Ligand in a sentence

(1) Allosteries can be modulated by ligand binding.

(2) Nicotinic receptors are ligand-gated ion channels.

(3) The bidentate ligand exhibits a unique binding mode.

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

(5) Rhodanate is a common ligand in coordination chemistry.

(6) Imidazole can act as a ligand in coordination chemistry.

(7) Alkyne can be used as a ligand in coordination chemistry.

(8) Pyrrol can be used as a ligand in coordination chemistry.

(9) The nitrosyl ligand is commonly found in metal complexes.

(10) Thiocyanate is a common ligand in coordination chemistry.

Ligand sentence

(11) Ligand binding triggers a cascade of intracellular events.

(12) Pyrrole can be used as a ligand in coordination chemistry.

(13) The binding of a ligand can induce allostery in a protein.

(14) The adduct can be formed between a metal ion and a ligand.

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

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

(17) The chelate ligand acts as a bridge between the metal ions.

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

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

(20) Phenoxide can be used as a ligand in coordination chemistry.

Ligand make sentence

(21) Acetylide can be used as a ligand in coordination chemistry.

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

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

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

(25) Chemokine receptors can be internalized upon ligand binding.

(26) The bivalency of the ligand determines its binding affinity.

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

(28) Allyl is commonly used as a ligand in coordination chemistry.

(29) Alkoxide is often used as a ligand in coordination chemistry.

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

Sentence of ligand

(31) Dimers can undergo conformational changes upon ligand binding.

(32) Thiocyanate can be used as a ligand in coordination chemistry.

(33) Thiofuran is often used as a ligand in coordination chemistry.

(34) The tridentate ligand is commonly used in catalysis reactions.

(35) The scientist used a tripodal ligand to bind to the metal ion.

(36) Deuterium is used in the study of protein-ligand interactions.

(37) Ligand binding can trigger the release of secondary messengers.

(38) The chromous ion formed a coordination complex with the ligand.

(39) The bidentate ligand forms a stable complex with the metal ion.

(40) Diazine is commonly used as a ligand in coordination chemistry.

Ligand meaningful sentence

(41) The multidentate ligand can bridge two metal ions in a complex.

(42) Allostery can be induced by changes in the binding of a ligand.

(43) The tridentate ligand can be synthesized using various methods.

(44) The carbonate ion is a common ligand in coordination chemistry.

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

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

(47) Ligand binding can initiate a signaling cascade within the cell.

(48) Integrin can undergo conformational changes upon ligand binding.

(49) The multidentate ligand is commonly used in catalytic reactions.

(50) The malonate anion is a common ligand in coordination chemistry.

Ligand sentence examples

(51) The Kd of a ligand can be determined using equilibrium dialysis.

(52) Integrins can undergo conformational changes upon ligand binding.

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

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

(55) Tetrazole is commonly used as a ligand in coordination chemistry.

(56) The tridentate ligand is a versatile tool in synthetic chemistry.

(57) The amino group can be used as a ligand in coordination chemistry.

(58) The ligand molecule undergoes conformational changes upon binding.

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

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

Sentence with ligand

(61) Cyclopentadiene can be used as a ligand in coordination chemistry.

(62) The bidentate ligand exhibits a high degree of geometric rigidity.

(63) The multidentate ligand forms a stable complex with the metal ion.

(64) The ammine ligand played a crucial role in the catalytic reaction.

(65) The tridentate ligand enhances the stability of the metal complex.

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

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

(68) Ligand binding affinity determines the strength of the interaction.

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

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

Use ligand in a sentence

(71) Ligand binding can lead to the activation of transcription factors.

(72) Ligands can undergo ligand exchange reactions with other molecules.

(73) The thiolate ligand coordinates to the metal center in the complex.

(74) The interaction between integrin and its ligand is highly specific.

(75) The binding of a ligand induces the tetramerization of the protein.

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

(77) The tridentate ligand in this compound exhibits chelating behavior.

(78) The multidentate ligand forms a chelate complex with the metal ion.

(79) The multidentate ligand exhibits a high affinity for the metal ion.

(80) The Kd of a ligand can be affected by changes in pH or temperature.

Sentence using ligand

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

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

(83) Ligand binding can result in the opening or closing of ion channels.

(84) The binding of integrin to its ligand is crucial for cell signaling.

(85) The multidentate ligand can adopt different coordination geometries.

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

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

(88) The multidentate ligand enhances the solubility of the metal complex.

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

(90) The cyanate anion is often used as a ligand in coordination chemistry.

Ligand example sentence

(91) The complex formed by the multidentate ligand exhibits high stability.

(92) Bivalencies are important in the study of protein-ligand interactions.

(93) The rotamers of a ligand can affect its binding affinity to a protein.

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

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

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

(97) The phthalic group is often used as a ligand in coordination chemistry.

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

(99) Azobenzene can be used as a probe to study protein-ligand interactions.

(100) Ethylenediamine is commonly used as a ligand in coordination chemistry.

Sentence with word ligand

(101) The histidine side chain can be involved in ligand binding in proteins.

(102) The macrocyclic ligand showed excellent stability in aqueous solutions.

(103) The multidentate ligand can be tailored to bind to specific metal ions.

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

(105) The tridentate ligand is often used in bioinorganic chemistry research.

(106) The capsid of a virus can be used to study protein-ligand interactions.

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

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

(109) The chelate ligand undergoes a conformational change upon metal binding.

(110) Allosteries can be allosteric regulators of protein-ligand interactions.

Sentence of ligand

(111) The selectivities of these receptors determine their ligand specificity.

(112) The multidentate ligand possesses multiple binding sites for metal ions.

(113) The multidentate ligand can be synthesized through a multistep reaction.

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

(115) The Kd of a ligand can be influenced by the presence of other molecules.

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

(117) The aspartic acid residue in a protein can be involved in ligand binding.

(118) The biophore is a valuable tool for studying protein-ligand interactions.

(119) The dimeric protein undergoes conformational changes upon ligand binding.

(120) The multidentate ligand forms a stable complex with the transition metal.

Ligand used in a sentence

(121) The multidentate ligand can be used as a sensor for detecting metal ions.

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

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

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

(125) The nanoparticles were functionalized colloidally with a targeting ligand.

(126) The chelate ligand coordinates with the metal ion through its donor atoms.

(127) Allosteries can modulate the binding affinity of a protein for its ligand.

(128) The bidentate ligand coordinates to the metal ion through two donor atoms.

(129) The bidentate nature of the ligand allows for efficient electron transfer.

(130) The multidentate ligand forms a stable complex even at low concentrations.

Ligand sentence in English

(131) The use of a chiral ligand in the reaction improved the stereoselectivity.

(132) The multidentate ligand can be modified to enhance its binding properties.

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

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

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

(136) Oligomeric proteins can undergo conformational changes upon ligand binding.

(137) The synthesis of this tridentate ligand involves a series of complex steps.

(138) The tridentate ligand in this coordination compound enhances its stability.

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

(140) The multidentate ligand has several donor atoms available for coordination.

(141) The multidentate ligand can be easily regenerated after metal coordination.

(142) The multidentate ligand undergoes a redox reaction upon metal coordination.

(143) The multidentate ligand can form a coordination polymer with the metal ion.

(144) The chelate complex was formed by binding a metal ion to a ligand molecule.

(145) The stereoselectivity of the reaction was improved by using a chiral ligand.

(146) The ligand concentration in the blood determines the strength of the signal.

(147) The binding of integrin to its ligand can induce changes in gene expression.

(148) The chelate ligand can selectively bind to specific metal ions in a mixture.

(149) The tridentate ligand in this coordination compound can act as a Lewis base.

(150) The multidentate ligand can bridge two metal ions in a coordination complex.

(151) The multidentate ligand exhibits a high binding constant with the metal ion.

(152) The multidentate ligand coordinates to the metal ion in a specific geometry.

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

(154) The tridentate ligand coordinates with the metal ion in a specific geometry.

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

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

(157) The multidentate ligand enhances the catalytic activity of the metal complex.

(158) The multidentate ligand shows promising potential in biomedical applications.

(159) The divalency of the ligand made it an ideal candidate for chelation therapy.

(160) The pharmacophore of the ligand was used to design a new class of inhibitors.

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

(162) The tridentate ligand is an important component in many industrial processes.

(163) The reactivity of organometallic compounds can be controlled by ligand design.

(164) The chelate ligand binds to the metal ion through multiple coordination sites.

(165) The compound's dextrorotation was affected by the presence of a chiral ligand.

(166) The multidentate ligand plays a crucial role in stabilizing the metal complex.

(167) The multidentate ligand exhibits a high stability constant with the metal ion.

(168) The Kd of a ligand can be influenced by the presence of allosteric modulators.

(169) The transmembrane protein undergoes conformational changes upon ligand binding.

(170) The conformational transitions in the protein were triggered by ligand binding.

(171) The coordination geometry of the complex is determined by the bidentate ligand.

(172) The bidentate nature of the ligand provides increased stability to the complex.

(173) The multidentate ligand can coordinate with multiple metal ions simultaneously.

(174) The multidentate ligand exhibits a high binding affinity towards the metal ion.

(175) The multidentate ligand exhibits a high selectivity towards certain metal ions.

(176) The multidentate ligand coordinates with the metal ion through its donor atoms.

(177) The multidentate ligand exhibits a unique coordination mode with the metal ion.

(178) Chemokine receptors can undergo desensitization upon prolonged ligand exposure.

(179) The multidentate ligand can bind to the metal ion through multiple donor atoms.

(180) The binding of an inhibitory ligand will hyperpolarize the postsynaptic neuron.

(181) The bidentate ligand coordinates with the metal center through two donor atoms.

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

(183) The bivalent ligand was able to bind to two different receptors simultaneously.

(184) The use of benzylidine as a ligand in coordination chemistry has been explored.

(185) The bifunctional ligand can bind to two different receptors with high affinity.

(186) The chelate complex displayed enhanced fluorescence compared to the free ligand.

(187) The chelate ligand can enhance the solubility of metal ions in organic solvents.

(188) The tridentate ligand in this molecule imparts a distinct color to the compound.

(189) Heterologously expressed receptors can be used to study ligand binding kinetics.

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

(191) The multidentate ligand can be used as a catalyst in various chemical reactions.

(192) The multidentate ligand undergoes a ligand exchange reaction with the metal ion.

(193) The ammine ligand was shown to enhance the stability of certain metal complexes.

(194) The univalent cation was found to have a strong affinity for the anionic ligand.

(195) The reoxidation of the metal ion is necessary for its complexation with a ligand.

(196) The tridentate ligand in this complex can selectively bind to certain metal ions.

(197) The macrocyclic ligand showed high selectivity towards the metal ion of interest.

(198) The multidentate ligand can be modified to fine-tune its coordination properties.

(199) The multidentate ligand exhibits a strong binding affinity towards the metal ion.

(200) The multidentate ligand can be synthesized through a multistep reaction sequence.

(201) The steric hindrance of the ligand affected its binding affinity to the metal ion.

(202) The tridentate ligand in this compound can act as a bridge between two metal ions.

(203) The bidentate nature of the ligand influences the redox properties of the complex.

(204) The multidentate ligand undergoes a conformational change upon metal coordination.

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

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

(207) The Kd of a protein-ligand complex can be measured using spectroscopic techniques.

(208) The interaction of ligase with DNA ligand molecules affects its catalytic activity.

(209) The macrocyclic ligand demonstrated high catalytic activity in a specific reaction.

(210) The chiral ligand played a crucial role in achieving the desired stereoselectivity.

(211) The ammine ligand was selectively removed from the metal complex using a mild acid.

(212) The coordination complex formed by the tridentate ligand exhibits a unique geometry.

(213) The tridentate ligand in this coordination complex forms a stable six-membered ring.

(214) The multidentate ligand shows a remarkable ability to stabilize metal nanoparticles.

(215) The multidentate ligand can be immobilized on solid supports for catalytic purposes.

(216) The multidentate nature of the ligand allows for increased stability of the complex.

(217) The reactivity of organometallic compounds can be controlled by the choice of ligand.

(218) The tridentate ligand in this compound has a high affinity for transition metal ions.

(219) The tridentate ligand in this complex can be modified to tune its binding properties.

(220) The multidentate ligand is capable of binding to different metal ions simultaneously.

(221) The tridentate ligand has a unique structure that allows for efficient metal binding.

(222) The complexometric method is based on the principle of metal-ligand complex formation.

(223) The tridentate ligand in this compound plays a crucial role in its catalytic activity.

(224) The ligand in this complex is multidentate, forming multiple bonds with the metal ion.

(225) The multidentate ligand can be used to selectively extract metal ions from a solution.

(226) The rhodanate anion is a strong ligand that can form stable complexes with metal ions.

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

(228) The binding affinity of a ligand can be influenced by the type of counterions present.

(229) The tridentate ligand in this molecule can undergo a redox reaction with the metal ion.

(230) The bidentate nature of the ligand provides increased selectivity in complex formation.

(231) The difunctional ligand was able to bind to two different receptors with high affinity.

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

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

(234) Platinocyanide has been used as a model compound for studying metal-ligand interactions.

(235) The ability of chelates to bind to metal ions is due to their specific ligand structure.

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

(237) Bidentate ligands can undergo ligand exchange reactions with other coordinating species.

(238) The multidentate ligand can adopt different conformations when binding to the metal ion.

(239) The multidentate ligand undergoes a conformational change upon binding to the metal ion.

(240) The fluorimetric technique was used to monitor the binding of the protein to the ligand.

(241) The bidentate ligand can be easily synthesized and modified to fine-tune its properties.

(242) The tridentate ligand in this molecule can undergo a coordination isomerization reaction.

(243) The bidentate ligand coordinates to the metal center through two lone pairs of electrons.

(244) The multidentate ligand can be immobilized on a solid support for catalytic applications.

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

(246) The bidentate ligand is commonly used in bioinorganic chemistry to study metalloproteins.

(247) Allosterically controlled proteins can undergo allosteric transitions upon ligand binding.

(248) The use of pyrrolidine as a ligand in coordination chemistry has been extensively studied.

(249) The binding energy of a protein-ligand complex determines the strength of the interaction.

(250) The multidentate ligand enhances the solubility of the metal complex in aqueous solutions.

(251) The multidentate ligand forms a highly symmetric coordination sphere around the metal ion.

(252) The bipyramidal coordination geometry of the complex is stabilized by ligand-field effects.

(253) Allosterically modulated proteins can undergo conformational changes upon binding a ligand.

(254) The complexometric method is based on the principle of metal-ligand coordination chemistry.

(255) The tridentate ligand in this compound can form a coordination sphere around the metal ion.

(256) Benzanthracene can be used as a fluorescent probe for studying protein-ligand interactions.

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

(258) The bidentate ligand is capable of forming a five-membered chelate ring with the metal ion.

(259) Phenanthridine has been used as a ligand in coordination chemistry to form metal complexes.

(260) The depolarized state of the neuron was caused by the opening of ligand-gated ion channels.

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

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

(263) The conformational rearrangement of the peptide was induced by binding to a specific ligand.

(264) The bidentate ligand forms a stable complex with the metal ion due to its chelating ability.

(265) The coordination number of a metal ion in a complex can influence its ligand field strength.

(266) The chiral ligand played a crucial role in achieving high stereoselectivity in the reaction.

(267) The enantiomorphs of the chiral ligand can influence the stereochemistry of metal complexes.

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

(269) The ligand has a bidentate structure that allows it to bind to two metal ions simultaneously.

(270) The ligand is tridentate, meaning it can bind to a metal ion with three points of attachment.

(271) Complexometric titrations involve the formation of a complex between a metal ion and a ligand.

(272) The tridentate ligand in this compound can form a stable complex with a variety of metal ions.

(273) The tridentate ligand in this complex coordinates with the metal ion through three donor atoms.

(274) The tridentate ligand in this compound can be used as a catalyst in various chemical reactions.

(275) The n-s coordination of the metal ion with the ligand is important for its biological activity.

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

(277) The stability of a complexation reaction depends on the nature of the ligand and the metal ion.

(278) The tridentate ligand in this complex can undergo a ligand exchange reaction with other ligands.

(279) The tridentate ligand in this complex can be selectively functionalized at specific donor atoms.

(280) The multidentate ligand plays a crucial role in controlling the reactivity of the metal complex.

(281) The diatropic effect of the ligand on the metal center influenced the reactivity of the complex.

(282) The bidentate ligand plays a crucial role in the design of new materials with unique properties.

(283) The complexometric reaction involves the formation of a complex between a metal ion and a ligand.

(284) The tridentate ligand in this compound can form a stable complex with a high coordination number.

(285) The tridentate ligand in this coordination complex can exhibit different coordination geometries.

(286) The macrocyclic ligand demonstrated excellent chelating properties towards transition metal ions.

(287) The tetracarboxylic acid ligand was found to enhance the catalytic activity of the metal complex.

(288) Cyclopropanes are often used as probes to study enzyme mechanisms and protein-ligand interactions.

(289) Researchers can use the rotamers array to study the effects of ligand binding on protein dynamics.

(290) The presence of a heteroatom in benzothiophene makes it a useful ligand in coordination chemistry.

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

(292) The transmembrane receptor triggers a series of intracellular signaling events upon ligand binding.

(293) The multidentate ligand can be used as a building block for constructing supramolecular structures.

(294) The fluorimetric technique was employed to study the interaction between the protein and the ligand.

(295) The tridentate ligand in this compound exhibits a strong binding affinity towards certain metal ions.

(296) The tridentate ligand in this coordination complex can exhibit different stereochemical arrangements.

(297) The activation of the receptor by the ligand triggered a cascade of intracellular signaling pathways.

(298) Dendrites can have different types of ligand-gated channels that respond to specific neurotransmitters.

(299) The complexometric reaction can be affected by the presence of complexing agents other than the ligand.

(300) The tridentate ligand in this molecule can undergo a conformational change upon binding to a metal ion.

(301) The carboxylate anion can act as a ligand, coordinating with metal ions to form coordination complexes.

(302) Chelate formation is a reversible process that depends on the concentration of the ligand and metal ion.

(303) The binding affinity of a ligand can be influenced by the type and concentration of counterions present.

(304) The bidentate ligand is often used in coordination chemistry to control the geometry of metal complexes.

(305) The multidentate ligand forms a stable complex with the metal ion, even in the presence of other ligands.

(306) The bidentate ligand is a versatile tool in synthetic chemistry for the preparation of complex molecules.

(307) The tridentate ligand in this complex can be easily synthesized from readily available starting materials.

(308) The tridentate ligand in this coordination complex can stabilize the metal ion in a specific oxidation state.

(309) The bidentate ligand is commonly used in catalysis reactions due to its ability to stabilize metal complexes.

(310) The use of azobenzene as a photoswitchable ligand has been explored in the field of supramolecular chemistry.

(311) Although the receptor was designed to bind to a specific ligand, it also showed affinity for other molecules.

(312) The ammine ligands in the complex can be easily replaced by other molecules through a ligand exchange reaction.

(313) Tridentate is a term used in chemistry to describe a ligand that can form three bonds with a central metal ion.

(314) The tridentate ligand in this compound can be used as a building block for the synthesis of more complex molecules.

(315) Isatin has been used as a ligand in coordination chemistry, and it has formed stable complexes with various metal ions.

(316) The receptor-ligand complex was internalized into the cell via clathrin-coated pits, where it underwent lysosomal degradation.

(317) The binding of the receptor to the ligand induced a conformational change that facilitated its interaction with downstream effectors.

(318) Although the dimer was highly reactive, it could be stabilized by adding a suitable ligand, and its properties were studied in detail.

(319) The activation of the receptor by the ligand led to the transcriptional upregulation of genes involved in cell proliferation and differentiation.

(320) The binding of an allosteric ligand to a G protein-coupled receptor can cause a conformational change in the receptor, which can activate downstream signaling pathways.

(321) The binding of an allosteric modulator to a receptor can alter the receptor's affinity for its ligand, and this can have downstream effects on cellular signaling pathways.

(322) The receptor is a complex protein that undergoes conformational changes when it binds to its ligand, and these changes are transmitted to other proteins in the cell, leading to a response.

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