
domestic animals
|
A.77
|
domestication
|
A.02 , A.64
|
donkey
|
A.16
|
drought
|
6.02 , 6.03 , C.11
|
drought stress
|
C.07
|
drought stress tolerance
|
A.57 , C.09 , C.12 , C.13 , C.14
|
durable resistance
|
C.35
|
durum wheat
|
A.13 , A.20 , A.56 , A.57 , A.59 , A.78, B.01 , C.01 , C.10 , C.12 , C.30
|
durum wheat genotype
|
C.11
|
dwarf-like Micro-Tom
|
C.19
|
|
|
|
|
E
|
|
early-light-inducible-proteins
|
C.24
|
Echinacea angustifolia
|
H.01
|
ecotype
|
A.65
|
ELF4
|
I.02
|
embryos in vitro culture
|
G.16
|
emmer
|
A.13
|
EMS
|
A.03
|
endogenous genes
|
E.11
|
endophytic bacteria
|
C.49
|
endoplasmic reticulum
|
B.08
|
endopolygalacturonase
|
G.05
|
endosperm mutants
|
D.30
|
enrichment procedure
|
H.02
|
epialleles
|
A.49
|
epigenetic
|
A.48 , D.34
|
epistasis
|
D.33
|
essential oil
|
C.49 , H.07
|
EST
|
A.35 , B.16
|
EST database
|
D.52 , D.53 , D.54
|
EST-derived SSR
|
A.54
|
ESTree DB
|
G.08
|
EST-SSR
|
A.55
|
Ethiopia
|
A.21
|
ethylene
|
G.02
|
European gene pool
|
A.30
|
European germplasm
|
A.61
|
evaluation
|
A.66
|
evolution
|
C.39
|
expansin
|
D.11
|
experimantal genome annotation
|
D.53
|
experimental release
|
4.03
|
Expressed Sequence Tag (EST)
|
A.67 , G.08
|
expression profiling
|
C.19
|
|
|
|
|
F |
|
F1 paternity test
|
G.16
|
F3’H
|
H.05
|
fAFLP
|
A.78
|
field test
|
4.04
|
fine mapping
|
C.04
|
fire blight
|
C.33
|
FISH
|
5.08 , B.22 , G.12
|
flavonids
|
2.02
|
flavonoid biosynthesis
|
H.05
|
flavonoids
|
2.03 , B.20
|
FLC
|
D.13
|
floral meristems
|
D.18
|
flow cytometric analysis
|
G.19
|
flow cytometry
|
7.03 , A.23 , A.75
|
flower development
|
A.06 , D.14
|
flowering
|
D.13
|
food
|
B.22
|
food genomics
|
B.11
|
food traceability
|
A.77 , B.10
|
forage legume
|
4.06 , D.41
|
frost resistance
|
C.04
|
frost tolerance
|
C.05
|
fruit
|
2.03 , B.20
|
fruit quality
|
G.15
|
fruit ripening
|
G.10
|
fruit set
|
6.05
|
fruit softening
|
G.05
|
functional compounds
|
A.12
|
functional genomics
|
D.22
|
fungal pathogens
|
C.38
|
Fusarium spp.
|
H.07
|
Fusarium culmorum
|
B.04
|
Fusarium graminearum
|
B.04
|
fused leaves mutant
|
D.12
|
|
|
|
|
G |
|
gabaculine |
E.03
|
Gabaculine resistance |
E.01
|
GAD65 |
F.01
|
gag |
F.05
|
gas chromatography/mass |
C.49
|
gene containment |
E.09
|
gene expression
|
1.04 , 2.03 , 9.03 , A.14 , C.26 ,
D.14 , D.25 , D.26 , H.05
|
gene expression analysis
|
D.30
|
gene famil
|
D.21
|
gene flow
|
4.02 , 4.05 , 4.06
|
gene function
|
D.11
|
gene identification
|
D.43
|
gene indices
|
D.52
|
gene mapping
|
A.05
|
gene model
|
D.51
|
gene shuffling
|
9.03
|
gene transfer
|
E.04
|
genetic characterization
|
A.43
|
genetic differentiation
|
A.15
|
genetic diversity
|
3.01 , A.15 , A.24 , A.27 , A.29 ,
A.31 , A.37 , A.42 , A.61 , A.72 ,
G.09 , H.02 , H.04
|
genetic improvement
|
5.08
|
genetic linkage map
|
D.38
|
genetic map
|
A.45 , A.56
|
genetic polymorphisms
|
A.76
|
genetic resources
|
A.18 , A.28 , A.30 , A.63
|
genetic transformation
|
E.10 , F.19 , I.07
|
genetic variation
|
A.71
|
genetics
|
A.09
|
gene-trapping
|
C.08
|
genome
|
D.42
|
genome activity
|
7.10
|
genome annotation
|
D.51
|
genome browser
|
D.53
|
genome dosage
|
3.02
|
genome organization
|
D.40
|
genome sequence
|
1.01
|
genome sequencing
|
7.01 , 7.09
|
genome size
|
A.23
|
genomic pedigree
|
C.39
|
genomics
|
2.01
|
genotype identification
|
A.78
|
genotyping
|
5.09
|
germplasm
|
A.20 , A.24 , A.57 , G.22
|
germplasm conservation
|
3.01
|
GFP constructs
|
D.17
|
globe artichoke
|
A.45
|
Globodera rostochiensis
|
C.42
|
glutathione S-transferase
|
G.20
|
glutathione transferases
|
D.36
|
glutenin
|
E.07
|
glutenin subunits
|
B.08
|
GMO
|
4.03 , 4.05 , E.08
|
gox gene
|
C.33
|
grain yield
|
C.13
|
grape
|
B.15 , D.27 , G.11
|
grapevine
|
A.32 , G.14
|
grapevine genome
|
D.39
|
green revolution
|
A.47
|
growth stage
|
C.11
|
GSA-AT
|
E.01 , E.03
|
gSSR
|
A.55
|
guard cells
|
5.04 , C.08
|
Gypsy and Copia like LTR-retrotransposon
|
A.53
|
|
|
|
|
H
|
|
haploid
|
A.74
|
HAPPY mapping
|
G.13
|
HDL
|
F.03
|
heat stress
|
6.05 , C.01
|
heavy metals
|
I.05
|
Helianthus
|
D.02 , D.42
|
Helianthus annuus
|
D.03 , D.18 , I.01
|
Helianthus tuberosus
|
D.18
|
Helichrysum italicum (Roth) G. Don
|
H.04
|
Helicoverpa zea
|
C.44
|
herbicide tolerance
|
G.21
|
heterologous protein accumulation
|
F.18
|
heterosis
|
A.46
|
Hieracium pilosella
|
H.02
|
high light
|
C.24
|
high throughput
|
D.47
|
histology
|
D.45
|
histone deacetylase
|
7.10
|
histone modification
|
7.10
|
HIV-1
|
F.05 , F.07
|
HIV-1 protease
|
F.05
|
HMW glutenin subunit
|
E.06
|
HMW-GS
|
A.59
|
homeobox genes
|
D.09 , D.19
|
homeobox transcription factors
|
D.06
|
homeotic mutants
|
A.06
|
Hordeum vulgare
|
6.06 , C.04 , D.09 , D.47
|
horizontal gene transfer
|
E.13 , G.21
|
HPLC
|
A.25
|
HPV
|
F.09
|
HPV8
|
F.08
|
HSP101
|
C.01
|
hulled wheat
|
D.01
|
human immunodeficiency virus
|
F.17
|
human impact
|
A.35
|
hybrid seed
|
A.05
|
hydric stress
|
C.10
|
hydroponics
|
C.02
|
|
|
|
|
I |
|
IkB
|
C.46
|
image analysis
|
A.26 , C.18
|
immunolocalization
|
G.05
|
in silico analysis
|
D.49
|
in silico isolation
|
D.36
|
in situ conservation
|
A.38
|
in situ fluorescent labelling
|
7.03
|
in situ hybridization
|
D.03
|
in vitro essays
|
2.03
|
in vitro morphogenesis
|
G.07
|
inoculation
|
C.41
|
insect
|
C.47 , C.48
|
insect-plant interactions
|
5.02
|
insertional mutagenesis
|
7.02
|
insertional mutants
|
D.15
|
interspecific hybrids
|
D.44
|
intra-specific linkage map
|
7.08
|
intraspecific variability
|
A.41
|
introgression
|
A.22
|
intron-mediated regulation
|
D.09
|
IPK1
|
D.23
|
ipt gene
|
E.10
|
ISSR
|
A.01
|
ISSR technique
|
3.01
|
ISSR-PCR
|
A.75
|
ITS
|
D.44 , H.03
|
|
|
|
|
K |
|
K+ channel
|
C.16
|
Kalanchoe daigremontiana
|
D.19
|
karyotype
|
A.16
|
k-casein gene
|
A.77
|
Kentucky bluegrass
|
A.08 , A.23
|
killer peptide
|
F.02
|
KNOTTED1-like genes
|
D.18
|
KNOX genes
|
D.19
|
|
|
|
|
L |
|
landrace
|
A.18 , A.21 , A.22 , A.24 , A.26 ,
A.29 , A.33 , A.66 , A.71
|
large data set
|
B.19
|
laser capture microscopy
|
G.11
|
lcat
|
F.03
|
LCM
|
D.45
|
leaf /stem ratio
|
B.18
|
leaf anatomy
|
C.18
|
leaf number
|
A.11
|
Leaf rust
|
C.35
|
lecithin:cholesterol acyl transferase
|
F.03
|
Leguminosae
|
A.62
|
Lemna minor
|
I.04
|
Lens culinaris
|
A.65
|
lentil
|
A.04
|
lettuce
|
4.02
|
life cycle
|
D.05
|
Lilium
|
A.72
|
linkage disequilibrium
|
A.57 , D.35
|
linkage map
|
C.12
, G.13
|
linkage mapping
|
A.67
|
linkage maps
|
A.54 , D.04
|
lipoxygenase activity
|
B.01
|
local varieties
|
A.32
|
Lotus corniculatus
|
A.27
|
low molecular weight glutenin subunits
|
B.07
|
low phytic acid
|
A.48
|
lpa
|
A.03
|
LRR variability
|
5.05
|
LTB
|
F.10
|
Lycopersicon esculentum
|
C.32
|
|
|
|
|
M
|
|
MADS-box genes
|
D.14
|
maize
|
4.05 , A.46 , A.47 , A.48 , D.12 ,
D.33 , E.11
|
maize HDACs
|
D.17
|
maize mutant
|
7.04
|
Mal d 3
|
G.01
|
male sterility
|
A.05
, A.06
|
Malus domestica
|
C.43
|
Malus x domestica
|
G.02 , G.03
|
MAPK
|
C.20
|
mapping
|
D.39
|
marker assisted selection
|
A.11
|
marker gene
|
E.04 , E.06
|
marker-free transformation
|
E.02
|
MAS
|
D.38
|
maturation
|
B.15
|
Medicago sativa
|
B.18 , E.03
|
Medicago truncatula
|
B.17 , D.06 , D.41 , F.13
|
medicinal plants
|
H.01
|
mei2
|
D.07
|
meiosis
|
D.07
|
Melaleuca alternifolia
|
H.07
|
Meloidogyne incognita
|
C.41
|
melting curve analysis
|
5.09
|
membrane proteins
|
F.16
|
metabolic engineering
|
2.04 , F.20
|
metabolomics
|
E.08
|
methylation
|
D.34
|
micro RNA
|
C.22
|
microarray
|
6.02 , B.22 , C.23 , D.21 , D.45 , D.29 , G.10
|
microarray analysis
|
C.15
|
microsatellite evolution
|
A.53
|
microsatellites
|
A.34 , A.35 , A.38 , A.43 , A.44 ,
B.02 , B.12 , B.13 , D.04 , G.09
|
mip1
|
D.07
|
MIPS
|
D.23
|
Mlo
|
C.36
|
model plant
|
A.19
|
model species
|
A.18
|
Modified Location Model
|
A.40
|
molecular assisted breeding
|
C.10
|
molecular farming
|
F.03 , F.08 , F.16
|
molecular interaction
|
C.48
|
molecular markers
|
1.04 , 6.03 , A.25 , A.40 , A.42 ,
A.52 , A.54 , A.60 , A.61 , A.65 ,
A.76 , B.11 , C.35
|
Monoecious plants
|
G.22
|
morphotype
|
3.01
|
MSAP
|
A.49
|
mucosal delivery
|
F.10
|
multicolor GISH
|
3.02
|
multiplex
|
A.43
|
multivariate analysis
|
E.08
|
mutagenesis
|
7.09
|
mutant
|
A.47 , A.48 , B.20
|
mutations
|
A.76
|
MYB
|
2.02
|
Myb transcription factors
|
I.02
|
Myb4 transcription factor
|
2.04
|
mycorrhizal species
|
D.05
|
mycotoxin
|
B.04
|
myostatin gene
|
A.77
|
|
|
|
|
N
|
|
naked oats
|
A.12
|
natural range
|
A.15
|
NBS LRR
|
C.39
|
Near Isogenic Lines
|
A.46
|
Nef
|
F.07
|
Nef- HIV
|
F.06
|
nematodes
|
C.39
|
NEP
|
D.31
|
Neva
|
E.10
|
new cultivars
|
A.09
|
Nicotiana benthamiana
|
B.07
|
Nicotiana genus
|
A.01
|
Nicotiana spp.
|
H.08
|
Nicotiana tabacum
|
2.04 , C.40 , C.46 , D.17 , F.03
|
Nicotiana wuttkei
|
A.01
|
nitrate reductase
|
C.21
|
nitric oxide |
C.21 , D.29
|
nitric oxide synthase
|
C.21
|
NMR
|
E.08
|
non target effects
|
C.43
|
nsLTP
|
G.01
|
N-terminal processing
|
B.07
|
NtRox1
|
D.08
|
nuclear markers
|
3.03
|
nuclear microsatellites
|
A.36
|
nutraceuticals
|
G.23
|
|
|
|
|
O |
|
Oidium |
G.11
|
Olea europaea
|
5.09 , A.42 , A.70 , B.12 , B.13
,
C.41 , D.38 , G.15
|
oligo-array
|
D.28
|
olive cultivar
|
B.10
|
olive domestication
|
A.70
|
olive explants
|
C.41
|
olive germplasm
|
A.70
|
olive oil
|
B.10 , B.11 , B.14
|
oral tolerance
|
F.01
|
organ development
|
G.04
|
organ differentiation
|
7.04
|
ornamental hybrids
|
H.08
|
orthologue genes
|
C.03
|
Oryza sativa
|
5.05 , A.51 , A.53 , C.09 , D.09 , I.04
|
Osmyb4
|
6.09 , C.03
|
ovate
|
A.68
|
Oxalis tuberosa
|
3.01
|
oxidative stress
|
6.04 , C.25
|
oxidative enzymes
|
5.06
|
ozone
|
6.04
|
|
|
|
|
P
|
|
P1 gene
|
A.11
|
paraffin embedding
|
D.45
|
parasitoid
|
C.47
|
parasitoids
|
5.02
|
Passiflora incarnata
|
H.01
|
pasta
|
A.12
|
pasta processing
|
B.01
|
PCR
|
A.43 , A.59
|
PCR Real time
|
G.18
|
PCR-ISSR
|
G.19
|
PCS1overexpression
|
I.06
|
PDO mark
|
B.12
|
peach
|
B.16
|
pear shape
|
A.68
|
pentaploid
|
A.07
|
PEP
|
D.31
|
peptide display
|
F.11
|
Petunia hybrida
|
D.07 , D.11
|
PGIP
|
5.05
|
P-glycoprotein
|
A.47
|
phage display
|
C.44
|
phaseolin
|
A.29 , A.30 , F.18
|
Phaseolus coccineus
|
A.61
|
Phaseolus spp.
|
A.62
|
Phaseolus vulgaris
|
A.02 , A.03 , A.26 , A.29 , A.30 ,
A.63 , A.64
|
phenolic compounds
|
H.05
|
phenolic pollutants
|
5.06
|
phenolics
|
C.25
|
phenology
|
D.35
|
phenotypic characterization
|
A.19
|
phenylpropanoids
|
2.04
|
phenylpropanoid biosynthesis
|
D.20
|
phosphomannose isomerase
|
E.06
|
photoinhibition
|
C.24
|
photooxidation
|
C.24
|
photoreceptors
|
C.26
, C.27
|
photosynthesis
|
I.04
|
phylogenesis
|
D.14
|
phylogenetic analysis
|
A.55
|
phylogenetic trees
|
D.36
|
phylogeography
|
A.35
|
phytoextraction
|
I.05
|
phytoremediation
|
I.01
|
PIN
|
G.02
|
Pinus halepensis
|
A.34
|
Pinus sylvestris
|
A.15
|
Pistacia
|
G.22
|
plant development
|
D.09
|
plant performance
|
C.09
|
plant architecture
|
D.10
|
plant biotechnology
|
C.47
|
plant chromosome in suspension
|
7.03
|
plant defence
|
C.46
|
plant development
|
7.10 , D.06
|
plant disease
|
C.32 , C.34 , C.40 , C.42
|
plant DNA survival
|
E.13
|
plant genomics
|
A.53
|
Plant Made Pharmaceuticals
|
F.09
|
plant regeneration
|
A.76
|
plant reproduction
|
D.15
|
plant resistance
|
5.02
|
plant transformation
|
B.17
|
plant vaccines
|
F.07
|
plant water loss
|
5.04 , C.08
|
plant-AM fungi interaction
|
C.09
|
plant-derived antigen
|
F.04
|
plant-virus interaction
|
F.11
|
Plasmopara viticola
|
C.31
|
plastid genome
|
D.37
|
plastid transcription
|
D.31
|
plastid transformation
|
F.09
|
Platanus acerifolia
|
C.34
|
ploidy bridge
|
A.69
|
pmi
|
E.06
|
polar auxin transport
|
7.04
|
pollen dispersal
|
3.03 , 4.02 , 4.06
|
pollen embryogenesis
|
G.07
|
pollen mutants
|
1.04
|
pollen selection
|
1.04
|
polydnavirus
|
C.46
|
polyembriony
|
A.14
|
polyhistidine
|
I.05
|
polymerization
|
B.08
|
polyploid
|
A.08
|
polyploidy
|
E.09
|
Poplar
|
A.40 , C.23
|
population expansion
|
A.34
|
population genetics
|
A.15 , H.02
|
population structure
|
A.22 , H.03
|
Populus
|
D.35 , E.05
|
Populus alba
|
D.24 , D.26
|
Populus x canadensis
|
E.10
|
positional cloning
|
1.04
|
post genomics
|
D.41
|
potato
|
3.02 , A.69 , A.74 , C.15 , C.28 , D.37
|
potato virus X
|
F.12
|
powdery mildew
|
A.60 , C.36
|
prediction of protein binding sites
|
D.50
|
prickly pear
|
G.23
|
primary metabolism
|
D.23
|
primer extension
|
D.31
|
procambial cell proliferation
|
D.08
|
product quality monoclonal antibodies
|
B.15
|
promotion
|
A.66
|
protease
|
C.44
|
protease inhibitor
|
C.44
|
protein and carbohydrate metabolism
|
D.30
|
protein assembly
|
B.08
|
protein bodies
|
B.21
|
protein content
|
B.18
|
protein interactions
|
D.50
|
protein secretory pathway
|
F.17
|
protein traffic
|
B.21
|
proteinase inhibitors
|
D.50
|
proteome
|
E.07
|
proteomics
|
B.15 , D.46
|
Proton Force Motif (PMF)
|
C.17
|
Prunus persica
|
G.05 , G.06 , G.08
|
Pseudomonas syringae pv. tomato
|
C.32
|
PVX
|
F.04
|
PVX CVPs
|
F.11
|
PVX mutant
|
F.11
|
pyramiding resistance
|
C.40
|
Pyrenophora graminea
|
D.32 , H.07
|
Pyrus communis
|
C.33
|
|
|
|
|
Q
|
|
qReal-Time PCR
|
6.05 , C.15
|
QTL
|
6.03 , A.46 , A.57 , C.04
|
QTL analysis
|
C.35
|
QTLs
|
A.45 , A.51 , A.56 , C.13 , G.14
|
qualitative PCR
|
E.12
|
quality traits
|
B.19
|
quantitative genetics
|
A.46
|
Quercus pubescens
|
A.36
|
Quercus suber
|
A.39
|
|
|
|
|
R |
|
rabbit
|
E.13
|
Ralstonia solanacearum
|
A.07
|
RAPD
|
C.14
|
RAPDs
|
G.22
|
R-banding
|
5.08
|
RCC1-like protein
|
D.10
|
Rdg2a
|
D.32
|
Real time PCR detection
|
B.04
|
Real Time RT-PCR
|
2.02 , C.01
|
real-time
|
D.01 , G.15
|
real-time PCR
|
E.11 , E.12
|
recombinant antibody
|
D.46
|
recombinant protein
|
F.12
|
reference genes
|
D.49
|
refuge area
|
E.05
|
regulatory genes
|
G.17
|
regulatory variation
|
9.03 , D.33
|
repetitive DNA
|
D.42
|
reproductive mode
|
D.05
|
resistance
|
C.47 , C.48 , G.03
|
resistance gene
|
A.52 , A.60 , C.32 , C.37 , C.38 , C.42 , C.43 , D.32 , D.48 , E.05
|
Resistance Gene Homologues
|
C.39
|
resistance management
|
E.05
|
resistance to abiotic and biotic stresses
|
A.69
|
restoration
|
A.28
|
resveratrol
|
A.32 , G.21
|
retroelements
|
D.40
|
retrotransposon
|
D.01 , D.02 , D.34
|
reverse genetics
|
6.06
|
ribosomal DNA
|
D.03
|
Ribosome Inactivating Protein
|
C.38 , C.40
|
rice
|
6.09 , A.52 , C.09
|
RILs
|
7.08
|
ripening
|
C.29 , D.27 , G.14
|
risk assessment
|
F.12
|
RLK
|
C.20
|
RNA quantification
|
D.49
|
RNAi
|
D.07
|
rolB
|
D.08
|
ROS
|
C.20 , D.22
|
Roundup soybean
|
E.12
|
RT-PCR
|
C.07 , C.19 , H.06
|
RT-real time PCR
|
G.20
|
|
|
|
|
S |
|
saffron
|
D.54
|
salicylic acid signals
|
C.21
|
salinity
|
C.18
|
salinity tolerance
|
A.51
|
salt stress
|
C.16 , C.17 , C.25
|
saponins
|
F.13
|
SARS-CoV
|
F.04
|
SBE (Single Base Extension)
|
D.26
|
scanning genome
|
5.09
|
SCE
|
A.17
|
SDS-PAGE
|
A.30 , A.59 , A.78
|
secondary metabolism
|
B.16 , H.01
|
secondary metabolite production
|
F.15
|
seed dispersal
|
3.03
|
seed quality
|
A.03 , D.23
|
seedling stage
|
C.14
|
selection
|
A.64
|
selective genotyping
|
7.08
|
self excision
|
E.04
|
SEM
|
A.01
|
semolina
|
B.02
|
sequence
|
D.37
|
Serapias
|
A.31
|
sex determination
|
G.22
|
SFP
|
7.09
|
Shaker
|
C.16
|
sheep
|
5.08
|
shoot development
|
D.12
|
shootmeristemless mutant
|
D.12
|
short internodes
|
B.18
|
signal transdunction
|
C.20
|
similarity relationships
|
A.37
|
Simple Sequence Repeats
|
A.67
|
Single Nucleotide Polymorphism (SNP)
|
B.05 , G.08
|
Sinorhizobium meliloti
|
5.07
|
site-specific species
|
A.28
|
ski runs
|
A.28
|
snow clover
|
A.28
|
SNP
|
7.09 , D.38 , D.39
|
SNPs
|
5.09 , A.77 , D.26
|
SOL
|
7.01
|
solanaceae
|
D.48
|
Solanum commersonii
|
A.07
|
Solanum aethiopicum L.
|
A.25
|
Solanum lycopersicum
|
A.05 , A.06 , D.53 , E.09 , F.14
|
Solanum spp.
|
D.37
|
Solanum tuberosum
|
A.07 , D.31
|
Solanum wild species
|
C.42
|
somaclonal variability
|
A.76
|
somaclonal variation
|
A.73 , A.74
|
somatic embryogenesis
|
A.14 , C.16
|
SOS2
|
C.17
|
spatial autocorrelation
|
A.34 , A.38
|
spatial genetic structure
|
A.34
|
species identification
|
D.44
|
spelt
|
A.13
|
spliced-alignment
|
D.51
|
SSCP
|
A.40
|
SSH
|
G.03
|
SSH-PCR select
|
G.18
|
SSR
|
A.20 , A.23 , A.31 , A.42 , A.51 ,
A.61 , A.71 , D.05 , D.38 , D.39 , H.02
|
SSR marker
|
A.29 , A.70 , G.16
|
SSR molecular marker
|
B.14
|
SSRs
|
A.27 , A.32 , G.09
|
St. John’s wort
|
D.04
|
stamen development
|
D.08
|
starch
|
B.03
|
stem development
|
G.06
|
stigma
|
D.54
|
stilbenes
|
D.25
|
stomata
|
5.04 , C.08
|
storage proteins
|
B.17 , B.21
|
strawberry
|
2.03
|
stress conditions
|
A.56
|
stress resistance
|
A.58
|
stress response
|
C.22
|
stress tolerance
|
6.03 , 6.09 , C.03 , C.33 , C.34 , C.43
|
StSy
|
G.21
|
subcellular localization
|
D.17
|
substantial equivalence
|
D.46 , E.07
|
sugar beet
|
C.02
|
sulfur
|
C.22
|
sulphate metabolism
|
I.04
|
sunflower
|
D.02 , D.42
|
suppression-subtractive hybridisation
|
D.24
|
symbiosis
|
5.07 , D.29
|
synteny
|
B.05
|
synthetics vs hybrids
|
B.18
|
systemin
|
C.48
|
|
|
|
|
T |
|
Tail-anchored
|
F.06
|
tandem repeated DNA sequences
|
D.03
|
tassel seed
|
A.73
|
Taxus baccata L.
|
H.03
|
T-DNA
|
D.22
|
thermotolerance
|
C.01
|
TILLING
|
6.06 , 7.02 , 7.09 , D.47
|
tissue culture
|
A.73
|
TNT
|
7.02
|
tobacco
|
F.05 , F.17 , I.06
|
tobacco protoplasts
|
F.16
|
tomato
|
7.01 , A.05 , A.06 , A.24 , B.19
,
B.20 , C.26 , C.29 , D.48 , E.09 , H.06
|
tomato flower development
|
6.05
|
tomato genome sequencing
|
D.43
|
tomato inhibitor-II
|
D.50
|
traceability
|
B.11 , B.14 , B.22
|
transcript localisation
|
G.04
|
transcription factor
|
D.21
|
transcription factors
|
6.09
|
transcriptional regulation
|
C.22
|
transcriptome
|
6.03
|
transcrition factor
|
I.03
|
transcrption
|
D.02
|
transduplication
|
9.03
|
transferability
|
A.55
|
transformation
|
C.37
|
transgene expression
|
5.06
|
transgenes
|
4.02 , C.28 , I.05
|
transgenic plants
|
4.06 , E.03 , F.01 , F.02 , F.06 , F.08 F.10
|
transgenic rice
|
C.03
|
transgenic wheat
|
E.07
|
transient expression
|
F.12
|
transport
|
C.22
|
transposable elements
|
9.03
|
Trichoderma viride
|
H.06
|
triploid
|
G.19
|
triterpenoid saponins
|
F.19
|
Triticum
|
D.14
|
Triticum aestivum
|
5.05 , 7.03 , C.14
|
Triticum durum
|
6.04 , 7.03 , C.13 , C.35
|
Triticum turgidum
|
A.60
|
Triticum turgidum L. var. durum
|
B.02
|
trnH-psbA spacer
|
D.44
|
TSWV
|
4.04
|
Tuber magnatum
|
D.05
|
tuberculosis vaccine
|
F.10
|
|
|
|
|
U |
|
unicellular green algae
|
I.07
|
UPGMA
|
A.37
|
UVB radiation
|
C.23
|
|
|
|
|
V
|
|
Vaccinia virus
|
F.16
|
Vacuolar ATPase (VHA)
|
C.17
|
variety identification
|
A.44
|
vein
|
C.18
|
Venturia inaequalis
|
G.03
|
vernalization
|
D.13
|
Vetiver oil bioconversion
|
C.49
|
Vetiver root
|
C.49
|
Vf
|
G.03
|
vindoline biosynthesis
|
2.01
|
viral gene
|
C.47
|
viral recombination
|
F.12
|
virgin olive oil
|
B.12 , B.13
|
virus
|
A.68
|
virus resistance
|
4.04
|
vitamin C
|
C.25
|
Vitis
|
E.04
|
Vitis vinifera
|
C.31 , D.25 , G.10 , G.12 , G.13
|
volatile organic compounds
|
C.48
|
volatiles
|
B.16
|
|
|
|
|
W
|
|
wall extension
|
D.11
|
water buffalo
|
E.13
|
water stress/adaptation
|
C.15
|
waxy
|
B.03
|
wheat
|
6.02 , A.54 , A.55 , B.03 , B.04 ,
B.07 , B.08 , E.02
|
white poplar
|
D.24
|
wild relatives
|
A.02
|
wild species
|
3.02 , A.74
|
WIS2-1A
|
D.01
|
withering
|
D.27
|
WRKY
|
C.20 , D.21
|
|
|
|
|
X
|
|
xanthophylls
|
6.07
|
X-ray
|
I.01
|
xylem
|
C.18
|
xylem differentiation
|
D.08
|
|
|
|
|
Y
|
|
yield components
|
A.56
|
|
|
|
|
Z
|
|
Zea mays
|
7.04 , 7.10 , A.22 , A.50 , A.73 ,
B.09 , C.38 , E.08
|
zein
|
F.17 , F.18
|
|
|
|
|