Where are proteins produced?
On cytosolic ribosomes
Where are proteins transferred to?
Proteins need to be delivered to the place of function
domains with the cytsol
into diffrent rganelles
into different membanes
into the extracellular space
> 50 % of all proteins have to pass the membrane
What are the modes of protein distribution?
mRNA based
protein signal based
What is a topogenic signal?
Part of the polypetide chain anf in some cases is cleaved after succesful transport and translocation
Where can topogenic signals localized?
Depends on signal composition and localization on targeted organelle
What is dual targetting?
Delivery of one protein to more than one cellular destination
How can protein localization analysed?
isolation of organelles
WB or MS/MS
GFP tagging
What s the advantage of in vitro produced proteins?
semi-quantification possible
analysis of kinetics possible
impact of Targetting omitted
what is the advantage of fluorescence tags?
many reporter possible
impct of taretting detectable
How are proteins distributed in the cell?
Which compatments use targetting factors?
ER, Nucleus
Thylakoids,Chloroplasts
Mitochondira, Peroxisomes
Bacteria
What kinds of bacterial signals exist?
non-cleavable signal anchor sequences (SAS)
C-terminal tail anchor sequences (TAS)
cleavable signal peptides (SP)
What is SRP?
RNA protein complex that recognized emerging polypeptides
Is SRP conserved?
-Yes, across archea, bacteria ad eukaryotes
How does the SRP transport mantained?
Signal recognition by the SP54
Elongation arrest by Alu domain
Targetting complex formation
Docking of RNC to translocon
Signal release into translocon by the GTP hydrolysis
Where do SecA and TF bind?
Bind at the ribosomal exit tunel
How dies SecA drive secretion?
ATP hydrolysis by SecA transfers the signal unto the SecYEG channel
How are outer memvranes proteins handled in proteobacteria?
ransferred across the periplasm with the help from chaperones
How can proteins inserted in Proteobacteria?
What is the main outer membrane translocator in cyanobacteria?
BamA/OMP85
What ole does Tic22 play in cyanobacteria?
binds to membrane (PG/MGDG)
Recognition of substrate (ß-strand) release from mebrane
after reales from membrane intraction with Omp85
After interaction with Omp85 release of substrate
Recognition of free substrate by Omp85
what is the nuclear transport barrier based on?
though Phe/Gly (FG) domain-controlled barrier
nucleocytoplasmic transport
how does the nuclear pore work?
size selevtion of about 5 nm for molecules not interacting with FG
phase seperation & FG hydrogel formation through “cohesive” interactions - weak and driven by hydrophobicity of FG motifs
FG network requiered for the selective transport by NTF (nuclear transport factor)
What are NLS and NES and what forms exist?
Nuclear localization signal (NLS)
specific for IMPORTIN
classical NLS (K-K/R-X-K/R)
basic PY-NLS
K-X2-K/R-K/R-X2-3-R/K/H-X2-5-PY
hydrophobic PY-NLS
phi-G/A/S-phi-phi-phi-X2-3-phi-x-phi-PY
Nuclear export signal (NES)
specfic for EXPORTIN interaction
helical phi-X2-3-phi-X-2-3-phi-X-phi
are NES and NLS specific?
specific for the receptor
partially defined by consensus motif
What drives the import/export cycle?
Karyopherin-mediated transport involving factors such as NTF2
how does the import cycle work?
• Import starts when a cargo protein with an NLS binds an importin in the cytoplasm.
• The importin-cargo complex moves through the nuclear pore by interacting with FG-repeat nucleoporins.
• In the nucleus, Ran-GTP binds importin and makes the cargo let go.
• The cargo stays in the nucleus; the importin is recycled back to the cytoplasm.
• In the cytoplasm, Ran-GAP turns Ran-GTP into Ran-GDP, which resets the system.
how does the export cycle work?
• Export works the opposite way: an exportin binds cargo only in the nucleus.
• Ran-GTP helps exportin bind cargo and form the export complex.
• The complex moves to the cytoplasm, where Ran-GAP triggers GTP hydrolysis.
• Hydrolysis breaks the complex apart and releases the cargo in the cytoplasm.
• Ran-GDP is transported back to the nucleus and recharged to Ran-GTP.
• The Ran-GTP gradient is what gives the transport direction: high Ran-GTP in the nucleus, high Ran-GDP in the cytoplasm.
how des the transport of the peroxisomes in yeast work?
• Pex5 binds the cargo in the cytosol.
• The receptor-cargo complex docks at the peroxisome membrane.
• The cargo is imported into the matrix.
• Pex5 is recycled back to the cytosol.
• Slide 40 also shows de novo formation from the ER.
how des the transport tof the peroxisomes in mammals work?
Cargo docks at the peroxisome membrane and enters the matrix.
• The receptor is recycled after cargo release.
• Existing peroxisomes can grow and divide.
• New peroxisomes can also form de novo, with ER and sometimes mitochondria involved.
how is the peroxisomal import into the matrix mantained?
• Cargo selection: In the cytosol, the receptor PEX5 recognizes a peroxisomal targeting signal, usually the PTS1 at the cargo’s C-terminus.
• Docking: The PEX5–cargo complex binds the peroxisomal docking/translocation machinery on the membrane.
• Membrane passage: PEX5 and cargo move into the peroxisome through a translocation step; peroxisomes are unusual because they can import folded proteins.
• Cargo release: Once inside, the cargo is released into the peroxisomal matrix.
• Recycling signal: PEX5 then becomes modified, typically by monoubiquitination, which marks it for return.
• Export/recycling: The ubiquitin ligase complex helps extract PEX5 back to the cytosol through a retrotranslocation step.
• Reset: After removal from the membrane, PEX5 is deubiquitinated and reused for another import round.
• Why it is a cycle: The same receptor keeps shuttling between cytosol and peroxisome, so the process repeats continuousl
How is the genereal translocation pore pn the mitochondiral outer and inner mebrane look?
mitochondria: TOM complex
chloroplasts: TOC complex
how is the TOM complex built?
TOM 40: Porin/VDAC family
uneven number of beta strands
How is the TOC complex built?
-Toc75: Omp85 family
even number podra domain
How does the matrix import in mitochondria work?
How are the Tim-23-PAM dynamics?
TIM23 closed
Priming
TIM23 open
Binding to respiratory chain
a. Sorting: lateral release and IM integration
or
b. Primig for Matroix
Motor assembly
Active motor
Matrix translocation
Qhat are the stages of the carrier protein import?
Loop = (TIM) 22
Precursor bound to chaperones (Hsp70,90)
Binding of precursor-chaperone complex to Tom70 oligomer
a Translocation across OM and binding to Tim9-Tim10
b. Tethering to Tim9-10-12
Insertion into TIM22 complex
Assembled dimer
Intermembrane space folding
How does the mitochondral intermembrane space import and assembly (MIA) work?
Translocation across OM
Recognition by MIA40
Precursor oxidation by MIA40/Erv
Oligomeric assembly
Reoxidation by Erv1
Transport of electrons to respiratory chain
what mechanisms exist to insert alpha-helical proteins into mitochondrial outer membrane?
N-signal anchored
c-tail anchored
internal signal
multiple transmembrane segments
what is mitochondirla import linked to?
• Mitochondrial protein import is linked to mitochondrial shape and organization, not just transport.
• The import machinery helps bring in proteins needed for mitochondrial function and maintenance.
• So the big idea is a two-way connection: import affects morphology, and morphology affects import
how does the tic/tic systems works in choroplasts?
• Chloroplast proteins are made in the cytosol and imported after translation.
• They enter through TOC and then pass through TIC.
• The import pathway is energy-dependent and involves additional processing/folding control
What are the mechanisms for ER import?
Co-translational
post-translational
retro-translational
What are the mechnisms for protein transport?
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