Medicine & Life Sciences
Brassica
89%
Brassica rapa
73%
Genetically Modified Plants
50%
Tobacco
37%
Transgenes
25%
Genes
24%
Methylation
23%
Pollen
18%
Gene Silencing
17%
T-DNA
16%
Droughts
15%
Panax
15%
Cucurbita
14%
Watermelon mosaic virus
12%
Genome
12%
Zucchini yellow mosaic virus
11%
Agrobacterium
11%
5-Methyltetrahydrofolate-Homocysteine S-Methyltransferase
11%
Aneuploidy
10%
Seeds
10%
S-Adenosylmethionine
9%
pectinesterase
9%
DNA
9%
Arabidopsis
9%
diphtheria toxin fragment A
8%
Phenotype
8%
Scutellaria
8%
High-Throughput Nucleotide Sequencing
7%
RNA Interference
7%
Genetic Variation
7%
Mutation
7%
Gene Expression
7%
Guide RNA
6%
Breeding
6%
Methylene Chloride
6%
Reverse Genetics
6%
Polymerase Chain Reaction
6%
Epigenomics
6%
U937 Cells
6%
aceriphyllic acid A
6%
13-Hydroxy-octadecatrienoic acid
6%
Gene Editing
6%
Platelet Aggregation
5%
Insertional Mutagenesis
5%
Gamma Rays
5%
Clustered Regularly Interspaced Short Palindromic Repeats
5%
Dextrans
5%
Acetylcholinesterase
5%
DNA Methylation
5%
methyl ferulate
5%
Agriculture & Biology
Chinese cabbage
100%
Brassica rapa
79%
genetically modified organisms
35%
genes
32%
tobacco
26%
transgenes
17%
methylation
17%
stress tolerance
15%
methionine adenosyltransferase
14%
drought tolerance
14%
transgenic plants
14%
gene silencing
13%
DNA
13%
promoter regions
13%
Agrobacterium
12%
RNA interference
12%
cold stress
11%
Panax ginseng
11%
water stress
10%
genetic markers
9%
phenotype
9%
Panax
9%
squashes
8%
Watermelon mosaic virus
8%
pollen
8%
Nicotiana benthamiana
8%
drought
8%
Zucchini yellow mosaic virus
8%
Glebionis coronaria
8%
RNA
8%
gene expression
7%
genome
7%
salt tolerance
7%
seeds
7%
tissue culture
7%
loci
6%
gene regulatory networks
6%
gene editing
6%
Cucurbita moschata
6%
biosynthesis
6%
transcription (genetics)
6%
cold tolerance
6%
salt stress
6%
mutation
6%
abiotic stress
6%
explants
6%
early flowering
6%
reverse genetics
6%
Chrysanthemum
5%
random amplified polymorphic DNA technique
5%
