Biochemistry, Genetics and Molecular Biology
Phosphotransferase
100%
Kinase
100%
Elongation Factor 2 Kinase
83%
Elongation Factor 2
70%
Eukaryotic Elongation Factors
63%
TRPM7
52%
Protein Biosynthesis
50%
Protein Kinases
31%
Calmodulin
22%
Mouse Model
22%
Ion Channel
21%
Enzyme
16%
Genetics
13%
Receptor Potential
12%
Leporidae
12%
Eukaryote
12%
Enzyme Active Site
11%
Protein Degradation
11%
TRPM6
11%
Myosin
11%
Escherichia coli
10%
RNA Translation
10%
Cell Death
10%
Reticulocyte
10%
Translation Elongation
10%
Gene Expression
9%
Threonine
8%
Elongation Factor
8%
Copurification
8%
Programmed Cell Death
8%
Adenosine Triphosphate
8%
Nerve Cell Plasticity
7%
Homeostasis
7%
Serine
7%
Messenger RNA
7%
Cell Cycle
7%
Fibroblast
6%
Protein Kinase A
6%
Amino Acids
6%
Kinase A
6%
Synaptic Transmission
6%
Caenorhabditis Elegans
6%
Aminoacyl tRNA Synthetase
5%
RNA-binding Protein
5%
Amyloid Protein
5%
Downregulation
5%
RNA
5%
N-Terminus
5%
Long Term Potentiation
5%
Long Term Depression
5%
Keyphrases
EEF2
97%
Phosphorylation
77%
TRPM7
67%
Elongation Factor 2
53%
Elongation Factor 2 Kinase
43%
Protein Synthesis
32%
EEF2 Kinase
29%
Protein Kinase
27%
Ca2+
25%
Mg2+
23%
Channel Kinase
22%
Catalytic Domain
16%
Alzheimer's Disease Model
15%
Ion Channels
15%
Kinase Activity
12%
Calmodulin
12%
Disease Model Mice
12%
TRPM6
11%
Aging
11%
Reticulocytes
11%
Signaling Molecules
10%
Polyribosome
10%
Escherichia Coli
9%
Damaged Proteins
9%
α-kinase
9%
Alzheimer's Disease
9%
Pathophysiology
9%
Magnesium
9%
Protein Turnover
9%
Eukaryotes
9%
Cognitive Deficits
9%
Threonine
9%
Myosin II
9%
Cancer Progression
8%
EIF2
8%
Recombinant Human
8%
Annexin A1 (ANXA1)
8%
Gene Regulation
7%
Melanoma
7%
Oncogene
7%
Novel Types
7%
Warburg Effect
7%
Helix
7%
Protein Phosphatase 2A (PP2A)
7%
Mammalian Target of Rapamycin (mTOR)
7%
Tagless
7%
Protein Synthesis Inhibition
7%
Kinase Domain
7%
Translation Elongation Factor 1-α
7%
Kidney
7%
