Keyphrases
Molecular Mechanism
100%
Cardiac Contractility
100%
Myosin-binding Protein C
100%
Thick Filament
66%
Phosphorylation
55%
Binding Partners
44%
Myosin Head
44%
Actomyosin
33%
Thin Filament
33%
Health-related Research
25%
Head Region
22%
N-terminal Domain
22%
Motility
22%
Actin
22%
Nanotubes
22%
N-terminus
22%
Biomedical Science
12%
Hands-on Research
12%
Mentorship
12%
Undergraduate Students
12%
Science Communication
12%
Coaching
12%
Specific Intent
11%
Hypertrophic Cardiomyopathy
11%
Physiologically Relevant
11%
Mutagenesis
11%
DNA Nanodevice
11%
Sequester
11%
Cardiac Performance
11%
Functional Impact
11%
Failing Heart
11%
Partner Interaction
11%
Power Generation
11%
Force Generation
11%
Associated Proteins
11%
Tunability
11%
Transgenic Mice
11%
Cardiac Myosin
11%
Domain Structure
11%
Ca2+ Dependence
11%
DNA Sequencing
11%
Cardiac Structure
11%
Atomic Force Microscopy
11%
Adrenergic Stimulation
11%
Operation Mode
11%
Targeted Therapy
11%
Thin Layer Activation
11%
Myosin
11%
Molecular Mechanics
11%
Laser Trapping
11%
Cardiac Function
11%
ATP Turnover
11%
Human Cardiac Myosin
11%
Spatial Positioning
11%
Motion Generation
11%
Medicine and Dentistry
Heart Muscle Contractility
100%
Cardiac Myosin
100%
Amino Terminal Sequence
36%
Thin Filament
36%
Nanotube
27%
Myosin Adenosine Triphosphatase
27%
Actin
18%
Hypertrophic Cardiomyopathy
9%
Heart Performance
9%
Calcium Ion
9%
Targeted Therapy
9%
Transgenic Mouse
9%
Mutagenesis
9%
Adrenergic Stimulation
9%
Atomic Force Microscopy
9%
Adenosine Triphosphate
9%
Biochemistry, Genetics and Molecular Biology
Heart Muscle Contractility
100%
N-Terminus
44%
Myosin Head
44%
Myosin ATPase
33%
Actin
22%
Myofibril
22%
Mutagenesis
11%
Optical Tweezers
11%
Heart Performance
11%
Molecular Mechanic
11%
Adenosine Triphosphate
11%
Motion
11%
Atomic Force Microscopy
11%
Adrenergic Stimulation
11%
Transgenic Mouse
11%