Polyproteins example sentences
Related (9): multiprotein, multimeric, post-translational, proteolytic, translation, ribosome, catalytic, polypeptide, precursor
"Polyproteins" Example Sentences
1. Polyproteins are proteins that consist of more than one polypeptide chain.2. Polyproteins are formed by the cotranslational or posttranslational linking of separate peptides.
3. Polyproteins are found in all kingdoms of life, from bacteria to humans.
4. Polyproteins are involved in many important biological processes, such as cell signaling, gene regulation, and immune responses.
5. Polyproteins can be divided into two categories: those that are composed of multiple identical peptides, and those that are composed of multiple distinct peptides.
6. Polyproteins are often synthesized on ribosomes, in which the individual peptide chains are joined together.
7. Polyproteins can be modified by post-translational modification, such as phosphorylation, glycosylation, and proteolytic cleavage.
8. Polyproteins are often secreted from cells, and can play a role in intercellular communication.
9. Polyproteins can also be used as structural components in the cell, such as in the cytoskeleton or extracellular matrix.
10. Polyproteins are essential for the proper functioning of the immune system, as they are involved in the recognition and destruction of foreign substances.
11. The structure and function of polyproteins can vary drastically, depending on the number and type of peptide chains they contain.
12. Polyproteins are often regulated at the transcriptional or translational level, and can be subject to degradation by proteases.
13. Polyproteins can also be involved in protein-protein interactions, and can be used as biomarkers for certain diseases.
14. Polyproteins are also used in biotechnology, as they can be engineered to produce novel therapeutic proteins.
15. Polyproteins can be used as scaffolds for the production of artificial proteins, or as reagents for the detection of other proteins.
16. Polyproteins are also used in the production of vaccines and other biopharmaceuticals.
17. Polyproteins can be used as tools to study protein structure and function, as well as to identify novel targets for drug discovery and development.
18. Polyproteins are also being explored as potential treatments for various diseases, including cancer and neurodegenerative disorders.
19. Polyproteins have been used to create novel nanomaterials, such as nanotubes and nanowires.
20. Polyproteins are also being investigated as potential sources of renewable energy, as they can be used to produce hydrogen fuel.
Common Phases
1. Translation of mRNA to polyproteins;2. Post-translational Modifications;
3. Protein Folding;
4. Protein Transport;
5. Protein Interaction;
6. Protein Degradation.