Biochemistry, Genetics and Molecular Biology
Titin
99%
Skeletal Muscle
98%
Nebulin
97%
Muscle Contractility
43%
Rigidity
42%
Actin
42%
Mouse
38%
Tension
38%
Proteasome
28%
Troponin
26%
Exon
23%
Muscle Function
21%
Mouse Model
21%
Isoform
20%
Cardiac Muscle Cell
19%
Muscle Strength
18%
Ubiquitin
16%
Contractile Protein
16%
Tropomyosin
14%
Lifespan
12%
Heart Ejection Fraction
12%
Myogenesis
12%
Missense
11%
Knockout Mouse
11%
Myofibril
11%
Magnetism
11%
Motor Performance
10%
Genetics
10%
Heavy Meromyosin
10%
Oxidative Stress
9%
Gene Mutation
9%
Rat Model
9%
TPM2
9%
Muscle Relaxation
9%
Muscle Contraction
8%
Caspase 3
7%
Western Blot
7%
Synapsin I
7%
Protein Expression
7%
Transgenics
6%
Homogenate
6%
ZSF1 Rat
6%
Genotyping
6%
Monospecific Antibody
6%
Myosin ATPase
6%
Calpain-3
6%
Slowness
6%
Slow Muscle
6%
Animal Model
6%
Small Molecule
6%
Medicine and Dentistry
Diaphragm
100%
Weakness
50%
Diaphragm Muscle
47%
Nemaline Myopathy
36%
Muscle Weakness
28%
Skeletal Muscle
23%
Pulmonary Hypertension
21%
Continuous Positive Airway Pressure
19%
Nebulin
19%
Titin
18%
Troponin
17%
Sarcomere
17%
Muscle Contractility
16%
Facioscapulohumeral Muscular Dystrophy
14%
Muscle Function
12%
Artificial Respiration
12%
Isotopes of Calcium
11%
Thorax Surgery
11%
Myopathy
11%
Muscle Biopsy
10%
Chronic Obstructive Pulmonary Disease
10%
Hemidiaphragm
10%
Respiratory Muscle
9%
Levosimendan
9%
Biopsy
9%
Paralysis
8%
Ventilator Weaning
7%
Proteasome
7%
Muscle Strength
6%
Oxidative Stress
6%
Epileptic Absence
6%
Pathophysiology
5%
Tidal Volume
5%
Quality of Life
5%
Striated Muscle
5%
Gene Expression
5%
Ubiquitin
5%
Calcium Ion
5%
Keyphrases
Nemaline Myopathy
56%
Diaphragm
50%
Nebulin
35%
Titin
26%
Diaphragmatic Weakness
22%
Thin Filament
20%
Chronic Obstructive Pulmonary Disease
19%
Force Generation
18%
Mouse Model
16%
Actin
15%
Muscle Weakness
15%
Diaphragm Dysfunction
15%
Diaphragm muscle
15%
TPM3
13%
Muscle Fiber
12%
Diaphragm Atrophy
11%
Critically Ill Patients
11%
Myofiber
10%
Tirasemtiv
10%
Congenital Myopathy
10%
Sarcomere
9%
Pathogenic Variants
9%
Pulmonary Arterial Hypertension
9%
Skeletal muscle
9%
Myosin
9%
Ca2+ Sensitivity
8%
Filament Length
8%
Muscle Function
8%
Ca2+
8%
Troponin
7%
Muscle Force
6%
Skeletal muscle Function
6%
Ubiquitin-proteasome System
6%
Inactivity
6%
Cardiomyocytes
6%
Cross-bridge
6%
Single Fiber
6%
ACTA1
6%
Titin Isoforms
6%
Skeletal Disorders
6%
Mechanical Ventilation
5%
MuRF1
5%
Contractile Force
5%
Thoracic Surgery
5%
Forced Response
5%
Troponin Activator
5%
Muscle Mass
5%
Fast Skeletal muscle Troponin Activators
5%
Adaptation
5%
DARPin
5%