Multiprotein example sentences

"Multiprotein" Example Sentences

1. Multiprotein complexes are crucial for cellular regulation.
2. The formation of the multiprotein complex was observed under the microscope.
3. Researchers are studying the dynamic interactions within a multiprotein assembly.
4. A novel multiprotein interaction was identified through yeast two-hybrid screening.
5. Disruption of the multiprotein machinery leads to disease.
6. This pathway involves a large multiprotein scaffold.
7. The multiprotein structure was determined using cryo-EM.
8. Understanding multiprotein interactions is key to drug discovery.
9. Several multiprotein complexes regulate gene expression.
10. The multiprotein complex undergoes conformational changes.
11. Defects in multiprotein complexes are implicated in cancer.
12. Multiprotein interactions are often transient.
13. This study focuses on the assembly of a multiprotein machine.
14. The multiprotein signaling pathway is complex.
15. Multiprotein interactions are essential for signal transduction.
16. We identified a new multiprotein complex involved in DNA repair.
17. The multiprotein complex is highly conserved across species.
18. Investigating multiprotein dynamics is a challenging task.
19. A multiprotein network regulates cellular metabolism.
20. Drugs targeting multiprotein interactions are being developed.
21. The multiprotein complex acts as a molecular switch.
22. Mutations in genes encoding multiprotein components can be detrimental.
23. Analyzing multiprotein complexes requires advanced techniques.
24. This multiprotein system is remarkably robust.
25. The study revealed unexpected features of the multiprotein structure.
26. Multiprotein interactions can be modulated by post-translational modifications.
27. A comprehensive understanding of multiprotein complexes is crucial.
28. The multiprotein machinery is highly regulated.
29. This novel multiprotein complex is a promising drug target.
30. Multiprotein complexes are often dynamic and flexible.
31. Disrupting multiprotein interactions can have therapeutic effects.
32. The multiprotein complex assembles in a stepwise manner.
33. Computational modeling helps to understand multiprotein interactions.
34. Understanding the dynamics of multiprotein complexes is key.
35. The multiprotein complex functions as a molecular machine.
36. New techniques are needed to study multiprotein assemblies in vivo.
37. The role of the multiprotein complex in cell division is well-established.
38. Future research will focus on the regulation of the multiprotein complex.
39. We propose a new model for the assembly of the multiprotein complex.
40. This multiprotein complex is a prime example of allosteric regulation.
41. The research highlighted the importance of post-translational modifications on multiprotein function.
42. A multiprotein approach is needed to tackle this complex problem.
43. The multiprotein complex's activity is tightly controlled.
44. The study identified novel multiprotein interactions involved in disease.
45. Targeting multiprotein complexes could lead to new therapies.
46. The multiprotein complex is a key regulator of cellular processes.
47. Research on multiprotein complexes is rapidly advancing.
48. The multiprotein complex plays a critical role in cellular signaling.
49. This multiprotein system represents a novel therapeutic target.
50. Further investigation into the multiprotein complex is warranted.