"Conformations" Example Sentences
1. The protein's conformations were analyzed using advanced molecular modeling techniques.
2. The drug's efficacy was dependent on its ability to bind to specific conformations of the target receptor.
3. The study focused on exploring the different conformations that a particular peptide could adopt.
4. The researchers discovered a new conformation of a key enzyme that could have implications for drug design.
5. The protein's stability was found to be dependent on its ability to shift between different conformations.
6. The team used X-ray crystallography to determine the multiple conformations of a particular protein domain.
7. The drug's efficiency was found to be dependent on the specific conformation of the molecule in the binding site.
8. The study focused on analyzing the structural changes that occur during the transitions between different protein conformations.
9. The researchers were able to identify specific amino acid residues that were crucial for stabilizing particular protein conformations.
10. The protein's conformational changes upon ligand binding were studied using Nuclear Magnetic Resonance spectroscopy.
11. The drug's ability to interact with different receptor conformations was crucial for its therapeutic efficacy.
12. The research team focused on understanding the effects of specific mutations on the conformational stability of a key protein.
13. The study used computational modeling to explore the conformational changes that a particular protein undergoes during its catalytic cycle.
14. The researchers were able to identify different conformational states of a key enzyme that were crucial for its regulation.
15. The protein's conformational flexibility was found to be important for its function in membrane transport.
16. The drug's ability to recognize different receptor conformations was studied using bioinformatics tools.
17. The study explored the role of conformational entropy in determining the stability of a particular protein.
18. The researchers used mutagenesis experiments to investigate the conformational changes that occur during a protein-protein interaction.
19. The protein's conformational dynamics were analyzed using time-resolved fluorescence spectroscopy.
20. The drug's specificity for particular receptor conformations was optimized using rational design approaches.
21. The study used electron paramagnetic resonance spectroscopy to explore the conformations of a key protein in its oxidized and reduced states.
22. The researchers discovered a novel mechanism for regulating the conformational changes of a key signaling protein.
23. The protein's conformational transitions were studied using molecular dynamics simulations.
24. The drug's ability to recognize and stabilize a specific receptor conformation was found to be crucial for its activity.
25. The study investigated the effects of temperature and pressure on the conformational stability of a key enzyme.
26. The researchers used site-directed mutagenesis to create specific conformational variants of a key protein.
27. The protein's conformational rearrangements during its interaction with its substrate were studied using time-resolved crystallography.
28. The drug's binding to a specific receptor conformation was found to be enhanced by an allosteric modulator.
29. The study used circular dichroism spectroscopy to explore the conformational properties of a particular peptide.
30. The researchers investigated the role of specific salt bridges in stabilizing particular protein conformations.
Common Phases
1. Analyzing the different
conformations of a protein;
2. Determining the optimal conformation of a drug molecule;
3. Studying the influence of temperature on protein conformation;
4. Investigating conformational changes in DNA;
5. Comparing the conformational differences between two enzymes;
6. Evaluating the effect of pH on protein
conformations;
7. Modeling protein
conformations using computational methods;
8. Identifying the conformational changes that occur during protein-protein interactions;
9. Measuring the stability of different
conformations of a molecule;
10. Experimentally verifying a predicted conformation of a protein.