Biochemistry, Genetics and Molecular Biology
Dynamics
100%
Connexin
96%
Pulsed Electric Field
88%
Electric Potential
66%
Transmembrane Protein
39%
Molecular Modeling
37%
Molecular Model
37%
Electroporation
32%
Static Electricity
29%
Conformational Change
29%
Liquid Crystal
29%
Calcium Channel
29%
2-Methoxyestradiol
29%
Cell Division
29%
Hypoxia-Inducible Factors
29%
Structure Activity Relation
29%
Escherichia coli
29%
Gap Junction Protein
29%
Electric Field
22%
Amino Acids
19%
Site-Directed Mutagenesis
19%
Crystal Structure
17%
N-Terminus
14%
Channel Gating
13%
Pulse Rate
12%
Cell Proliferation
11%
Channel Protein
11%
Metabolite
10%
Second Messenger System
9%
Signal Recognition Particle Receptor
9%
Adenosine Triphosphate
9%
Electrophysiology
9%
Genetics
9%
FtsZ
9%
FtsA
9%
Periplasm
9%
Peptidoglycan
9%
Ternary Complex
9%
Cell Membrane
9%
Protein Complexes
9%
Coiled Coil
9%
Wild Type
7%
Nav1.5
7%
Biomembrane
7%
Lyotropic Liquid Crystal
7%
Electrical Synapse
7%
Structural Database
7%
Isoform
7%
Biological Functions
7%
Homeostasis
7%
Medicine and Dentistry
Hearing Impairment
59%
Calcium Ion
40%
Connexin 26
33%
Organ of Corti
29%
Ichthyosis
29%
Keratitis
29%
Ion Channel
29%
Cell Proliferation
29%
Heteromer
29%
T-Helper Cell
29%
Colon Mucosa
29%
Chemokine Receptor CCR9
29%
Dopamine Receptor
29%
Gap Junction Protein
20%
Amino Terminal Sequence
19%
Inflammatory Bowel Disease
17%
Programmed Cell Death
14%
Cancer Therapy
14%
Germination
14%
Cell Differentiation
14%
Wound Healing
14%
Activation of Immune Response
14%
Pulse Rate
14%
Gene Expression
14%
Electrostimulation
14%
Antiparasitic Agent
14%
T Cell
11%
Cochlea
11%
In Vitro
9%
Hair Cell
7%
Cellular Mechanism
5%
Chronic Inflammation
5%
Gastrointestinal Tract
5%
Cell Surface
5%
Myosin Light Chain 2
5%
In Silico
5%
Colonic Lamina Propria
5%
Immunology and Microbiology
Pulsed Electric Field
59%
Electric Potential
37%
2 Methoxyestradiol
29%
Hypoxia Inducible Factor
29%
Connexin
29%
Cell Division
29%
Conformational Transition
29%
Calcium Channel
29%
Escherichia coli
29%
Electric Field
19%
Amino Terminal Sequence
14%
Channel Gating
13%
Cell Proliferation
11%
Peptidoglycan
9%
Cell Membrane
9%
Periplasmic Space
9%
Pulse Rate
9%
Dynamics
7%
Wild Type
7%
Voltage-Gated Calcium Channels
6%
Gene Expression
5%
Wound Healing
5%
Germination
5%
Cell Differentiation
5%
Activation of Immune Response
5%
Antiparasitic Agent
5%
Antiangiogenic Activity
5%
Luteolysis
5%