How is protein homeostasis maintained in eukaryotes?
key systems: ubiquitin-proteasome system, protein unfolded response, chaperone system
balance between protein synthesis and degradation/control; when one is out of control: problem
homeostasis: maintain balance between protein synthesis and quality control
How does the energy state of a protein change during folding?
unfolded proteins have high energy
there are multiple states that are more stable
correctly folded protein, but also folding intermediates and potentially harmful foldings
chaperones enable the crossing of energy barriers between semi-folded and folded states and inhibit aggregation and misfolding
Name two major protein degradation pathways in eukaryotes.
Proteasome/Ubiquitin system
Autophagy system
What are GTP and ATP used for?
ATP: general energy transfer
GTP: protein synthesis, signal transduction
Which cellular systems monitor protein folding?
Chaperone system
How can proteins be unfolded? Describe the mechanism.
Which amino acids are included in the pore-loop that interacts with extended polypeptides?
Unfoldase/AAA ATPase:
tunnel with (mostly) hydrophobic handles that pull the protein through a hole
ATP hydrolysis!
1 ATP -> 5-8 residues
initiation (“Einfädeln”) is the difficult part
Amino acids in the pore-loop:
mainly hydrophobic, often aromatic (hydrophobic “arms” of the unfoldase)
Phe, Val, Tyr
grab hydrophobic/aromatic amino acids of the peptide
interactions mustn’t be too strong either (not only hydrophobic interactions)
What are AAA+ ATPases and which processes are they involved in?
Name abundant AAA ATPase family proteins.
What is the number of ATPase subunits required to constitute a proteasome ATPase motor?
ATPases Associated with diverse cellular Activities
Protein familiy with conserved module
use ATP hydrolysis for conformational changes which exerts mechanical force onto macromolecules
diverse roles in the cell, for example involved in:
DNA replication
protein degradation
membrane fusion
peroxysome biogenesis
…
Abundant AAA ATPase family proteins:
proteasome
NSF (snare disassembly)
Orc1 (DNA replication)
Describe the structure of a 26S proteasome. What processes take place in which location?
19S: regulatory particle
20S: catalytic chamber
alpha: no catalytic activity, just control of entry of substrtes
beta: catalytic core, 3 catalytic subunits (caspase-, trypsine- and chemotrypsine-like activities)
Number of ATPase subunits per proteasome ATPase motor: 6
Name three peptidase activities of the proteasome.
caspase-like (cleavage after aspartate)
trypsine-like (cleavage after basic residues: His, Lys, Arg)
chymotrypsine-like (cleavage after large hydrophobic residues: Tyr, Phe, …)
What is the product of a protein that was digested by the proteasome?
Proteins are not cut into single amino acids.
Proteins are cleaved at protease cleaving sites.
With smaller peptides, affinity to ribosome decreases and not all sites are cleaved any more.
Product of proteasome reactions: Shorter peptides.
The shorter peptides are then cut down into single amino acids by tripeptidyl peptidase (-> 2-4 aa long peptides) and aminopeptidase (-> single aa).
What can proteasome inhibitors be used for? What is the problem?
Cancer therapy (proteasome inhibitors are very toxic)
Problem: cancer cells can get resistant by mutation of the proteasome.
How can the activity of a proteasome be changed? Name an example.
Activity can be adjusted by exchanging catalytic subunits.
Example: Immunoproteasome
is assembled when a virus infects the cell
cuts viral proteins into smaller peptides
degradation of potentially harmful proteins
small peptides can be used in immune recognition (as antigens)
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