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2. In situ cyclization of proteins - Wikipedia

   en.wikipedia.org/.../In_situ_cyclization_of_proteins

   The resulting crosslinked proteins or protein complexes have been shown to exhibit increased stability towards thermal and chemical stress and a lower tendency towards aggregation. [ 1 ] [ 6 ] So far, the melting temperature of proteins was increased by up to 39°C in a single design step.

3. Thermostability - Wikipedia

   en.wikipedia.org/wiki/Thermostability

   These interactions include salt bridges and hydrogen bonds. Salt bridges are unaffected by high temperatures, therefore, are necessary for protein and enzyme stability. A third force used to increase thermostability in proteins and enzymes is the presence of disulfide bonds. They present covalent cross-linkages between the polypeptide chains.

4. Cycloheximide chase - Wikipedia

   en.wikipedia.org/wiki/Cycloheximide_chase

   Cycloheximide chases are also valuable for assessing how different mutations affect the stability of a protein. Experiments have been conducted in yeast and mammalian cells to determine the critical residues required for protein stability and how disease-associated mutations may be affecting protein half-lives within the cell.

5. Thermal shift assay - Wikipedia

   en.wikipedia.org/wiki/Thermal_Shift_Assay

   Thermostable proteins are often more useful than their non-thermostable counterparts, e.g., DNA polymerase in the polymerase chain reaction, [7] so protein engineering often includes adding mutations to increase thermal stability. Protein crystallization is more successful for proteins with a higher melting point [8] and adding buffer ...

6. Chemoproteomics - Wikipedia

   en.wikipedia.org/wiki/Chemoproteomics

   Upon binding to a ligand, a protein's thermal stability is expected to increase, so ligand-bound proteins will be more resistant to thermal denaturation. After heating, the amount of non-denatured protein remaining is analyzed using quantitative proteomics and stability curves are generated.

7. Protein engineering - Wikipedia

   en.wikipedia.org/wiki/Protein_engineering

   Protein engineering is the process of developing useful or valuable proteins through the design and production of unnatural polypeptides, often by altering amino acid sequences found in nature. [1] It is a young discipline, with much research taking place into the understanding of protein folding and recognition for protein design principles.