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Principle of protein folding in the cellular environment

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Presentation on theme: "Principle of protein folding in the cellular environment"— Presentation transcript:

1 Principle of protein folding in the cellular environment
The ability of newly synthesized protein chains to fold into their functional form within the complex intracellular environment.

2 Molecular Chaperons Proteins that help the folding of other proteins, usually through cycles of binding and release, without forming part of their final native structure. Increase in the efficiency, not the specificity, of protein folding Change in emphasis from post-translational modification to co-translational modification In vitro, both GroEL and Hsp70 interact promiscuously with most unfolded proteins.

3 Protein folding in the cytosol of prokaryotic and eukaryotic cells.

4 NAC: nascent-chain associated complex
TF: Trigger Factor NAC: nascent-chain associated complex

5 Folding of small protein Hsp 70 and chaperonin independent
Folding of complex proteins with discontinuous surfaces: chaperons dependent Folding of aggregation sensitive or multidomain small chaperon dependent (e.g. Hsp 70 or TF

6

7 ATPase Cycle and Atomic Structure of the ATPase Domain of Hsp70 Proteins

8 A chaperonin called GroEL-GroES complex (from Escherichia coli)
Two rings of 7x2GroEL proteins (shown in blue and green) with a cap (just on one side) of GroES proteins (red and yellow)

9 Pathways of chaperone-mediated protein folding in the cytosol
Nascent polypeptide chains are met by trigger factor (TF) as they emerge from the ribosome. The 70-kDa heat-shock protein DnaK, which is stimulated by its J-domain co-chaperone DnaJ, also binds nascent polypeptides. Newly synthesized polypeptides can fold spontaneously or can be assisted by DnaK. Alternatively, they can be passed to the GroEL–GroES chaperonin system for final folding, and, in some cases, might again interact with DnaK.

10 The steric information necessary for newly synthesized protein chains to fold correctly within cells resides solely in the primary structure of the initial translation product. Three families of molecular chaperone best known to interact with newly synthesized protein: hsp70, hsp40, and chaperonins

11 Reference

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