Medicine & Life Sciences
Arabidopsis
100%
5,10-methenyltetrahydrofolate synthetase
98%
Genomics
82%
Droughts
80%
Aquaporins
69%
Water
64%
Folic Acid
54%
Glutamate Formimidoyltransferase
51%
dihydroneopterin aldolase
49%
Cell Membrane
43%
6-pyruvoyltetrahydropterin synthase
43%
Vapor Pressure
42%
Thiamine
39%
Hydroxymethyl and Formyl Transferases
39%
Glutamic Acid
38%
Salt Stress
38%
Soil
37%
Oocytes
36%
Salinity
34%
Bacteria
31%
Arabidopsis Proteins
29%
Niacin
29%
Growth
29%
Xenopus
29%
Bacterial Genes
28%
Triticum
28%
Enzymes
27%
Proteins
27%
Zea mays
26%
Circadian Rhythm
24%
Archaeal Genes
21%
Genes
21%
Mercuric Chloride
21%
Phloem
20%
Mammals
20%
Glycine Hydroxymethyltransferase
19%
Plant Transpiration
19%
Leucovorin
18%
Breeding
18%
Amino Acids
16%
trigonelline
15%
Light
15%
Hydroponics
15%
Protoplasts
15%
Streptococcus pyogenes
14%
Conservation of Water Resources
14%
Membranes
13%
Tobacco
13%
Genome
13%
Shaker Superfamily of Potassium Channels
13%
Agriculture & Biology
Arabidopsis
69%
evaporative demand
65%
aquaporins
49%
potassium channels
48%
plasma membrane
46%
transpiration
38%
fluid mechanics
34%
water
24%
Xenopus
24%
soil water
23%
Arabidopsis thaliana
23%
cyclic nucleotides
21%
vapor pressure deficit
21%
salt stress
20%
root hydraulic conductivity
20%
salinity
18%
oocytes
18%
functional properties
18%
electric potential difference
17%
Plantae
17%
leaves
15%
protoplasts
15%
uptake mechanisms
15%
hydraulic conductivity
15%
wheat
14%
amino acids
13%
potassium
11%
phytomass
11%
drought
10%
genes
10%
rehydration
10%
biomass production
10%
Homo
9%
water flow
8%
plant growth
8%
proteins
8%
leaf area
8%
abscisic acid
7%
Zea mays
7%
phosphoproteome
7%
water uptake
7%
xylem water potential
6%
genome
6%
genetically modified organisms
6%
stele
6%
mercuric chloride
6%
polypeptides
6%
water conservation
5%
capacitance
5%
Triticum
5%