238240
Rigidity that develops in the muscle after death is known as
1 twitch
2 treppe
3 tetanus
4 Rigor Mortis
Explanation:
Rigidity that develops in the muscles after death is known as - Rigor Mortis. It occurs because the oxygen concentration is decrease fastly and the ATP level is less down in body. It is possibly one of the most well known of the taphonomic changes and is the process that causes the muscles in the body to stiffen resulting in rigidity due to a range of chemical changes in the muscle structure.
Manipal-2011
Locomotion and Movement
238241
Skeletal muscles show resemblance with visceral muscles in one aspect. It is in:
1 shape of muscle fibres
2 number of nuclei muscle fibres
3 presence of actin and myosin filaments
4 presence of light and dark band
Explanation:
A characteristic feature of the muscle fiber is the presence of a large number of parallelly arranged filament called myofibrils. Myofibril has established that the striated appearance is due to the distribution pattern of two important proteins actin and myosin. While in visceral muscles actin and myosin filament is not present.
JIPMER-1998
Locomotion and Movement
238242
Which of the following forms thick filament of muscles?
1 Actin
2 Troponin
3 Tropomyosin
4 Myosin
Explanation:
Thick filament of muscles is myosin each myosin (thick) filament is also a polymerized protein.
UP CPMT-2012
Locomotion and Movement
238243
In the resting muscle fibre, tropomyosin partially covers
1 calcium binding sites on troponin
2 actin binding sites on myosin
3 myosin binding sites on actin
4 calcium binding sites on actin
Explanation:
In the resting muscle fiber, tropomyosin partially cover myosin binding sites on actin. Tropomysin is a protein that is found in the actin filaments of muscles. It is a long, rod-shaped molecule, that binds around the actin filament, partially covering the myosin molecules from the myosin-binding sites.
AMU-2010
Locomotion and Movement
238246
The important muscle proteins that help in movement are
1 actin and myosin
2 tropomyosin
3 troponin
4 All of these
Explanation:
Actin and myosin, tropomyosin troponin all are important muscle protein that help in movement. In movement of muscle troponin and tropomyosin are associated with the thin actin filaments and specific light chain is regulatory subunit of myosin itself.
238240
Rigidity that develops in the muscle after death is known as
1 twitch
2 treppe
3 tetanus
4 Rigor Mortis
Explanation:
Rigidity that develops in the muscles after death is known as - Rigor Mortis. It occurs because the oxygen concentration is decrease fastly and the ATP level is less down in body. It is possibly one of the most well known of the taphonomic changes and is the process that causes the muscles in the body to stiffen resulting in rigidity due to a range of chemical changes in the muscle structure.
Manipal-2011
Locomotion and Movement
238241
Skeletal muscles show resemblance with visceral muscles in one aspect. It is in:
1 shape of muscle fibres
2 number of nuclei muscle fibres
3 presence of actin and myosin filaments
4 presence of light and dark band
Explanation:
A characteristic feature of the muscle fiber is the presence of a large number of parallelly arranged filament called myofibrils. Myofibril has established that the striated appearance is due to the distribution pattern of two important proteins actin and myosin. While in visceral muscles actin and myosin filament is not present.
JIPMER-1998
Locomotion and Movement
238242
Which of the following forms thick filament of muscles?
1 Actin
2 Troponin
3 Tropomyosin
4 Myosin
Explanation:
Thick filament of muscles is myosin each myosin (thick) filament is also a polymerized protein.
UP CPMT-2012
Locomotion and Movement
238243
In the resting muscle fibre, tropomyosin partially covers
1 calcium binding sites on troponin
2 actin binding sites on myosin
3 myosin binding sites on actin
4 calcium binding sites on actin
Explanation:
In the resting muscle fiber, tropomyosin partially cover myosin binding sites on actin. Tropomysin is a protein that is found in the actin filaments of muscles. It is a long, rod-shaped molecule, that binds around the actin filament, partially covering the myosin molecules from the myosin-binding sites.
AMU-2010
Locomotion and Movement
238246
The important muscle proteins that help in movement are
1 actin and myosin
2 tropomyosin
3 troponin
4 All of these
Explanation:
Actin and myosin, tropomyosin troponin all are important muscle protein that help in movement. In movement of muscle troponin and tropomyosin are associated with the thin actin filaments and specific light chain is regulatory subunit of myosin itself.
238240
Rigidity that develops in the muscle after death is known as
1 twitch
2 treppe
3 tetanus
4 Rigor Mortis
Explanation:
Rigidity that develops in the muscles after death is known as - Rigor Mortis. It occurs because the oxygen concentration is decrease fastly and the ATP level is less down in body. It is possibly one of the most well known of the taphonomic changes and is the process that causes the muscles in the body to stiffen resulting in rigidity due to a range of chemical changes in the muscle structure.
Manipal-2011
Locomotion and Movement
238241
Skeletal muscles show resemblance with visceral muscles in one aspect. It is in:
1 shape of muscle fibres
2 number of nuclei muscle fibres
3 presence of actin and myosin filaments
4 presence of light and dark band
Explanation:
A characteristic feature of the muscle fiber is the presence of a large number of parallelly arranged filament called myofibrils. Myofibril has established that the striated appearance is due to the distribution pattern of two important proteins actin and myosin. While in visceral muscles actin and myosin filament is not present.
JIPMER-1998
Locomotion and Movement
238242
Which of the following forms thick filament of muscles?
1 Actin
2 Troponin
3 Tropomyosin
4 Myosin
Explanation:
Thick filament of muscles is myosin each myosin (thick) filament is also a polymerized protein.
UP CPMT-2012
Locomotion and Movement
238243
In the resting muscle fibre, tropomyosin partially covers
1 calcium binding sites on troponin
2 actin binding sites on myosin
3 myosin binding sites on actin
4 calcium binding sites on actin
Explanation:
In the resting muscle fiber, tropomyosin partially cover myosin binding sites on actin. Tropomysin is a protein that is found in the actin filaments of muscles. It is a long, rod-shaped molecule, that binds around the actin filament, partially covering the myosin molecules from the myosin-binding sites.
AMU-2010
Locomotion and Movement
238246
The important muscle proteins that help in movement are
1 actin and myosin
2 tropomyosin
3 troponin
4 All of these
Explanation:
Actin and myosin, tropomyosin troponin all are important muscle protein that help in movement. In movement of muscle troponin and tropomyosin are associated with the thin actin filaments and specific light chain is regulatory subunit of myosin itself.
238240
Rigidity that develops in the muscle after death is known as
1 twitch
2 treppe
3 tetanus
4 Rigor Mortis
Explanation:
Rigidity that develops in the muscles after death is known as - Rigor Mortis. It occurs because the oxygen concentration is decrease fastly and the ATP level is less down in body. It is possibly one of the most well known of the taphonomic changes and is the process that causes the muscles in the body to stiffen resulting in rigidity due to a range of chemical changes in the muscle structure.
Manipal-2011
Locomotion and Movement
238241
Skeletal muscles show resemblance with visceral muscles in one aspect. It is in:
1 shape of muscle fibres
2 number of nuclei muscle fibres
3 presence of actin and myosin filaments
4 presence of light and dark band
Explanation:
A characteristic feature of the muscle fiber is the presence of a large number of parallelly arranged filament called myofibrils. Myofibril has established that the striated appearance is due to the distribution pattern of two important proteins actin and myosin. While in visceral muscles actin and myosin filament is not present.
JIPMER-1998
Locomotion and Movement
238242
Which of the following forms thick filament of muscles?
1 Actin
2 Troponin
3 Tropomyosin
4 Myosin
Explanation:
Thick filament of muscles is myosin each myosin (thick) filament is also a polymerized protein.
UP CPMT-2012
Locomotion and Movement
238243
In the resting muscle fibre, tropomyosin partially covers
1 calcium binding sites on troponin
2 actin binding sites on myosin
3 myosin binding sites on actin
4 calcium binding sites on actin
Explanation:
In the resting muscle fiber, tropomyosin partially cover myosin binding sites on actin. Tropomysin is a protein that is found in the actin filaments of muscles. It is a long, rod-shaped molecule, that binds around the actin filament, partially covering the myosin molecules from the myosin-binding sites.
AMU-2010
Locomotion and Movement
238246
The important muscle proteins that help in movement are
1 actin and myosin
2 tropomyosin
3 troponin
4 All of these
Explanation:
Actin and myosin, tropomyosin troponin all are important muscle protein that help in movement. In movement of muscle troponin and tropomyosin are associated with the thin actin filaments and specific light chain is regulatory subunit of myosin itself.
238240
Rigidity that develops in the muscle after death is known as
1 twitch
2 treppe
3 tetanus
4 Rigor Mortis
Explanation:
Rigidity that develops in the muscles after death is known as - Rigor Mortis. It occurs because the oxygen concentration is decrease fastly and the ATP level is less down in body. It is possibly one of the most well known of the taphonomic changes and is the process that causes the muscles in the body to stiffen resulting in rigidity due to a range of chemical changes in the muscle structure.
Manipal-2011
Locomotion and Movement
238241
Skeletal muscles show resemblance with visceral muscles in one aspect. It is in:
1 shape of muscle fibres
2 number of nuclei muscle fibres
3 presence of actin and myosin filaments
4 presence of light and dark band
Explanation:
A characteristic feature of the muscle fiber is the presence of a large number of parallelly arranged filament called myofibrils. Myofibril has established that the striated appearance is due to the distribution pattern of two important proteins actin and myosin. While in visceral muscles actin and myosin filament is not present.
JIPMER-1998
Locomotion and Movement
238242
Which of the following forms thick filament of muscles?
1 Actin
2 Troponin
3 Tropomyosin
4 Myosin
Explanation:
Thick filament of muscles is myosin each myosin (thick) filament is also a polymerized protein.
UP CPMT-2012
Locomotion and Movement
238243
In the resting muscle fibre, tropomyosin partially covers
1 calcium binding sites on troponin
2 actin binding sites on myosin
3 myosin binding sites on actin
4 calcium binding sites on actin
Explanation:
In the resting muscle fiber, tropomyosin partially cover myosin binding sites on actin. Tropomysin is a protein that is found in the actin filaments of muscles. It is a long, rod-shaped molecule, that binds around the actin filament, partially covering the myosin molecules from the myosin-binding sites.
AMU-2010
Locomotion and Movement
238246
The important muscle proteins that help in movement are
1 actin and myosin
2 tropomyosin
3 troponin
4 All of these
Explanation:
Actin and myosin, tropomyosin troponin all are important muscle protein that help in movement. In movement of muscle troponin and tropomyosin are associated with the thin actin filaments and specific light chain is regulatory subunit of myosin itself.
