Muscle Contraction in a sentence

(1) ATP is essential for muscle contraction.

(2) The motoneuron sustains muscle contraction.

(3) Potassium is involved in muscle contraction.

(4) The motoneuron activates muscle contraction.

(5) Potassium is important for muscle contraction.

(6) Autacoid can affect smooth muscle contraction.

(7) Bradykinin can cause smooth muscle contraction.

(8) The A-band is important for muscle contraction.

(9) The sarcomere shortens during muscle contraction.

(10) Actomyosin is responsible for muscle contraction.

Muscle Contraction sentence

(11) Somatic cells are involved in muscle contraction.

(12) Myosins play a crucial role in muscle contraction.

(13) Actin filaments are involved in muscle contraction.

(14) Calciums play a crucial role in muscle contraction.

(15) Calcium plays a crucial role in muscle contraction.

(16) Some autacoids can cause smooth muscle contraction.

(17) Binding calcium is essential for muscle contraction.

(18) Troponin plays a crucial role in muscle contraction.

(19) Phosphocreatine is essential for muscle contraction.

(20) Bradykinin can also cause smooth muscle contraction.

Muscle Contraction make sentence

(21) The mitochondrion is involved in muscle contraction.

(22) Potassium is necessary for proper muscle contraction.

(23) Myofibrils play a crucial role in muscle contraction.

(24) Actomyosin generates force during muscle contraction.

(25) Motor fibers facilitate efficient muscle contraction.

(26) Sarcomeres are the basic units of muscle contraction.

(27) The cytoskeleton is important for muscle contraction.

(28) The sarcomere is the basic unit of muscle contraction.

(29) Calcium transport is essential for muscle contraction.

(30) The myofibril is the basic unit of muscle contraction.

Sentence of muscle contraction

(31) Calcium is important for enhancing muscle contraction.

(32) Nicotinic receptors are involved in muscle contraction.

(33) The firing of a motoneuron triggers muscle contraction.

(34) Creatine phosphate is important for muscle contraction.

(35) Biophysicists study the mechanics of muscle contraction.

(36) The myofibrilla is the basic unit of muscle contraction.

(37) ATPase is involved in muscle contraction and relaxation.

(38) Adenosine triphosphate is involved in muscle contraction.

(39) The shortening of sarcomeres leads to muscle contraction.

(40) Motor fibers transmit information for muscle contraction.

Muscle Contraction meaningful sentence

(41) Tetrodotoxin is a potent inhibitor of muscle contraction.

(42) Adp is a molecule that is involved in muscle contraction.

(43) Actins are involved in muscle contraction and relaxation.

(44) Muscle contraction is necessary for lifting heavy objects.

(45) Depolarisations play a crucial role in muscle contraction.

(46) Depolarizations play a crucial role in muscle contraction.

(47) The sarcolemma plays a crucial role in muscle contraction.

(48) The perimysium plays a crucial role in muscle contraction.

(49) The sarcomere is the site where muscle contraction occurs.

(50) The A-band is shorter in length during muscle contraction.

Muscle Contraction sentence examples

(51) Adenyls are involved in the process of muscle contraction.

(52) Muscle contraction is controlled by signals from the brain.

(53) Myofibrillar proteins are essential for muscle contraction.

(54) The release of autocoid triggers smooth muscle contraction.

(55) Catabolite utilization is essential for muscle contraction.

(56) Adenosine is involved in the process of muscle contraction.

(57) The sarcolemmal integrity is crucial for muscle contraction.

(58) The breakdown of ATP releases energy for muscle contraction.

(59) Depolarization is an important aspect of muscle contraction.

(60) Muscle contraction is essential for maintaining good posture.

Sentence with muscle contraction

(61) The secretion of calcium is necessary for muscle contraction.

(62) Myofibrils are essential for muscle contraction and movement.

(63) Actomyosin is crucial for muscle contraction during exercise.

(64) The transport of potassium is crucial for muscle contraction.

(65) Autocoids like histamine can cause smooth muscle contraction.

(66) The bioblasts in the muscle cells help in muscle contraction.

(67) The monopolar stimulation caused a strong muscle contraction.

(68) The sarcolemmal membrane is essential for muscle contraction.

(69) The transport of calcium is essential for muscle contraction.

(70) Calcium ions bind to troponin to initiate muscle contraction.

Use muscle contraction in a sentence

(71) The meatuses in the muscular system aid in muscle contraction.

(72) The galvanically stimulated nerve caused a muscle contraction.

(73) Adenosine is involved in the regulation of muscle contraction.

(74) The biology lab focused on the fascicle of muscle contraction.

(75) Contractile proteins play a crucial role in muscle contraction.

(76) ATPase plays a vital role in muscle contraction and relaxation.

(77) Muscle contraction is responsible for the beating of the heart.

(78) Calmodulin is involved in the regulation of muscle contraction.

(79) Malates are important for the regulation of muscle contraction.

(80) Adenylates are important for muscle contraction and relaxation.

Sentence using muscle contraction

(81) Microfilament is responsible for muscle contraction in animals.

(82) Chloride plays a role in nerve function and muscle contraction.

(83) Determine the efferent fiber's influence on muscle contraction.

(84) Troponin plays a crucial role in regulating muscle contraction.

(85) Autacoids like bradykinin can induce smooth muscle contraction.

(86) The A-band is involved in the regulation of muscle contraction.

(87) Leukotrienes can cause smooth muscle contraction in the airways.

(88) Muscle contraction is necessary for chewing and swallowing food.

(89) Muscle contraction is responsible for the movement of the limbs.

(90) The agonist molecule plays a crucial role in muscle contraction.

Muscle Contraction example sentence

(91) Sarcomeres are the basic functional units of muscle contraction.

(92) The sliding of sarcomeres is responsible for muscle contraction.

(93) The binding of calcium to troponin initiates muscle contraction.

(94) Bioelectricity is involved in the process of muscle contraction.

(95) The firing of an electrical impulse triggers muscle contraction.

(96) Adenylates are involved in the regulation of muscle contraction.

(97) ATP is used in the process of muscle contraction and relaxation.

(98) Infolding of the sarcolemma is necessary for muscle contraction.

(99) Myosin interacts with tropomyosin to regulate muscle contraction.

(100) Sarcomeres are responsible for muscle contraction and relaxation.

Sentence with word muscle contraction

(101) The presence of triphosphate is necessary for muscle contraction.

(102) Ganglionic activation can result in increased muscle contraction.

(103) The endplate is crucial for the initiation of muscle contraction.

(104) The structure of myofibrilla is essential for muscle contraction.

(105) The cytoskeletal elements are responsible for muscle contraction.

(106) The biological process of muscle contraction allows for movement.

(107) The activation of motoneurons is essential for muscle contraction.

(108) The cytosolic calcium levels are important for muscle contraction.

(109) Myoneural transmission is essential for proper muscle contraction.

(110) Vasopressin can cause smooth muscle contraction in various organs.

Sentence of muscle contraction

(111) If the motoneuron is inhibited, it can prevent muscle contraction.

(112) The rho kinase is an enzyme involved in smooth muscle contraction.

(113) The compound protein myosin is responsible for muscle contraction.

(114) Depolarisation is a key step in the process of muscle contraction.

(115) Adenosine is a key component in the process of muscle contraction.

(116) Cholinergic neurotransmission is important for muscle contraction.

(117) Creatine phosphate is an essential molecule for muscle contraction.

(118) The parathyroid hormone is essential for proper muscle contraction.

(119) Muscle contraction can be affected by certain medications or drugs.

(120) Tropomyosin interacts with troponin to regulate muscle contraction.

Muscle Contraction used in a sentence

(121) The sarcolemmal proteins play a crucial role in muscle contraction.

(122) Myology provides insights into the mechanics of muscle contraction.

(123) Sarcomeres are regulated by calcium ions during muscle contraction.

(124) The aponeurotic attachment allows for efficient muscle contraction.

(125) The sarcomere is responsible for muscle contraction and relaxation.

(126) The efferent fiber carries signals that control muscle contraction.

(127) The sarcosomal membrane plays a crucial role in muscle contraction.

(128) ATP is involved in the process of muscle contraction and relaxation.

(129) Calcium is an essential alkaline earth metal for muscle contraction.

(130) The sarcolemma is rich in proteins necessary for muscle contraction.

Muscle Contraction sentence in English

(131) Scientists are studying the role of fibrillae in muscle contraction.

(132) Investigate the effects of eicosanoids on smooth muscle contraction.

(133) The breakdown of diphosphate provides energy for muscle contraction.

(134) Intracellular calcium signaling is important for muscle contraction.

(135) Muscle contraction is a vital process for movement in the human body.

(136) The process of muscle contraction requires energy in the form of ATP.

(137) The regulation of calcium is essential for proper muscle contraction.

(138) The organic process of muscle contraction allows movement in animals.

(139) The metabolism of calcium plays a crucial role in muscle contraction.

(140) Downregulation of certain ion channels can affect muscle contraction.

(141) The motor end plate is responsible for initiating muscle contraction.

(142) If autacoids are released, they can induce smooth muscle contraction.

(143) Calmodulin plays a crucial role in muscle contraction and relaxation.

(144) The activation of nicotinic receptors can lead to muscle contraction.

(145) The sarcosomal glycogen stores provide energy for muscle contraction.

(146) The sarcoplasmic reticulum plays a crucial role in muscle contraction.

(147) Depolarisation is a key event in the initiation of muscle contraction.

(148) The organization of fibrillae allows for efficient muscle contraction.

(149) The efferent nerve transmits signals that initiate muscle contraction.

(150) The transport of potassium is essential for proper muscle contraction.

(151) Although the motoneuron fires rapidly, the muscle contraction is weak.

(152) The motor nerve is responsible for muscle contraction during exercise.

(153) The mononucleated muscle cells are responsible for muscle contraction.

(154) The depolarization of the muscle fibers allows for muscle contraction.

(155) The depolarization of the motor end plate triggers muscle contraction.

(156) Muscle contraction is necessary for breathing and respiratory function.

(157) Muscle contraction is necessary for the production of heat in the body.

(158) The cytosolic concentration of calcium ions affects muscle contraction.

(159) The binding of calcium to proteins is essential for muscle contraction.

(160) The structure of meromyosin plays a crucial role in muscle contraction.

(161) The binding of acetylcholines to receptors triggers muscle contraction.

(162) The divalent cation calcium plays a crucial role in muscle contraction.

(163) The cytosolic calcium levels play a crucial role in muscle contraction.

(164) The myoneural junction is critical for muscle contraction and movement.

(165) The process of muscle contraction involves the release of calcium ions.

(166) Depolarization is a critical step in the process of muscle contraction.

(167) Creatine phosphate is an important energy source for muscle contraction.

(168) Eicosanoids are involved in the regulation of smooth muscle contraction.

(169) Muscle contraction is a key factor in maintaining balance and stability.

(170) Alkaline-earths are essential for nerve function and muscle contraction.

(171) If the efferent fiber is stimulated, the muscle contraction will follow.

(172) Lack of vitamin E can inhibit calcium utilization in muscle contraction.

(173) Adenosine triphosphate is essential for muscle contraction and movement.

(174) The molecular structure of myosin is responsible for muscle contraction.

(175) Intracellularly, calcium ions play a crucial role in muscle contraction.

(176) The sarcoplasmic reticulum is essential for muscle contraction to occur.

(177) Depolarization is a necessary step in the process of muscle contraction.

(178) Adrenergic signaling is involved in regulating smooth muscle contraction.

(179) Calcic ions play a crucial role in nerve function and muscle contraction.

(180) Tropomyosin is a protein that plays a crucial role in muscle contraction.

(181) Sarcomeres are essential for muscle contraction during physical activity.

(182) The researcher activated the electrode to trigger the muscle contraction.

(183) Prostaglandin is involved in the regulation of smooth muscle contraction.

(184) The transport of calcium ions is necessary for proper muscle contraction.

(185) Calcium transport is essential for muscle contraction and nerve function.

(186) The motor end plate is essential for the initiation of muscle contraction.

(187) The monaxial movement of a sliding filament allows for muscle contraction.

(188) The proteins within myofibrilla play a crucial role in muscle contraction.

(189) Researchers use the myograph to study the mechanics of muscle contraction.

(190) The myogram displayed a decrease in muscle contraction speed after injury.

(191) If the efferent fiber is damaged, the muscle contraction will be weakened.

(192) Calcium ions play a crucial role in muscle contraction and nerve function.

(193) The firing of the action potentials is what allows for muscle contraction.

(194) The sarcoplasmic reticulum releases calcium ions during muscle contraction.

(195) The process of muscle contraction can be enhanced through regular exercise.

(196) The intensity of muscle contraction can be measured using electromyography.

(197) The nerves send electrical impulses distally to control muscle contraction.

(198) Wow, chlorid plays a crucial role in nerve function and muscle contraction!

(199) Eicosanoids can influence smooth muscle contraction if released in the gut.

(200) The rheobase can be used to determine the threshold for muscle contraction.

(201) The neuromuscular junction is critical for muscle contraction and movement.

(202) Sarcoplasmic calcium release is essential for initiating muscle contraction.

(203) The release of acetylcholine is crucial for muscle contraction and movement.

(204) Muscle contraction is an essential component of strength training exercises.

(205) The process of muscle contraction can be affected by nerve damage or injury.

(206) The neurohumoral control of muscle contraction ensures coordinated movement.

(207) The motor end plate is a key component in the process of muscle contraction.

(208) The release of calcium is crucial for muscle contraction and nerve function.

(209) The motor end plate is a site of intense activity during muscle contraction.

(210) The A-band is responsible for the force generated during muscle contraction.

(211) The A-band is involved in the sliding filament theory of muscle contraction.

(212) Meromyosin is involved in the sliding filament theory of muscle contraction.

(213) Proper transport of calcium is crucial for muscle contraction and relaxation.

(214) The beta receptor is involved in the regulation of smooth muscle contraction.

(215) The process of muscle contraction can be impaired by muscle cramps or spasms.

(216) Optical tweezers have been used to study the mechanics of muscle contraction.

(217) It is recommended to build up potassium levels for proper muscle contraction.

(218) Actomyosin is essential for muscle contraction in response to nerve impulses.

(219) The body process of muscle contraction allows movement and physical activity.

(220) Phosphodiesterase is involved in the regulation of smooth muscle contraction.

(221) The ability to synthesize calcium is essential for proper muscle contraction.

(222) The motor nerve transmits electrical impulses to initiate muscle contraction.

(223) Carbamylcholine is a neurotransmitter that is involved in muscle contraction.

(224) Phosphodiesterase plays a role in the regulation of smooth muscle contraction.

(225) The coordination of muscle contraction allows us to perform precise movements.

(226) The endplate potential is a crucial step in the process of muscle contraction.

(227) The activation of acetylcholine receptors is essential for muscle contraction.

(228) Biophysical methods are employed to study the mechanics of muscle contraction.

(229) The activity of acetylcholinesterase is crucial for proper muscle contraction.

(230) The re-uptake of acetylcholine is involved in muscle contraction and movement.

(231) Carbamoylcholine is a neurotransmitter that is involved in muscle contraction.

(232) Myosin is responsible for generating the force required for muscle contraction.

(233) Phosphodiesterases are involved in the regulation of smooth muscle contraction.

(234) Bronchiolar smooth muscle contraction can be controlled by certain medications.

(235) Zinc, along with calcium, is involved in muscle contraction and nerve function.

(236) The arrangement of muscle-fibre determines the direction of muscle contraction.

(237) The motor end plate is a crucial site for the initiation of muscle contraction.

(238) The process of catabolizing proteins can release energy for muscle contraction.

(239) The patient's manometry results indicated a weak esophageal muscle contraction.

(240) Myocytes are rich in mitochondria, which provide energy for muscle contraction.

(241) The sarcomere, the basic unit of muscle contraction, is composed of myofibrils.

(242) The length of tropomyosin molecules determines the extent of muscle contraction.

(243) It is essential to incorporate sodium in our diet for proper muscle contraction.

(244) The endplate potential is an electrical signal that triggers muscle contraction.

(245) Bombesin is known to play a role in the regulation of smooth muscle contraction.

(246) The troponin complex interacts with calcium ions to initiate muscle contraction.

(247) Provided that the efferent fiber is unharmed, the muscle contraction will occur.

(248) Calcium transport is necessary for proper muscle contraction and nerve function.

(249) Mast cell mediators can cause smooth muscle contraction and bronchoconstriction.

(250) The sports science class discussed the concentric circles of muscle contraction.

(251) Actomyosin is a protein complex that plays a crucial role in muscle contraction.

(252) The interaction between actin and meromyosin is the basis of muscle contraction.

(253) The exergonic reaction of muscle contraction is powered by the breakdown of ATP.

(254) The contractile proteins actin and myosin interact to produce muscle contraction.

(255) The motor end plate is a critical component in the process of muscle contraction.

(256) Muscle contraction is an involuntary action that occurs without conscious effort.

(257) The sarcoplasmic reticulum plays a crucial role in regulating muscle contraction.

(258) Tricalcium is an essential mineral for nerve transmission and muscle contraction.

(259) The anterior root is responsible for transmitting signals for muscle contraction.

(260) The binding of meromyosin to actin filaments is a key step in muscle contraction.

(261) The body process of muscle contraction allows for movement and physical activity.

(262) The resorption of calcium is necessary for muscle contraction and nerve function.

(263) The endplate potential is the electrical signal that triggers muscle contraction.

(264) Meromyosin is a protein fragment that plays a crucial role in muscle contraction.

(265) The force generated during muscle contraction can be measured using a dynamometer.

(266) The endplate potential is a crucial event in the initiation of muscle contraction.

(267) The ergograph provides valuable insights into the mechanics of muscle contraction.

(268) Provided that the efferent fiber is intact, the muscle contraction will be smooth.

(269) Sarcoplasm contains various proteins and enzymes necessary for muscle contraction.

(270) The myofibrillar proteins actin and myosin are responsible for muscle contraction.

(271) Calcium modulation is a key factor in the regulation of smooth muscle contraction.

(272) The binucleated cells in the muscle tissue are responsible for muscle contraction.

(273) The presence of tropomyosin is essential for the regulation of muscle contraction.

(274) The theca of the muscle fiber helps to regulate muscle contraction and relaxation.

(275) Myosin is responsible for the sliding of actin filaments during muscle contraction.

(276) The process of muscle contraction allows us to perform various physical activities.

(277) Catabolic reactions occur during exercise to provide energy for muscle contraction.

(278) The secretion of calcium is necessary for proper muscle contraction and relaxation.

(279) The electrogenic potential of the muscle cells is essential for muscle contraction.

(280) The process of muscle contraction can be influenced by hormonal changes in the body.

(281) The myotome is responsible for generating the force required for muscle contraction.

(282) The ATPase enzyme is responsible for the breakdown of ATP during muscle contraction.

(283) The firing rate of the motoneuron determines the strength of the muscle contraction.

(284) Provided that the efferent fiber is unharmed, the muscle contraction will be strong.

(285) Adenosine diphosphate is an important molecule in the process of muscle contraction.

(286) The antiparallel arrangement of actin filaments is important for muscle contraction.

(287) The sarcoplasmic reticulum is crucial for the relaxation phase of muscle contraction.

(288) Biophysics plays a crucial role in understanding the mechanics of muscle contraction.

(289) The speed of muscle contraction can be improved through specific training techniques.

(290) The secretion of calcium is also important for muscle contraction and nerve function.

(291) Calcium-binding proteins are also involved in muscle contraction and nerve signaling.

(292) The sarcoplasmic reticulum stores and releases calcium ions during muscle contraction.

(293) The sarcoplasm contains various proteins and enzymes necessary for muscle contraction.

(294) The myofibril is responsible for generating the force required for muscle contraction.

(295) The transport of calcium ions across cell membranes is crucial for muscle contraction.

(296) Sodium is an alkali metal that is essential for nerve function and muscle contraction.

(297) The myogram data provided valuable insights into the mechanisms of muscle contraction.

(298) The regulation of calcium is also important for muscle contraction and nerve function.

(299) Acetylcholine is released at the neuromuscular junction to initiate muscle contraction.

(300) The alignment of fibrillae determines the strength and direction of muscle contraction.

(301) It is recommended to hold on to phosphate to support muscle contraction and relaxation.

(302) Each myocyte contains numerous contractile proteins responsible for muscle contraction.

(303) The motor end plate is a site of intense electrical activity during muscle contraction.

(304) Sarcomeres are highly organized structures that allow for efficient muscle contraction.

(305) The researcher used electrical stimulations to study the effects on muscle contraction.

(306) Filamentous actin is involved in many cellular processes, including muscle contraction.

(307) The sarcoplasmic reticulum and sarcoplasm work together to regulate muscle contraction.

(308) The strength of muscle contraction can vary depending on the individual's fitness level.

(309) Dystrophin is essential for the proper functioning of muscle contraction and relaxation.

(310) The binding of calcium ions to meromyosin triggers the initiation of muscle contraction.

(311) The sarcoplasmic reticulum and T-tubules work together to coordinate muscle contraction.

(312) The myofibrilla is a key component of the sliding filament theory of muscle contraction.

(313) The intensity of muscle contraction can be adjusted based on the desired level of effort.

(314) The endplate region is where the action potential is converted into a muscle contraction.

(315) Muscarinic receptors are involved in regulating heart rate and smooth muscle contraction.

(316) The biophysicist published a groundbreaking paper on the mechanics of muscle contraction.

(317) The breakdown of phosphocreatine releases energy that can be used for muscle contraction.

(318) The aponeurotic sheath acts as a pulley, redirecting the force of the muscle contraction.

(319) The biophysicist's research focused on understanding the mechanics of muscle contraction.

(320) The binding of acetylcholine to muscarinic receptors can cause smooth muscle contraction.

(321) The breakdown of adenosine triphosphate provides the energy needed for muscle contraction.

(322) Proteolytic enzymes are important for the breakdown of proteins during muscle contraction.

(323) The transmural electrical potential difference is essential for proper muscle contraction.

(324) The myoneural junction is where acetylcholine is released to stimulate muscle contraction.

(325) The structure of fibrillae allows for efficient energy transfer during muscle contraction.

(326) The speed of muscle contraction is influenced by the rate of ATP hydrolysis by meromyosin.

(327) The sarcolemma is essential for the transmission of force generated by muscle contraction.

(328) The hydrolysis of adenosine diphosphate provides the energy needed for muscle contraction.

(329) The motor end plate receives signals from the motor neuron, initiating muscle contraction.

(330) The sarcomere, the basic unit of muscle contraction, is composed of myofibrillar proteins.

(331) Sarcoplasmic glycolysis is a metabolic pathway that provides energy for muscle contraction.

(332) Bronchiolar smooth muscle contraction can be reduced through anti-inflammatory medications.

(333) The myofibril is highly organized and structured to allow for efficient muscle contraction.

(334) Butyrylcholine is a neurotransmitter that is involved in muscle contraction and relaxation.

(335) Sarcoplasmic glycolysis is a metabolic process that produces energy for muscle contraction.

(336) Motoneurons can exhibit different firing rates depending on the level of muscle contraction.

(337) The aponeurotic expansion allows for efficient force transmission during muscle contraction.

(338) The aponeurotic expansion allows for efficient force distribution during muscle contraction.

(339) The fundamental mechanism of muscle contraction is the sliding of actin and myosin filaments.

(340) The speed of muscle contraction can be influenced by factors such as temperature and fatigue.

(341) The speed of muscle contraction is influenced by the rate at which meromyosin hydrolyzes ATP.

(342) Each muscle-fibre contains multiple myofibrils, which are responsible for muscle contraction.

(343) The motor end plate is a site where the nerve impulse is converted into a muscle contraction.

(344) Biophysically, the process of muscle contraction is initiated by the release of calcium ions.

(345) Muscarinic receptors are important for the regulation of smooth muscle contraction in the gut.

(346) The binding of calcium to troponin initiates muscle contraction in response to nerve impulses.

(347) The cytoskeleton is involved in muscle contraction, and it also plays a role in cell division.

(348) The sarcoplasmic matrix contains various proteins and enzymes necessary for muscle contraction.

(349) The intercellular communication between muscle cells allows for coordinated muscle contraction.

(350) Adenosine diphosphate is released during muscle contraction to provide energy for the movement.

(351) The quantal release of acetylcholine at the neuromuscular junction triggers muscle contraction.

(352) The organization of myofibrilla allows for efficient energy transfer during muscle contraction.

(353) The ATPase activity of meromyosin is responsible for the energy required in muscle contraction.

(354) The sarcoplasmic reticulum releases calcium ions into the sarcoplasm during muscle contraction.

(355) The sarcoplasmic matrix contains various enzymes and proteins necessary for muscle contraction.

(356) The motor end plate is a critical component in the process of muscle contraction and relaxation.

(357) The process of muscle contraction involves the interaction of proteins within the muscle fibers.

(358) Muscle contraction is a complex process that involves the sliding of actin and myosin filaments.

(359) The electrogenic potential of the muscle cells is responsible for initiating muscle contraction.

(360) Tropomyosin is essential for the sliding of actin and myosin filaments during muscle contraction.

(361) The aponeurotic attachment allows for efficient transmission of forces during muscle contraction.

(362) The researcher used a record electrode to measure the electrical signals of a muscle contraction.

(363) Botulinum toxin works by blocking the release of neurotransmitters involved in muscle contraction.

(364) Filamentous proteins, such as actin and myosin, are essential for muscle contraction and movement.

(365) The depolarisation of a cell membrane is a necessary step for the initiation of muscle contraction.

(366) The study of electrobiology has shed light on the role of electrical signals in muscle contraction.

(367) The fundamental mechanism of muscle contraction involves the sliding of actin and myosin filaments.

(368) Glycogenolytic breakdown in skeletal muscle provides energy for muscle contraction during exercise.

(369) The extracellular fluid acts as a reservoir for calcium, which is essential for muscle contraction.

(370) ATP hydrolysis releases energy that can be used for muscle contraction and other cellular processes.

(371) The motor end plate is where the neurotransmitter acetylcholine binds to initiate muscle contraction.

(372) The end-plate region is rich in mitochondria to support the high energy demands of muscle contraction.

(373) Microtubules are involved in vesicle transport, and microfilaments are involved in muscle contraction.

(374) The motor end plate is a specialized region that allows for the precise control of muscle contraction.

(375) Proper calcium chelation is important for the regulation of muscle contraction and nerve transmission.

(376) The latent period of a muscle contraction is the time between the stimulus and the actual contraction.

(377) Mechanistically, the process of muscle contraction involves the sliding of actin and myosin filaments.

(378) Researchers used a microelectrode to study the effects of electrical stimulation on muscle contraction.

(379) When the efferent fiber is stimulated, it triggers a cascade of events that lead to muscle contraction.

(380) Biophysically, the process of muscle contraction involves the interaction of actin and myosin proteins.

(381) Carbachol is known to stimulate the parasympathetic nervous system and cause smooth muscle contraction.

(382) Cholinergic neurons release acetylcholine, and this neurotransmitter is involved in muscle contraction.

(383) Sarcoplasmic calcium release is synchronized with the sliding of myofilaments during muscle contraction.

(384) Tropomyosin is a highly dynamic protein that undergoes conformational changes during muscle contraction.

(385) The end-plate region is where the motor neuron and muscle fiber interact to initiate muscle contraction.

(386) The motor end plate is rich in acetylcholine receptors, which play a crucial role in muscle contraction.

(387) Bungarotoxin has been used as a tool to study the role of acetylcholine receptors in muscle contraction.

(388) Tropomyosin is a highly flexible protein that undergoes conformational changes during muscle contraction.

(389) The personal trainer instructed the client to palpate over by the triceps to feel the muscle contraction.

(390) The sarcoplasmic reticulum is responsible for the rapid reuptake of calcium ions after muscle contraction.

(391) The sarcoplasmic reticulum is responsible for the rapid release of calcium ions during muscle contraction.

(392) The body prioritizes the storage of calcium for vital functions like muscle contraction and blood clotting.

(393) ATPase is involved in muscle contraction by providing energy for the sliding of actin and myosin filaments.

(394) The structure of meromyosin has been extensively studied to understand the mechanism of muscle contraction.

(395) When a motoneuron is activated, it triggers a cascade of events that ultimately leads to muscle contraction.

(396) The calcium pump is an example of active transport, and it is involved in muscle contraction and relaxation.

(397) Biophysically, the process of muscle contraction involves the interaction between actin and myosin filaments.

(398) The neuromuscular junction is a key component of the motor unit, which is responsible for muscle contraction.

(399) The binding of tropomyosin to actin filaments prevents myosin from binding and initiating muscle contraction.

(400) The energy produced during glycolysis is used to power various cellular processes, such as muscle contraction.

(401) The structure of muscle-fibre allows for the transmission of electrical signals, leading to muscle contraction.

(402) Cytoskeletons are crucial for the proper functioning of muscle cells, enabling muscle contraction and movement.

(403) The digestive tube undergoes peristalsis, a wave-like muscle contraction that helps move food along its length.

(404) The transport of potassium from the blood to the muscle cells is crucial for muscle contraction and relaxation.

(405) The sarcoplasmic reticulum is responsible for the storage and release of calcium ions during muscle contraction.

(406) Acetyl-CoA is a precursor for the synthesis of acetylcholine, a neurotransmitter involved in muscle contraction.

(407) Alkaline earth metals are essential for many biological processes, such as muscle contraction and nerve function.

(408) When ATP is broken down, it releases energy that can be used to power mechanical work, such as muscle contraction.

(409) The motor end plate is where the nerve impulse triggers the release of calcium ions, leading to muscle contraction.

(410) When the efferent fiber is stimulated, it triggers a series of chemical reactions that result in muscle contraction.

(411) The motor end plate is where the nerve impulse is converted into a chemical signal that triggers muscle contraction.

(412) The doctor explained that atonics work by increasing the release of neurotransmitters involved in muscle contraction.

(413) Kinesthesis allows us to perform complex movements without having to consciously think about each muscle contraction.

(414) Because creatine phosphate helps to regenerate ATP, it is considered an important energy source for muscle contraction.

(415) Ingesting magnesium-rich foods or taking supplements can help support bone health, nerve function, and muscle contraction.

(416) Exergonic reactions are important in many biological processes, including muscle contraction and nerve impulse transmission.

(417) The motor end plate is responsible for converting electrical signals into chemical signals that stimulate muscle contraction.

(418) Microtubules are involved in the movement of organelles within the cell, and microfilaments are involved in muscle contraction.

(419) Autocoids are involved in various physiological processes, including inflammation, blood clotting, and smooth muscle contraction.

(420) The endosarc is responsible for storing and releasing calcium ions, which are crucial for muscle contraction and nerve signaling.

(421) Creatine phosphate is a molecule that provides energy for muscle contraction, but it can only be used for short bursts of activity.

(422) Although efferent fibers are responsible for muscle contraction, they also receive input from sensory receptors to adjust movement.

(423) The C-terminal of myosin heavy chain, including meromyosin, is responsible for the binding of myosin to actin during muscle contraction.

(424) The latent period of a muscle contraction is the time between the initiation of a nerve impulse and the actual contraction of the muscle.

(425) Intracellular calcium signaling plays a crucial role in regulating muscle contraction and neurotransmitter release in the nervous system.

(426) Eicosanoids are involved in the regulation of smooth muscle contraction, making them relevant to students studying gastrointestinal physiology.

(427) When the efferent fiber is activated, it releases neurotransmitters that bind to receptors on the muscle fibers, initiating muscle contraction.

(428) The hydrolysis of ATP releases energy that can be used by cells to perform various functions, such as muscle contraction and nerve transmission.

(429) Intracellular calcium signaling is involved in various cellular processes such as muscle contraction, neurotransmitter release, or gene expression.

(430) Efferent fibers transmit signals that control muscle contraction, while afferent fibers transmit signals that provide information about the muscle's state.

(431) Although ATP is essential for muscle contraction, it can also be used for other functions such as active transport, protein synthesis, and DNA replication.

(432) When the endosarc releases calcium ions, it triggers a series of events that lead to muscle contraction, and it allows the body to perform various movements.

(433) Although the efferent fiber is responsible for initiating muscle contraction, the afferent fiber plays a crucial role in maintaining balance and coordination.

(434) When a motoneuron is activated, it triggers a series of events that ultimately lead to the release of calcium ions, which are necessary for muscle contraction.

(435) When amino acids are broken down in the body, they release energy that can be used for various metabolic processes, such as muscle contraction and nerve transmission.

(436) Efferent fibers transmit signals that control muscle contraction, while afferent fibers transmit signals that provide information about the muscle's position and tension.

(437) Despite their reactivity, alkaline metals are essential for life, as they play a crucial role in many biological processes, including nerve function and muscle contraction.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Muscle Contraction. They do not represent the opinions of TranslateEN.com.