"Prosite" Example Sentences
1. Prosites are patterns of amino acid sequences that help identify proteins.
2. The Prosite database contains information about protein domains and motifs.
3. Bioinformatics tools can be used to scan for prosites in a protein sequence.
4. The identification of prosites in a protein sequence can provide insight into its function.
5. The prosite motif "NPxY" is commonly found in receptor tyrosine kinases.
6. Some prosites are specific to certain organisms or protein families.
7. The presence of a prosite can indicate a protein's location within a cell.
8. Prosites can also be used to predict the 3D structure of a protein.
9. Highly conserved prosites may indicate a critical role in protein function.
10. Prosites can be used in the design of drugs that target specific proteins.
11. The prosite "GDP-Man" is involved in the biosynthesis of plant cell walls.
12. Prosites can be used in the engineering of proteins for various applications.
13. Prosite analysis can be used to predict potential post-translational modifications of a protein.
14. The identification of prosites in a genome can help predict its proteome.
15. Prosites can also be used to predict protein-protein interactions.
16. Some prosites are involved in the regulation of protein activity.
17. The prosite "FAD-binding" is found in many oxidative enzymes.
18. Certain prosites are implicated in protein misfolding and disease.
19. Prosites can be used to identify potential ligands for a protein.
20. The prosite "ATP-grasp" is involved in the biosynthesis of amino acids and cofactors.
21. Prosites are constantly being updated and expanded with new information.
22. The prosite "PKC_phosphorylation" is required for the activation of certain enzymes.
23. Prosites can be used to predict the subcellular localization of a protein.
24. The prosite "PD-(D/E)XK" is found in many nucleases.
25. Specific prosites can be used as markers for disease diagnosis.
26. The presence of certain prosites can be used to predict a protein's stability.
27. Prosites can also be used to predict potential epitopes for vaccine development.
28. The prosite "SH2" is involved in signaling pathways and protein-protein interactions.
29. Some prosites are involved in the biosynthesis of small molecules such as antibiotics.
30. The identification of prosites can be used in the engineering of biosensors for protein detection.
Common Phases
- Signal peptide present
- Glycosylation site
- Zinc finger motif
- DNA-binding domain
- Protein kinase signature
- N-linked glycosylation site
- Lipoprotein acylation site
- NAD-binding domain
- Calcium-binding region
- Betaine aldehyde dehydrogenase signature
- Cysteine-rich region
- ATP-binding site
- Transmembrane region
- SH2 domain signature
- Pyridoxal phosphate attachment site
- Armadillo repeat
- EF-hand domain
- Myristoylation site
- Protein phosphatase 2C signature
- Coiled coil region
- WD repeat
- ATP/GTP-binding site motif A
- P-loop containing nucleoside triphosphate hydrolase
- Nuclear localization signal
- Ribosomal protein S5 signature 2
- Immunoglobulin-like fold
- Sigma-54 interaction domain
- Homeobox domain