Polystyrene is formed from only one monomer - styrene.
A polymer - specifically a homopolymer
myosin and actin
Thick - it is the length of myosin.
Most myosin molecules are composed of both a head and a tail domain.
Homo
Actin and myosin
Myosin makes up the THICK filaments, and actin makes up the thin filaments of myofibrils.
The thick filament is composed of the myosin molecule. The thin filament is composed of the actin molecule. Flexing the head of myosin provides the powerstroke.
Polystyrene is formed from only one monomer - styrene.
A polymer - specifically a homopolymer
Myosin is responsible for actin-based muscular mobility/contraction.
Homopolypropylene is made up of only propylene monomer units, while copolypropylene contains a mixture of propylene and other comonomer monomer units. This difference in composition results in variations in properties such as melting point, density, and chemical resistance between homo and copolypropylene materials. Copolypropylene is often used to improve impact resistance and flexibility compared to homopolypropylene.
is antagonized by the actions of myosin phosphatase
myosin crossbridge binding
Myosin
The two muscle filaments are Myosin and Actin. Myosin is the thicker of the two. When a muscle contracts, a hook like particle extends off the myosin and grabs the actin pulling it in causing the contraction/ tension of the muscle