2 protein targeting pathways protein synthesis always begins on free ribosomes in cytoplasm 1) post...
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2 Protein Targeting pathwaysProtein synthesis always begins on free ribosomes In cytoplasm1) Post -translational: proteins of plastids, mitochondria, peroxisomes and nuclei 2) Endomembrane system proteins are imported co-translationally
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2 pathways for Protein Targeting1) Post -translational2) Co-translational: Endomembrane system proteins are imported co-translationallyinserted in RER as they are madetransported to final destination in vesicles
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SIGNAL HYPOTHESISProtein synthesis begins on free ribosomes in cytoplasmendomembrane proteins have "signal sequence"that directs them to RER“attached” ribosomes are tethered to RER by the signal sequence
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SIGNAL HYPOTHESIS• Protein synthesis begins on free ribosomes in cytoplasm• Endomembrane proteins have "signal sequence"that directs them to RER• SRP (Signal Recognition Peptide) binds signal sequence when it pops out of ribosome & swaps GDP for GTP
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SIGNAL HYPOTHESISSRP stops protein synthesis until it binds “docking protein”(SRP receptor) in RER Ribosome binds Translocon & secretes protein through it as it is madeBiP (a chaperone) helps the protein fold in the lumen
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Subsequent eventsSimplest case:
1) signal is cleaved within lumen by signal peptidase2) BiP helps protein fold correctly3) protein is soluble inside lumen
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Subsequent eventsComplications: proteins embedded in membranes
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proteins embedded in membranesprotein has a stop-transfer sequence
too hydrophobic to enter aqueous lumen
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proteins embedded in membranesprotein has a stop-transfer sequence
too hydrophobic to enter lumentherefore gets stuck in membraneribosome releases translocon, finishes job in cytoplasm
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More ComplicationsSome proteins have multiple trans-membrane domains (e.g. G-protein-linked receptors)
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More ComplicationsExplanation: combinations of stop-transfer and internal signals-> results in weaving the protein into the membrane
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Sorting proteins made on RERSimplest case: no sorting• proteins in RER lumen are secreted
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Sorting proteins made on RERSimplest case: no sorting• proteins in RER lumen are secreted• embedded proteins go to plasma membrane
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Sorting proteins made on RER
Redirection requires extra information:
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Sorting proteins made on RER
Redirection requires extra information:
1) specific motif
2) receptors
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Sorting proteins made on RER ER lumen proteins have KDEL (Lys-Asp-Glu-Leu) motif Receptor in Golgi binds & returns these proteinsER membrane proteinshave KKXX motif
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Sorting proteins made on RERGolgi membrane proteins • cis- or medial- golgi proteins are marked by sequences in the membrane-spanning domain
• trans-golgi proteins have a tyrosine-rich sequence in their cytoplasmic C-terminus
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Sorting proteins made on RERPlant vacuolar proteins are zymogens (proenzymes)
signal
signal
VTS
VTS
Barley aleurain
Barley lectin
mature protein
mature protein
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Sorting proteins made on RERPlant vacuolar proteins are zymogens (proenzymes), cleaved to mature form on arrival• targeting motif may beat either end of protein
signal
signal
VTS
VTS
Barley aleurain
Barley lectin
mature protein
mature protein
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Sorting proteins made on RERlysosomal proteins are targeted by mannose 6-phosphate M 6-P receptors in trans-Golgi direct protein to lysosomes (via endosomes)M 6-P is added in Golgi by enzyme that recognizes lysosomal motif
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Glycosylation within ERAll endomembrane proteins are highly glycosylated on lumenal domains.Glycosylation starts in the ER, continues in the Golgi
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Glycosylation within ERAll endomembrane proteins are highly glycosylated on lumenal domains.Glycosylation starts in ER, continues in Golgi
makes proteins more hydrophilicessential for proper functiontunicamycin poisons cellsGlycosylation mutants are even sicker
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Glycosylation in RERremove 2 glucose & bind to chaperoneIf good, remove gluc 3 & send to GolgiIf bad, GT adds glucose& try againEventually, send bad proteins to cytosol & eat them
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Post-translational protein targeting
Key features
1) imported after synthesis
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Post-translational protein targeting
Key features1) imported after synthesis2) targeting information is motifs in protein a) which organelleb) site in organelle3) Receptors guide it to correct site4) no vesicles!
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Protein targeting in Post-translational pathway
SKL (ser/lys/leu) at C terminus targets most peroxisomal matrix proteins = PTS1
In humans 3 are targeted by 9 aa at N terminus = PTS2
Defective PTS2 receptor causes Rhizomelic chondrodysplasia punctata
N CSKL
N CPTS2
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Targeting peroxisomal proteins• Bind receptor in cytoplasm• Dock with peroxisomal receptors• Import protein w/ounfolding it!• Recycle receptors
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Peroxisomal Membrane SynthesisMost peroxisomes arise by fissioncan arise de novo!Mechanism is poorly understood/ may involve ER!Only need PEX 3 & PEX 16 to import pex membrane prot
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Protein import into nucleinuclear proteins are targeted by internal motifs
necessary & sufficient to target cytoplasmic proteins to nucleus
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Protein import into nucleinuclear proteins are targeted by internal motifs
as in golgi, are not specific shapes cf sequencesReceptors bind objects of the right shape!
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Protein import into nuclei
3 types of NLS (nuclear localization sequence)
1) basic residues in DNA-binding region
+ + + LZ
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Protein import into nuclei3 types of NLS (nuclear localization sequence)
1) basic residues in DNA-binding region2) SV-40 KKKRK
KKKRK
+ + + LZ
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Protein import into nuclei3 types of NLS (nuclear localization sequence)
1) basic residues in DNA-binding region2) SV-40 KKKRK3) bi-partite: 2-4 basic aa,10-20 aa spacer, 2-4 basic aa
KKKRK
+ + + LZ
+ +
+ +
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Protein import into nuclei1) importin binds NLS importin binds complex2) escort to nuclear pores•Pores decide who can enter/exit nucleus
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Protein import into nuclei1) importin binds NLS, importin binds complex2) escort to nuclear pores 3) transporter changes shape, lets complex enter4) nuclear Ran-GTP dissociates complex 5) Ran-GTP returns importinto cytoplasm, becomes Ran-GDP. GTP -> GDP = nuclear import energy source6) Exportins return importin& other cytoplasmic prot