I don't have a clue, what do you think?
Chaperone proteins play an important role in the process of protein synthesis, as they help make sure the amino acids that make up the protein arrange themselves in the proper shape and sequence.
Protein molecules that assist in the proper folding that keeps the new polypeptide segregated from "bad influences" in the cytoplasmic environment while it folds spontaneously.
A chaperone protein is used in the cell to ensure proper protein folding, among other cellular functions.
The endoplasmic reticulum serves many general functions, including the facilitation of protein folding and the transport of synthesized proteins in sacs called cisternae. Correct folding of newly-made proteins is made possible by several endoplasmic reticulum chaperone proteins, including protein disulfide isomerase (PDI), ERp29, the Hsp70 family member Grp78, calnexin, calreticulin, and the peptidylpropyl isomerase family. Only properly-folded proteins are transported from the rough ER to the Golgi complex.
because the shape of a protein allows it to perform its particular job
The endoplasmic reticulum serves many general functions, including the facilitation of protein folding and the transport of synthesized proteins in sacs called cisternae. Correct folding of newly-made proteins is made possible by several endoplasmic reticulum chaperone proteins, including protein disulfide isomerase (PDI), ERp29, the Hsp70 family member Grp78, calnexin, calreticulin, and the peptidylpropyl isomerase family. Only properly-folded proteins are transported from the rough ER to the Golgi complex.
Chaperonins provide a good environment to facilitate protein folding.
The rough ER is the site of protein modification and folding of proteins, if they need folding. The smooth ER is the site of lipid and steroid synthesis.
The rough ER is the site of protein modification and folding of proteins, if they need folding. The smooth ER is the site of lipid and steroid synthesis.
translation and folding of new proteins (rough endoplasmic reticulum), expression of lipids (smooth endoplasmic reticulum)
No. All enzymes are proteins but not all proteins are enzymes. Muscle tissue is made of protein but it is not made of enzymes.
An example of Tertiary structure regarding proteins are: ~side chains reactions ~sulfide bridges ~hydrophobic reactions ~chaperone proteins A protein may require 2 or more chains; if so, it will be considered a Quaternary Structure.