Ligand example sentences

"Ligand" Example Sentences

1. The ligand binds to the metal ion in the complex.
2. The ligand-receptor interaction is crucial for signal transduction.
3. The ligand concentration affects the binding affinity of the receptor.
4. Ligands with high affinity have a stronger binding to the receptor.
5. The ligand-binding pocket is specific for certain types of ligands.
6. The ligand field theory explains the electronic structure of metal complexes.
7. The ligand-protein interaction can induce a conformational change in the protein.
8. The ligand exchange reaction involves the substitution of one ligand for another.
9. The ligand-binding assay is used to measure the affinity of a ligand for a receptor.
10. The ligand-metal bond strength determines the stability of a complex.
11. The ligand-gated ion channel opens in response to ligand binding.
12. The ligand coordination number refers to the number of ligands bound to a metal center.
13. The ligand-induced fit model explains how the protein conformation changes upon ligand binding.
14. The ligand dissociation constant (Kd) is a measure of the affinity of a ligand for a receptor.
15. The ligand selectivity is determined by the shape and chemical properties of the ligand-binding pocket.
16. The ligand-dependent transcription factor regulates gene expression in response to ligand binding.
17. The ligand exchange mechanism in DNA sequencing involves the use of modified nucleotides as ligands.
18. The ligand-induced receptor internalization leads to the removal of the receptor from the cell surface.
19. The ligand-coated nanoparticles can be used for targeted drug delivery.
20. The ligand field strength is determined by the nature of the ligands and their coordination mode.
21. The ligand-binding domain is the region of the receptor that interacts with the ligand.
22. The ligand-controlled allosteric regulation modulates enzyme activity in response to ligand binding.
23. The ligand-induced dimerization activates the receptor intracellular signaling pathway.
24. The ligand toxicity depends on its binding affinity to a receptor and its concentration.
25. The ligand substitution reaction can be catalyzed by ligand exchange agents.
26. The ligand-based drug design approach uses the structure of the ligand-binding pocket to design new drugs.
27. The ligand-induced receptor clustering promotes cell signaling and downstream events.
28. The ligand specificity of a receptor determines its biological function.
29. The ligand-protein complex stability can be predicted by computational modeling.
30. The ligand-induced receptor phosphorylation plays a crucial role in signal transduction.

Common Phases

1. Coordination of the ligand;
2. Binding of the ligand to the receptor;
3. Dissociation of the ligand from the receptor;
4. Specificity of ligand-receptor interaction;
5. Ligand selectivity;
6. Ligand-induced conformational changes;
7. Ligand-based drug design;
8. Ligand-mediated signaling;
9. Ligand binding affinity;
10. Ligand recognition;
11. Ligand-induced activation;
12. Ligand-gated ion channels;
13. Ligand-receptor complex formation;
14. Ligand-protein interactions;
15. Ligand-regulated gene expression.