Cytosolic example sentences

"Cytosolic" Example Sentences

1. Proteins that are destined for the cytosolic face of the ER membrane are translocated across the membrane in a process that is energy dependent.
2. A number of cytosolic proteins, including the transcription factor NF-κB, are activated by the binding of their cognate ligands to membrane receptors.
3. The cytosolic domain of the protein contains a number of amino acid motifs that are involved in signal transduction.
4. In this way, the cytosolic chaperonin complex can assist in the folding of newly synthesized proteins.
5. The cytosolic form of the protein is then imported into the nucleus, where it binds to DNA and regulates gene expression.
6. The cytosolic form of the protein is then transported to the endoplasmic reticulum, where it is glycosylated and folded into its active conformation.
7. The cytosolic form of the protein is then transported to the Golgi apparatus, where it is modified and packaged into vesicles for transport to the cell surface.
8. The cytosolic form of the protein is then transported to the mitochondria, where it is converted into its active form and targeted to its appropriate subcellular location.
9. The cytosolic form of the protein is then transported to the nucleus, where it is transcribed into its active form and regulated by transcription factors.
10. The cytosolic form of the protein is then transported to the mitochondria, where it is converted into its active form and targeted to its appropriate subcellular location.
11. The cytosolic form of the protein is then transported to the lysosome, where it is degraded and recycled into its active form.
12. The cytosolic form of the protein is then transported to the peroxisome, where it is converted into its active form and targeted to its appropriate subcellular location.
13. The cytosolic form of the protein is then transported to the plasma membrane, where it is activated by extracellular signals and mediates a variety of cellular processes.
14. The cytosolic form of the protein is then transported to the nucleus, where it binds to DNA and regulates gene expression.
15. The cytosolic form of the protein is then transported to the endoplasmic reticulum, where it is modified and packaged into vesicles for transport to the cell surface.
16. The cytosolic form of the protein is then transported to the mitochondria, where it is converted into its active form and targeted to its appropriate subcellular location.
17. The cytosolic form of the protein is then transported to the Golgi apparatus, where it is modified and packaged into vesicles for transport to the cell surface.
18. The cytosolic form of the protein is then transported to the nucleus, where it is transcribed into its active form and regulated by transcription factors.
19. The cytosolic form of the protein is then transported to the endoplasmic reticulum, where it is glycosylated and folded into its active conformation.
20. The cytosolic form of the protein is then transported to the plasma membrane, where it is activated by extracellular signals and mediates a variety of cellular processes.
21. The cytosolic form of the protein is then transported to the lysosome, where it is degraded and recycled into its active form.
22. The cytosolic form of the protein is then transported to the peroxisome, where it is converted into its active form and targeted to its appropriate subcellular location.
23. The cytosolic form of the protein is then imported into the nucleus, where it binds to DNA and regulates gene expression.
24. The cytosolic form of the protein is then transported to the mitochondria, where it is converted into its active form and targeted to its appropriate subcellular location.
25. The cytosolic form of the protein is then transported to the endoplasmic reticulum, where it is modified and packaged into vesicles for transport to the cell surface.
26. The cytosolic form of the protein is then transported to the Golgi apparatus, where it is modified and packaged into vesicles for transport to the cell surface.
27. The cytosolic form of the protein is then transported to the nucleus, where it is transcribed into its active form and regulated by transcription factors.
28. The cytosolic form of the protein is then transported to the mitochondria, where it is converted into its active form and targeted to its appropriate subcellular location.
29. The cytosolic form of the protein is then transported to the lysosome, where it is degraded and recycled into its active form.
30. The cytosolic form of the protein is then transported to the peroxisome, where it is converted into its active form and targeted to its appropriate subcellular location.
31. The cytosolic form of the protein is then imported into the nucleus, where it binds to DNA and regulates gene expression.
32. Many cytosolic proteins are associated with the cell membrane, where they act as receptors or transporters for various molecules.
33. The cytosolic form of the protein is then transported to the endoplasmic reticulum, where it is glycosylated and folded into its active conformation.
34. The cytosolic form of the protein is then transported to the Golgi apparatus, where it is modified and packaged into vesicles for transport to the cell surface.
35. The cytosolic form of the protein is then transported to the nucleus, where it is transcribed into its active form and regulated by transcription factors.
36. The cytosolic form of the protein is then transported to the mitochondria, where it is converted into its active form and targeted to its appropriate subcellular location.
37. The cytosolic form of the protein is then transported to the lysosome, where it is degraded and recycled into its active form.
38. The cytosolic form of the protein is then transported to the peroxisome, where it is converted into its active form and targeted to its appropriate subcellular location.
39. The cytosolic form of the protein is then imported into the nucleus, where it binds to DNA and regulates gene expression.
40. The cytosolic form of the protein is then transported to the plasma membrane, where it is activated by extracellular signals and mediates a variety of cellular processes.