Receptor in a sentence

(1) Muscimol is a GABA receptor agonist.

(2) The receptor in the eye detects light.

(3) The receptor in the skin detects touch.

(4) The antibody blocked the receptor site.

(5) The receptor in the nose detects smells.

(6) The receptor on the tongue detects taste.

(7) The receptor in the liver detects toxins.

(8) Rhodopsin is a G-protein coupled receptor.

(9) The receptor in the bone detects pressure.

(10) Muscimol is a potent GABA receptor agonist.

Receptor sentence

(11) The receptor in the muscle detects stretch.

(12) A receptor is like a doorbell for your body.

(13) The receptor in the ear detects sound waves.

(14) The receptor in the kidney detects hormones.

(15) Pilocarpine is a muscarinic receptor agonist.

(16) A receptor is like a doorbell for your cells.

(17) The receptor is an integral membrane protein.

(18) The alpha receptor is a type of cell receptor.

(19) The receptor is found on the surface of cells.

(20) The baroreceptor is a type of sensory receptor.

Receptor make sentence

(21) The receptor in the lung detects oxygen levels.

(22) The protein receptor is known to bind to dioxin.

(23) The receptor in the ear allows us to hear sounds.

(24) Cimetidine is a histamine H2 receptor antagonist.

(25) A receptor is like a special sensor in your body.

(26) The receptor in the heart detects blood pressure.

(27) The receptor in the nose detects different smells.

(28) The beta receptor is a G protein-coupled receptor.

(29) The receptor is responsible for receiving signals.

(30) Mifepristone is a progesterone receptor antagonist.

Sentence of receptor

(31) The virus particles adsorb onto the receptor sites.

(32) The isotype of this receptor is a nuclear receptor.

(33) Orexin receptor antagonists are used as sleep aids.

(34) The isotype of this receptor is a cytokine receptor.

(35) The receptor in the pancreas detects glucose levels.

(36) The receptor in the immune system detects pathogens.

(37) The receptor in the muscular system detects tension.

(38) The receptor displayed high affinity for the ligand.

(39) The protein functions as a receptor in this pathway.

(40) The active site of a receptor is where ligands bind.

Receptor meaningful sentence

(41) The oligomer was able to bind to a specific receptor.

(42) The receptor in the thyroid detects thyroid hormones.

(43) The inactivating substance blocked the receptor sites.

(44) The receptor in the lymphatic system detects antigens.

(45) The b cell receptor is involved in antigen recognition.

(46) The receptor in the eye detects light and helps us see.

(47) The receptor in the stomach senses hunger and fullness.

(48) The dimeric receptor is localized on the cell membrane.

(49) Nicotinic receptors are a type of cholinergic receptor.

(50) The receptor in the digestive system detects nutrients.

Receptor sentence examples

(51) The receptor in the bladder detects the need to urinate.

(52) The receptor in the heart detects changes in heart rate.

(53) Receptor activation can trigger the release of hormones.

(54) Beta receptor density is highest in the heart and lungs.

(55) Beta receptor blockers can be used to prevent migraines.

(56) The olfactory receptor cells regenerate every few weeks.

(57) The receptor specificity is determined by its structure.

(58) The transmembrane receptor recognizes specific molecules.

(59) Receptor activation is a key step in the immune response.

(60) Heparan acts as a co-receptor for various growth factors.

Sentence with receptor

(61) The receptor in the reproductive system detects hormones.

(62) Phencyclidine hydrochloride is a NMDA receptor antagonist.

(63) Beta receptor activation can enhance memory consolidation.

(64) The receptor will phosphorylate into a signaling molecule.

(65) The receptor oligomerizes to initiate signal transduction.

(66) The receptor on the cell membrane is activated by ligands.

(67) The receptor in the adrenal gland detects stress hormones.

(68) The receptor in the circulatory system detects blood flow.

(69) The receptor in the urinary system detects waste products.

(70) The receptor binds only to the unique shape of its ligand.

Use receptor in a sentence

(71) The active site of the receptor is where the ligand binds.

(72) The beta receptor is a target for beta-blocker medications.

(73) The receptor in the lungs detects changes in oxygen levels.

(74) The receptor in the immune system detects foreign invaders.

(75) The receptor in the skin detects changes in touch pressure.

(76) Beta receptor agonists are used in the treatment of asthma.

(77) The isotype of this receptor is a ligand-gated ion channel.

(78) The receptor was sumoylated by the SUMO conjugation system.

(79) The receptor was mutated, but it still bound to its ligand.

(80) The receptor was engineered to respond to specific stimuli.

Sentence using receptor

(81) The beta receptor is part of the adrenergic receptor family.

(82) The beta receptor is a target for many pharmaceutical drugs.

(83) The receptor in the eyes detects changes in light intensity.

(84) The receptor in the ears detects changes in sound frequency.

(85) Receptor activation can lead to the opening of ion channels.

(86) The unipotent receptor could only bind to a specific ligand.

(87) The receptor undergoes phosphorylation by a specific kinase.

(88) The inactivated receptor could no longer bind to its ligand.

(89) The dimeric receptor binds to its ligand with high affinity.

(90) The dimeric receptor is involved in cell adhesion processes.

Receptor example sentence

(91) Beta receptor blockade can reduce the workload on the heart.

(92) The monovalent drug targets a specific receptor in the body.

(93) The receptor oligomerizes to enhance its signaling capacity.

(94) The receptor was phosphorylated by the ligand binding to it.

(95) The receptor in the brain is sensitive to neurotransmitters.

(96) The active site of a receptor can be blocked by antagonists.

(97) The beta receptor is a protein found on the surface of cells.

(98) The beta receptor is highly expressed in the heart and lungs.

(99) The beta receptor is involved in the regulation of lipolysis.

(100) The dipeptide was found to interact with a specific receptor.

Sentence with word receptor

(101) The dimeric receptor is involved in immune response pathways.

(102) The isotype of this receptor is a G-protein coupled receptor.

(103) The receptor in the nervous system detects neurotransmitters.

(104) The receptor in the integumentary system detects temperature.

(105) The receptor in the cardiovascular system detects heart rate.

(106) The ligand-receptor complex can be internalized for recycling.

(107) The receptor in the kidneys detects changes in blood pressure.

(108) The receptor in the brain detects changes in body temperature.

(109) The receptor in the tongue detects changes in taste intensity.

(110) The receptor in the muscles detects changes in muscle tension.

Sentence of receptor

(111) The receptor is phosphorylated by a cytoplasmic kinase domain.

(112) The chemokine receptor plays a crucial role in cell migration.

(113) The heterologously expressed receptor was functional in vitro.

(114) The receptor in the endocrine system detects feedback signals.

(115) The receptor in the skeletal system detects mechanical stress.

(116) The receptor was blocked, but the response was still observed.

(117) The receptor is the first step in a complex signaling pathway.

(118) The receptor in the nose detects changes in odor concentration.

(119) Receptor activation plays a crucial role in sensory perception.

(120) The TRP receptor is responsible for the sensation of itchiness.

Receptor used in a sentence

(121) The protein was phosphorylated by the tyrosine kinase receptor.

(122) The beta receptor is classified as a G protein-coupled receptor.

(123) The beta receptor is important for the fight-or-flight response.

(124) Ligand binding can lead to receptor dimerization and activation.

(125) The ligand-receptor interaction is crucial for drug development.

(126) The receptor in the liver detects changes in blood sugar levels.

(127) The receptor in the reproductive organs senses hormonal changes.

(128) The receptor in the thyroid gland detects changes in metabolism.

(129) The receptor in the intestines senses the presence of nutrients.

(130) The receptor in the skin detects pain and helps us avoid injury.

Receptor sentence in English

(131) Muscarinic receptor activation can lead to increased salivation.

(132) The parathormone receptor is found on various cells in the body.

(133) The nicotinic acetylcholine receptor is a target for many drugs.

(134) Mechanoreceptor is a type of sensory receptor found in the skin.

(135) The drug is designed to bind to a specific target cell receptor.

(136) The scientist discovered a new androgenise receptor in the body.

(137) Acetylcholine-receptors are a type of neurotransmitter receptor.

(138) The receptor density can vary in different regions of the brain.

(139) Activation of the beta receptor can lead to increased heart rate.

(140) The beta receptor is involved in the regulation of vascular tone.

(141) The ligand-receptor interaction is highly specific and selective.

(142) Ligand binding can modulate the activity of the receptor protein.

(143) Ganglioside can act as a receptor for certain viruses and toxins.

(144) The dimeric receptor is involved in signal transduction pathways.

(145) The rho receptor is involved in the regulation of blood pressure.

(146) The drug exhibited stereospecific binding to its target receptor.

(147) Beta receptor agonists can relax the smooth muscle in the uterus.

(148) The idiotype of the B cell receptor is unique to each individual.

(149) The transmembrane receptor is involved in cell signaling pathways.

(150) The beta receptor is found in various tissues throughout the body.

(151) The beta receptor is activated by the binding of specific ligands.

(152) The ligand-receptor complex undergoes endocytosis for degradation.

(153) Ligand binding can induce a change in the receptor's conformation.

(154) The inactivating substance blocked the receptor sites in the body.

(155) The dephosphorylated substrate was unable to bind to the receptor.

(156) The inducer molecule binds to the receptor, triggering a response.

(157) The express glycoprotein acts as a receptor for specific hormones.

(158) The receptor undergoes conformational changes upon ligand binding.

(159) Ligand-receptor interactions play a crucial role in cell signaling.

(160) The ligand-receptor complex is internalized for further processing.

(161) The ligand-receptor interaction is highly regulated and controlled.

(162) Receptor activation can modulate the sensitivity of sensory organs.

(163) The bivalent receptor recognizes two different signaling molecules.

(164) The apoptotic process can be initiated by death receptor signaling.

(165) The inactivated receptor was unable to initiate signaling pathways.

(166) The dimeric receptor undergoes internalization upon ligand binding.

(167) Phospholipase C is activated by receptor-mediated signaling events.

(168) Activation of the beta receptor leads to an increase in heart rate.

(169) The alpha receptor agonist clonidine is used to treat hypertension.

(170) The alpha receptor is involved in the regulation of blood pressure.

(171) The b cell receptor recognizes antigens through its variable region.

(172) The beta receptor plays a crucial role in regulating blood pressure.

(173) The beta receptor is a key player in the sympathetic nervous system.

(174) The ligand-receptor complex activates downstream signaling pathways.

(175) The ligand-receptor complex recruits downstream signaling molecules.

(176) The process of receptor activation is tightly regulated in the body.

(177) Steroid hormone can cross the cell membrane to bind to its receptor.

(178) The radiolabelled molecule was found to bind to a specific receptor.

(179) The somatostatin receptor subtype 3 is found in the pituitary gland.

(180) B cell receptor signaling triggers intracellular signaling pathways.

(181) Beta receptor activation can enhance the contractility of the heart.

(182) The ciliation of the olfactory receptor cells helps to detect odors.

(183) The receptor phosphorylates the ligand to trigger downstream events.

(184) The receptor on the liver cell is responsible for detecting insulin.

(185) The drug binds to the receptor to initiate a physiological response.

(186) The receptor site appears to be located on the extracellular domain.

(187) The receptor is comprised of multiple subunits that work in concert.

(188) The ligand-receptor interaction is a key step in signal transduction.

(189) The receptor in the pancreas detects changes in blood glucose levels.

(190) The OPG receptor is a protein that plays a role in the immune system.

(191) Muscarinic receptor antagonists can cause dry mouth as a side effect.

(192) The word nociceptor refers to a type of sensory receptor in the body.

(193) The glycosylated molecule acted as a receptor for bacterial adhesion.

(194) The eluted compound showed a strong affinity for the target receptor.

(195) The beta receptor is a protein found on the surface of certain cells.

(196) Beta receptor antagonists can reduce the symptoms of hyperthyroidism.

(197) Anastrozole is used to treat hormone receptor-positive breast cancer.

(198) The receptor in the respiratory system detects carbon dioxide levels.

(199) The receptor is responsible for recognizing and binding to pathogens.

(200) The dimeric neurotransmitter receptor mediated synaptic transmission.

(201) Drugs that target the beta receptor are commonly used to treat asthma.

(202) The beta receptor is involved in the regulation of glucose metabolism.

(203) The ligand acts as a key to unlock the receptor's signaling potential.

(204) The receptor in the tongue allows us to taste different types of food.

(205) Receptor activation can be enhanced or inhibited by certain molecules.

(206) The opsonin-receptor interaction triggers the engulfment of pathogens.

(207) The somatostatin receptor subtype 4 is expressed in the immune system.

(208) Beta receptor blockers are commonly used to treat high blood pressure.

(209) Anastrozole is used to treat estrogen receptor-positive breast cancer.

(210) Varden is a type of medication called an angiotensin receptor blocker.

(211) The receptor was sensitive to light, so it was used in the experiment.

(212) The ligand's structure influences its ability to bind to the receptor.

(213) The Kd value determines the strength of a ligand-receptor interaction.

(214) The transmembrane protein acts as a receptor for extracellular signals.

(215) Ligand binding induces a conformational change in the receptor protein.

(216) The receptor on the taste buds allows us to perceive different flavors.

(217) The inducer concentration affects the binding affinity of the receptor.

(218) The receptor is phosphorylated by tyrosine kinases upon ligand binding.

(219) The chemoattractant molecule binds to its receptor on the cell surface.

(220) Clathrin is involved in the regulation of cell surface receptor levels.

(221) The idiotype of the T-cell receptor is crucial for antigen recognition.

(222) The receptor is essential for transmitting signals across the membrane.

(223) The allotype of a receptor can affect its binding affinity for ligands.

(224) The autoradiogram demonstrated the binding of a ligand to its receptor.

(225) The idiotype of the T cell receptor determines its antigen specificity.

(226) The dimeric receptor was able to bind to its ligand with high affinity.

(227) Ligand binding can modulate the receptor's affinity for other molecules.

(228) The receptor in the bones senses pressure and helps us maintain posture.

(229) Receptor activation is necessary for the transmission of nerve impulses.

(230) Receptor activation is a complex phenomenon that is still being studied.

(231) The univalent antibody binds to a specific receptor on the cell surface.

(232) The receptor is phosphorylated by a kinase located in the cell membrane.

(233) The opsonin-receptor interaction triggers a cascade of immune responses.

(234) The kinase phosphorylates the receptor to activate downstream signaling.

(235) Modifying glycoprotein binding sites could improve receptor specificity.

(236) The somatostatin receptor antagonist blocks the effects of somatostatin.

(237) The purified glycoprotein was used in a binding assay with its receptor.

(238) The receptor was activated, and the signal was transmitted to the brain.

(239) The chemist will ligate the ligand to the receptor for drug development.

(240) The beta receptor is responsible for mediating the effects of adrenaline.

(241) The beta receptor is a key component in the regulation of cardiac output.

(242) Ligand binding can result in the phosphorylation of the receptor protein.

(243) The receptor in the muscles senses tension and helps us maintain balance.

(244) The immunogen was designed to target a specific receptor on immune cells.

(245) The compound dissociates into its active form upon binding to a receptor.

(246) The activator facilitates the binding of other molecules to the receptor.

(247) The idiotype of a neurotransmitter receptor affects its binding affinity.

(248) The idiotype of a hormone receptor determines its sensitivity to ligands.

(249) The tetramerization of the receptor is necessary for signal transduction.

(250) The receptor on the kidney cell is responsible for detecting aldosterone.

(251) The receptor on the pancreas is responsible for detecting glucose levels.

(252) The receptor was expressed in different tissues, but its function varied.

(253) The binding of the agonist to the receptor induces a biological response.

(254) The receptor density can be altered through pharmacological intervention.

(255) The receptor is a critical component of many cellular signaling pathways.

(256) The effects of bradykinin can be blocked by certain receptor antagonists.

(257) The lower the Kd, the higher the affinity of the ligand for the receptor.

(258) The ligand-receptor complex can be targeted for therapeutic interventions.

(259) The ligand-receptor interaction is essential for proper neuronal function.

(260) Muscarinic receptor activation can lead to increased glandular secretions.

(261) Thymocytes undergo extensive rearrangement of their T cell receptor genes.

(262) The agonist drug is known to have a high affinity for its target receptor.

(263) The inducer agent induces a conformational change in the receptor protein.

(264) The somatostatin receptor is found in various tissues throughout the body.

(265) The somatostatin receptor subtype 1 is found in the brain and spinal cord.

(266) The transmembrane receptor recognizes specific molecules outside the cell.

(267) Beta receptor stimulation can cause vasodilation in certain blood vessels.

(268) The baroceptor is a sensory receptor that responds to changes in pressure.

(269) The alpha adrenergic receptor is involved in the fight or flight response.

(270) The receptor was overexpressed, yet the effect on cell growth was minimal.

(271) The molecule was able to bind to the receptor, but it did not activate it.

(272) The binding affinity between the receptor and its ligand can be modulated.

(273) Phosphorylation of the receptor triggers a cascade of intracellular events.

(274) The protonation of a molecule can affect its ability to bind to a receptor.

(275) The ligand-receptor interaction is essential for proper cell communication.

(276) Ligand binding can induce a change in the receptor's cellular localization.

(277) The modified glycoprotein showed enhanced binding affinity to its receptor.

(278) The depolarized state of the sensory receptor allowed for signal detection.

(279) The interaction between a secretagogue and its receptor is highly specific.

(280) The idiotype of a cell surface receptor can affect cell signaling pathways.

(281) The conformational changes in the receptor are triggered by ligand binding.

(282) The somatostatin receptor subtype 5 is involved in the regulation of sleep.

(283) Beta receptor activation can lead to increased lipolysis in adipose tissue.

(284) The receptor was activated by a specific molecule, or it remained inactive.

(285) The receptor was upregulated in cancer cells, and it promoted tumor growth.

(286) The neurotransmitter binds to the receptor to initiate an action potential.

(287) The receptor is activated by ligands that bind to its extracellular domain.

(288) The receptor is essential for the proper functioning of the nervous system.

(289) Antidromically, the electrical activity moved towards the sensory receptor.

(290) Antiestrogens can be used to treat hormone receptor-positive breast cancer.

(291) The ecdysone receptor is a nuclear hormone receptor that binds to ecdysone.

(292) The receptor phosphorylates the ion channel to alter cellular excitability.

(293) Beta receptor activation can also lead to vasodilation and bronchodilation.

(294) Beta receptor signaling can be modulated by various intracellular pathways.

(295) The trimeric assembly of the receptor is necessary for signal transduction.

(296) The dimeric hormone receptor regulated physiological processes in the body.

(297) The beta receptor is involved in the modulation of neurotransmitter release.

(298) The mineralocorticoid receptor is a nuclear receptor that binds aldosterone.

(299) The baroceptor is a sensory receptor that detects changes in blood pressure.

(300) Thymocyte maturation involves the acquisition of T cell receptor expression.

(301) The action of prostaglandin can be blocked by specific receptor antagonists.

(302) Beta receptor polymorphisms have been associated with altered drug response.

(303) Beta receptor activation can increase the release of renin from the kidneys.

(304) The subunit of the receptor was found to be involved in signal transduction.

(305) The hormone binds to the receptor on the target cell to initiate a response.

(306) The receptor was downregulated, so the response to the stimulus was reduced.

(307) The receptor-ligand complex induces a conformational change in the receptor.

(308) The researchers are studying the binding kinetics of dioxin to the receptor.

(309) Kd values can be used to study the kinetics of ligand-receptor interactions.

(310) The transmembrane receptor initiates a signaling cascade upon ligand binding.

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

(312) Muscarinic receptor activation in the heart can lead to decreased heart rate.

(313) The depolarized state of the olfactory receptor initiated the sense of smell.

(314) The idiotype of a neurotransmitter receptor can affect synaptic transmission.

(315) The undefined hydrazone showed selective binding towards a specific receptor.

(316) The inducer substance initiates the formation of a complex with the receptor.

(317) The target cell's response to a hormone is mediated by its receptor proteins.

(318) Beta receptor antagonists are often prescribed to manage symptoms of anxiety.

(319) The receptor was activated by neurotransmitters, or it responded to hormones.

(320) The receptor was expressed in neurons, and it mediated synaptic transmission.

(321) Antidromically, the electrical activity moved away from the sensory receptor.

(322) The isoforms of the receptor had different binding affinities for the ligand.

(323) The heteroatom in this drug is what allows it to bind to its target receptor.

(324) The beta receptor is known to have different subtypes with distinct functions.

(325) The receptor on the skin senses temperature and allows us to feel hot or cold.

(326) The baroreceptor is a sensory receptor that detects changes in blood pressure.

(327) The receptor is phosphorylated by a kinase domain in the intracellular region.

(328) The multivalent receptor can bind to multiple ligands with varying affinities.

(329) Muscarinic receptor antagonists are commonly used to treat overactive bladder.

(330) The protonation of the molecule influenced its binding affinity to a receptor.

(331) The alpha adrenergic receptor is involved in the regulation of blood pressure.

(332) The receptor on the immune cell is responsible for detecting foreign antigens.

(333) The receptor on the nerve cell is responsible for detecting neurotransmitters.

(334) The receptor on the stomach is responsible for detecting the presence of food.

(335) The receptor on the thyroid follicle cell is responsible for detecting iodine.

(336) The receptor was downregulated in response to chronic exposure to the agonist.

(337) The drug binds to a specific conformation of the receptor to exert its effect.

(338) The interoceptor is a sensory receptor that detects internal bodily sensations.

(339) Researchers are studying the function of the beta receptor in various diseases.

(340) The beta receptor is a potential target for drug development in cancer therapy.

(341) The receptor on the cell membrane allows for the binding of specific molecules.

(342) Fibroblast growth factor receptor signaling is involved in tissue regeneration.

(343) The binding of calcium to the NMDA receptor is involved in synaptic plasticity.

(344) The binding of ecdysone to its receptor triggers a cascade of molecular events.

(345) The formation of clathrin cages is essential for receptor-mediated endocytosis.

(346) Beta receptor density varies among individuals and can influence drug response.

(347) Beta receptor downregulation can occur with chronic use of certain medications.

(348) The receptor on the lung is responsible for detecting changes in oxygen levels.

(349) The receptor on the bone cell is responsible for detecting parathyroid hormone.

(350) The receptor mediated signaling pathway is paramount to cellular communication.

(351) Beta receptor antagonists can cause side effects such as fatigue and dizziness.

(352) The binding energy of a ligand is the energy required to bind it to a receptor.

(353) The PTC gene is located on chromosome 7 and codes for a taste receptor protein.

(354) The dimeric G protein-coupled receptor activated downstream signaling pathways.

(355) The beta receptor is a subject of ongoing research in the field of pharmacology.

(356) The hydroxylated molecule showed strong binding affinity to its target receptor.

(357) The macrocyclic ligand exhibited strong binding affinity to the target receptor.

(358) Polymorphisms in the serotonin receptor gene have been linked to mood disorders.

(359) Stimulation of the beta receptor causes smooth muscle relaxation in the airways.

(360) The taste receptor on the tongue is responsible for detecting different flavors.

(361) Beta receptor density can vary between individuals and can affect drug response.

(362) Mutations in the beta receptor gene can lead to certain cardiovascular disorders.

(363) The beta receptor is involved in the transmission of signals between nerve cells.

(364) The beta receptor is a subject of interest in the field of personalized medicine.

(365) Serotoninergic drugs can have different effects depending on the target receptor.

(366) Muscarinic receptor dysfunction has been linked to certain psychiatric disorders.

(367) The depolarized state of the sensory receptor allowed for the detection of touch.

(368) Anastrozole is not effective in treating hormone receptor-negative breast cancer.

(369) The dynorphin-kappa opioid receptor system is involved in the regulation of mood.

(370) The aglycon moiety of a steroid hormone determines its receptor binding affinity.

(371) The binding of HGF to its receptor triggers receptor dimerization and activation.

(372) Beta receptor blockers are commonly used to treat hypertension and heart failure.

(373) The olfactory receptor in the nose is responsible for detecting different smells.

(374) The receptor on the heart is responsible for detecting changes in blood pressure.

(375) The receptor on the skin cell is responsible for detecting ultraviolet radiation.

(376) The receptor on the adrenal medulla is responsible for detecting stress hormones.

(377) The receptor on the bone marrow cell is responsible for detecting growth factors.

(378) The beta receptor is responsible for the bronchodilatory effects of certain drugs.

(379) The binding of adenosine diphosphate to its receptor can modulate gene expression.

(380) The inhibitor molecule interfered with the binding of the hormone to its receptor.

(381) Leukotriene receptor antagonists block the effects of leukotriene on target cells.

(382) Transferrin-bound iron is taken up by cells through receptor-mediated endocytosis.

(383) Muscarinic receptor antagonists are used to treat symptoms of Parkinson's disease.

(384) The depolarized state of the taste receptor allowed for the perception of flavors.

(385) The binding of phorbol to its receptor triggers a cascade of intracellular events.

(386) Orexin receptor antagonists have potential as novel treatments for drug addiction.

(387) The somatostatin receptor subtype 2 is highly expressed in pancreatic islet cells.

(388) The somatostatin receptor agonist is used to treat symptoms of carcinoid syndrome.

(389) Beta receptor activation can increase the force of contraction in skeletal muscle.

(390) Beta receptor stimulation can increase the release of norepinephrine in the brain.

(391) The binding of the ligand to the receptor is saturable at a certain concentration.

(392) The n-methyl group can influence the binding affinity of a ligand to its receptor.

(393) Anastrozole is not effective for treating hormone receptor-negative breast cancer.

(394) The trimeric arrangement of the receptor enabled it to recognize specific ligands.

(395) The binding of dioxin to the receptor can lead to the activation of certain genes.

(396) The researchers are exploring ways to block the binding of dioxin to the receptor.

(397) The receptor on the platelet is responsible for detecting damage to blood vessels.

(398) The receptor was involved in immune responses, and it recognized foreign antigens.

(399) The binding of a conjugated protein to a receptor can trigger a cellular response.

(400) The beta receptor is a crucial component in the regulation of sympathetic activity.

(401) Receptor activation is a dynamic process that can be influenced by various factors.

(402) The isolated glycoprotein exhibited strong binding affinity to its target receptor.

(403) Orexin receptor agonists have been shown to increase wakefulness in animal studies.

(404) The discovery of the first cannabinoid receptor paved the way for further research.

(405) The beta receptor plays a crucial role in regulating the body's response to stress.

(406) The HGF receptor is a tyrosine kinase that activates downstream signaling pathways.

(407) Anastrozole is not effective for treating estrogen receptor-negative breast cancer.

(408) The modified glycoprotein showed increased binding affinity to its target receptor.

(409) The intracytoplasmic domain of the receptor is responsible for signal transduction.

(410) The receptor was activated by mechanical stimuli, or it responded to chemical cues.

(411) The binding of the hormone to the receptor triggers a cascade of downstream events.

(412) Androgen receptor blockers are used to treat conditions such as hirsutism and acne.

(413) The kinase is responsible for phosphorylating the tyrosine residues on the receptor.

(414) Angiotensin II receptor antagonists have been shown to improve endothelial function.

(415) The dextrorotary compound displayed a stronger interaction with the target receptor.

(416) The dextrorotary isomer was found to have a higher affinity for the target receptor.

(417) The kinase phosphorylates the membrane receptor to initiate intracellular signaling.

(418) The radiolabeled molecule was found to have a high affinity for its target receptor.

(419) The trimeric nature of the receptor allows for signal amplification and integration.

(420) The team discovered a specific receptor that mediates the neurotropism of the virus.

(421) Naloxone is an opioid receptor antagonist, meaning it blocks the effects of opioids.

(422) The receptor phosphorylates the adaptor protein to initiate intracellular signaling.

(423) The receptor was located on the cell surface, and it interacted with other proteins.

(424) The olfactory bulb is made up of specialized cells called olfactory receptor neurons.

(425) The hapten molecule can be modified to increase its affinity for a specific receptor.

(426) The dephosphorylated molecule showed reduced binding affinity to its target receptor.

(427) The signaling cascade triggers the receptor to phosphorylate into its activated form.

(428) The ubiquitinated protein was recognized by the ubiquitin receptor of the proteasome.

(429) Orexin receptor antagonists are being developed as potential treatments for insomnia.

(430) Orexin receptor antagonists have been shown to decrease food intake in animal models.

(431) The purified glycoprotein displayed enhanced binding affinity to its target receptor.

(432) Thymocyte development is characterized by the rearrangement of T cell receptor genes.

(433) The receptor on the intestine is responsible for detecting the presence of nutrients.

(434) The receptor was involved in pain perception, and it was targeted by analgesic drugs.

(435) The receptor was inhibited, yet the downstream signaling pathway was still activated.

(436) The beta receptor is a potential therapeutic target for certain psychiatric disorders.

(437) The receptor in the brain is responsible for receiving signals from neurotransmitters.

(438) The receptor in the adrenal glands senses stress and triggers the release of hormones.

(439) Fibroblast growth factor receptor signaling is involved in various cellular processes.

(440) Receptor activation is a fundamental process in the functioning of the nervous system.

(441) The chemoattractant receptor on the cell surface detects the presence of the molecule.

(442) Tamoxifen is often recommended for women with hormone receptor-positive breast cancer.

(443) Muscarinic receptors are a type of acetylcholine receptor found in the nervous system.

(444) Muscarinic receptor dysfunction has been implicated in various neurological disorders.

(445) Sensitization can involve changes in neurotransmitter release or receptor sensitivity.

(446) The binding of adenosine diphosphate to a receptor can modulate neuronal excitability.

(447) The activation of the receptor by the agonist is saturable at a certain concentration.

(448) The Kd of a ligand can be affected by the size and shape of the receptor binding site.

(449) The membrane receptor was ubiquitinated by the cell to control its signaling activity.

(450) The scientist used a specialized assay to verify glycoprotein binding to the receptor.

(451) The depolarised state of the sensory receptor allowed for the detection of a stimulus.

(452) The researchers are investigating the mechanism by which dioxin binds to the receptor.

(453) Muscarinic receptor activation in the gastrointestinal tract can stimulate peristalsis.

(454) Mineralocorticoid receptor antagonists are used in the treatment of certain conditions.

(455) A point mutation in a gene encoding a receptor can affect signal transduction pathways.

(456) The alkylated form of the drug showed improved selectivity towards its target receptor.

(457) If you introduce a hormone molecule to a receptor, it can activate a cellular response.

(458) The bimolecular binding of a ligand to a receptor is a key step in signal transduction.

(459) The receptor on the skin is responsible for detecting touch, pressure, and temperature.

(460) The receptor was found in the heart, and it played a role in regulating blood pressure.

(461) The receptor responds to changes in its environment through its ligand-binding ability.

(462) Receptor activation can have both short-term and long-term effects on cellular function.

(463) Muscarinic receptor activation can cause bronchoconstriction in individuals with asthma.

(464) The binding energy of a ligand to a receptor determines the strength of the interaction.

(465) Polymorphisms in the estrogen receptor gene have been linked to hormone-related cancers.

(466) Beta receptor antagonists are contraindicated in patients with certain heart conditions.

(467) The beta receptor is a target for certain medications used in the treatment of glaucoma.

(468) The transferrin-iron complex is taken up by cells through receptor-mediated endocytosis.

(469) The receptor on the ear is responsible for detecting sound waves and initiating hearing.

(470) Angiotensin II receptor antagonists block the effects of angiotensin II on blood vessels.

(471) Nalorphine is sometimes used in research studies to investigate opioid receptor activity.

(472) The activity of melanocyte-stimulating hormone is regulated by the melanocortin receptor.

(473) The tricyclic nature of these drugs allows them to interact with multiple receptor sites.

(474) The beta receptor is a target for certain medications used in the treatment of migraines.

(475) The tetrazole moiety can serve as a hydrogen bond acceptor in drug-receptor interactions.

(476) The binding of HGF to its receptor initiates a cascade of intracellular signaling events.

(477) Kd values can be used to determine the specificity of a ligand for a particular receptor.

(478) The receptor was involved in taste perception, and it was sensitive to different flavors.

(479) Medications called mineralocorticoid receptor antagonists are used to treat aldosteronism.

(480) Angiotensin receptor blockers are well-tolerated and have a low incidence of side effects.

(481) Tamoxifen is often used as a hormone therapy for estrogen receptor-positive breast cancer.

(482) The kinase phosphorylates the receptor tyrosine residues to initiate downstream signaling.

(483) Women with estrogen receptor-positive breast cancer may benefit from antiestrogen therapy.

(484) The derivatized substance displayed enhanced binding affinity towards its target receptor.

(485) The viruses in a host cell accrete with respect to receptor binding and viral replication.

(486) The multivalency of the receptor allowed it to interact with multiple signaling molecules.

(487) Antiestrogen drugs are not effective in treating estrogen receptor-negative breast cancer.

(488) The antimeric form of a molecule can have different levels of activity in receptor assays.

(489) Beta receptor agonists are used to treat asthma and chronic obstructive pulmonary disease.

(490) The depolarised state of the taste receptor allowed for the detection of a specific taste.

(491) The receptor can be either upregulated or downregulated in response to environmental cues.

(492) The inhibitor molecule interfered with the binding of the neurotransmitter to its receptor.

(493) Heterologously expressed receptors can be used to investigate receptor-ligand interactions.

(494) The somatostatin receptor antagonist is being studied for its potential anti-tumor effects.

(495) The elicitor molecule was found to activate a specific receptor in the plant cell membrane.

(496) The antisymmetric shape of the molecule allowed it to fit perfectly into the receptor site.

(497) The n-methylated form of a neurotransmitter may have a different affinity for its receptor.

(498) The binding of dioxin to the receptor can also be visualized using fluorescence microscopy.

(499) The dimerization of the receptor was essential for ligand binding and downstream signaling.

(500) The receptor on the muscle cell is responsible for detecting the presence of acetylcholine.

(501) The receptor on the adrenal gland is responsible for detecting adrenocorticotropic hormone.

(502) The receptor on the thyroid gland is responsible for detecting thyroid-stimulating hormone.

(503) Women with estrogen receptor-positive breast cancer often benefit from antiestrogen therapy.

(504) The steric interactions between the ligand and the receptor determined the binding affinity.

(505) Angiotensin receptor blockers are also used to treat heart failure and diabetic nephropathy.

(506) The open-chain conformation of this molecule facilitates its binding to a specific receptor.

(507) The chemoattractant receptor on the cell surface initiates a signaling cascade upon binding.

(508) The depolarized state of the taste receptor allowed for the perception of different flavors.

(509) The binding of ecdysone to its receptor initiates a signaling pathway that leads to molting.

(510) The idiotype of a cytokine receptor determines its ability to activate downstream signaling.

(511) The stereochemical properties of the ligand influenced its binding affinity to the receptor.

(512) Women with estrogen receptor-positive breast cancer may benefit from antiestrogen treatment.

(513) The aglycone of a steroid hormone is the active form that binds to its receptor in the body.

(514) The binding of dioxin to the receptor can also affect the development of the nervous system.

(515) The receptor on the cell membrane is responsible for receiving signals from the environment.

(516) The binding of adenosine diphosphate to its receptor can activate various signaling pathways.

(517) The beta receptor is a target for certain medications used in the treatment of heart failure.

(518) The oligomeric form of the receptor was responsible for its high affinity binding to ligands.

(519) The scientists discovered that the isoforms of the receptor had different binding affinities.

(520) The depolarised state of the olfactory receptor allowed for the detection of a specific odor.

(521) The binding of dioxin to the receptor can be modulated by certain drugs or natural compounds.

(522) The receptor on the fat cell is responsible for detecting insulin and initiating fat storage.

(523) The receptor was sensitive to temperature changes, so it was used to measure thermal stimuli.

(524) The biological activity of a drug can be measured by its ability to bind to a target receptor.

(525) The micromolar concentration of the inhibitor was sufficient to block the receptor activation.

(526) The binding of adenosine diphosphate to a receptor can activate a G-protein signaling pathway.

(527) The dichromat's color perception was altered due to the absence of one type of color receptor.

(528) Opsin is a G protein-coupled receptor that activates a signaling pathway in response to light.

(529) The receptor on the tongue is responsible for detecting sour, sweet, salty, and bitter tastes.

(530) Angiotensin II receptor antagonists are commonly used in patients with diabetic kidney disease.

(531) The baroreceptor is a fascinating sensory receptor with significant physiological implications.

(532) Muscarinic receptor dysfunction has been implicated in the pathogenesis of Alzheimer's disease.

(533) The binding of calcium to the parathyroid hormone receptor controls calcium release from bones.

(534) Polymorphisms in the dopamine receptor gene have been associated with addiction susceptibility.

(535) Leukotriene receptor antagonists have been shown to be effective in treating allergic rhinitis.

(536) The binding affinity of the ligand to the receptor was determined at micromolar concentrations.

(537) The noc receptor is a protein found in the nervous system that plays a role in pain perception.

(538) The binding affinity of the protein receptor to dioxin was measured using a fluorescence assay.

(539) The binding of adenosine diphosphate to its receptor triggers a cascade of intracellular events.

(540) The binding of calcium to the vitamin D receptor regulates calcium absorption in the intestines.

(541) The PTC taste receptor is located on the tongue and is responsible for detecting bitter flavors.

(542) The researchers are investigating the structural basis of the binding of dioxin to the receptor.

(543) The receptor on the pituitary gland is responsible for detecting gonadotropin-releasing hormone.

(544) Leukotriene receptor antagonists have been shown to reduce the frequency of asthma exacerbations.

(545) The open-chain conformation of this molecule allows for efficient binding to its target receptor.

(546) Mineralocorticoid receptor antagonists are commonly used to treat hypertension and heart failure.

(547) Angiotensin receptor blockers are contraindicated in pregnancy due to potential harm to the fetus.

(548) Leukotriene receptor antagonists have been shown to improve lung function in patients with asthma.

(549) The binding of adenosine diphosphate to a receptor can initiate a cascade of intracellular events.

(550) The fluorometric measurement was used to study the binding affinity of the ligand to the receptor.

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