INIS
cancer
100%
breasts
46%
gallic acid
42%
toxicity
39%
antioxidants
36%
in vitro
34%
synthesis
27%
acetates
26%
ethanol
26%
evaluation
24%
proteins
24%
hexane
22%
values
20%
colon
17%
seaweeds
17%
boron chlorides
16%
rats
16%
indonesia
15%
thin-layer chromatography
15%
antimycin
14%
growth
13%
apoptosis
12%
receptors
12%
control
11%
flavonoids
11%
hepatitis
11%
esters
10%
hela cells
10%
chains
9%
chloroform
9%
design
9%
comparative evaluations
9%
viruses
9%
ligands
9%
data
8%
benzoates
8%
diseases
8%
doses
8%
metabolites
8%
structure-activity relationships
8%
drugs
8%
inflammation
7%
antineoplastic drugs
7%
phenols
6%
solvents
6%
lungs
6%
prediction
6%
esterification
5%
flowers
5%
interactions
5%
Keyphrases
Gallic Acid
40%
Ethyl Acetate
32%
Cytotoxic Activity
29%
Antioxidant Activity
29%
Anticancer Activity
25%
Breast
24%
Molecular Docking
21%
IC50
20%
IC50 Value
20%
Phytochemical Analysis
18%
Indonesia
15%
MCF-7 Cancer Cells
15%
HCT116 Cells
14%
Eugenol
14%
Phytochemistry
14%
Ethanol
14%
Cytotoxicity
13%
In Silico Docking
13%
Gallic Acid Derivatives
13%
Thin Layer Chromatography
12%
Growth Inhibitor
12%
Breast Cancer
12%
Colon
12%
Gallate
12%
Seaweed
11%
Cancer Cells
11%
In Silico Study
11%
In Vitro Cytotoxicity
11%
Eucheuma
11%
Alkyl
11%
Cytotoxic Effect
10%
Apoptosis
10%
MCF-7
10%
Ethanolic Extract
10%
Eucheuma Cottonii
9%
Ethanol Extract
9%
Esterification
9%
N-hexane
9%
Colorectal Cancer
9%
Anticancer
9%
HT-29
9%
MTT Assay
9%
Cytotoxicity Test
9%
Ageratum Conyzoides
9%
Hexane Extract
8%
Monosodium Iodoacetate
8%
Cancer Agent
8%
Antioxidant
8%
Antimycin A3
8%
Anticancer Drugs
8%
Pharmacology, Toxicology and Pharmaceutical Science
Cytotoxicity
56%
Malignant Neoplasm
50%
Gallic Acid
39%
IC50
39%
Acetic Acid Ethyl Ester
36%
Phytochemical
32%
Antioxidant Capacity
30%
Breast Cancer
28%
Hexane
24%
Colorectal Carcinoma
17%
Antioxidant
17%
Carcinogen
16%
Eugenol
14%
Gallic Acid Derivative
13%
Colon Carcinoma
13%
Macroalga
12%
Phytochemistry
12%
Growth Inhibitor
12%
Flavonoid
11%
Citrinin
11%
Osteoarthritis
9%
Uterine Cervix Cancer
9%
Chloroform
8%
Ageratum Conyzoides
8%
Receptor
8%
Iodoacetic Acid
8%
Triterpenoid
8%
Rat Model
7%
Benzoic Acid Derivative
6%
Ester Derivative
6%
Proteoglycan
6%
Inflammation
6%
Anticarcinogen
6%
1,1 Diphenyl 2 Picrylhydrazyl
6%
Lung Cancer
5%
Diseases
5%
Gracilaria
5%
Annona muricata
5%
Antimalarial Activity
5%
Emodin
5%
Hepatitis B Virus
5%
Gelatinase B
5%
Quantitative Structure-Activity Relationship
5%
Network Pharmacology
5%
Sea lettuce
5%
Biological Activity
5%
Free Radical
5%
Benzoic Acid
5%