cytoplasmic regulation lifetime localization initiation
DESCRIPTION
Cytoplasmic regulation lifetime localization initiation. Post-transcriptional regulation mRNA degradation lifespan varies 100x Sometimes due to AU-rich 3' UTR sequences Defective mRNA may be targeted by NMD, NSD, NGD Other RNA are targeted by small interfering RNA. - PowerPoint PPT PresentationTRANSCRIPT
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Cytoplasmic regulation
• lifetime
• localization
• initiation
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Post-transcriptional regulationmRNA degradation
• lifespan varies 100x• Sometimes due to AU-rich 3' UTR sequences • Defective mRNA may be targetedby NMD, NSD, NGD
Other RNA are targeted by small interfering RNA
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Post-transcriptional regulationOther mRNA are targeted by small interfering RNA
• defense against RNA viruses• DICERs cut dsRNA into 21-28 bp• helicase melts dsRNA• - RNA binds RISC• complex binds target• target is cut
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Cytoplasmic regulation
Small RNA regulation
• siRNA: target RNA viruses (& transgenes)
•miRNA: arrest translation of targets
• created by digestion of foldback
Pol II RNA with mismatch loop
•Mismatch is key difference:
generated by different Dicer
•Arrest translation in animals,
target degradation in plants
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small interfering RNA mark specifictargets•once cut they are removed by endonuclease-mediated decay
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Most RNA degradation occurs in P bodies• recently identified cytoplasmic sites where exosomes & XRN1 accumulate when cells are stressed
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Most RNA degradation occurs in P bodies• recently identified cytoplasmic sites where exosomes & XRN1 accumulate when cells are stressed •Also where AGO & miRNAs accumulate
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Most RNA degradation occurs in P bodies• recently identified cytoplasmic sites where exosomes & XRN1 accumulate when cells are stressed •Also where AGO & miRNAs accumulate•w/o miRNA P bodies dissolve!
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Post-transcriptional regulation1) mRNA processing2) export from nucleus3) mRNA degradation 4) mRNA localization• RNA-binding proteinslink it to cytoskeleton:bring it to correct siteor store it
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4) mRNA localization• RNA-binding proteins link it to cytoskeleton:bring it to correct site or store it•Some RNA (eg Knotted) are transported into neighboring cells
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4) mRNA localization• RNA-binding proteins link it to cytoskeleton:bring it to correct site or store it•Some RNA are transported into neighboring cells•Others are transported t/o theplant in the phloem (SUT1, KN1)
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4) mRNA localization• RNA-binding proteins link it to cytoskeleton:bring it to correct site or store it•Some RNA are transported into neighboring cells•Others are transported t/o the plant in the phloem (SUT1, KN1)•Also some siRNA & miRNA!
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4) mRNA localization• RNA-binding proteins link it to cytoskeleton:bring it to correct site or store it•Some RNA are transported into neighboring cells•Others are transported t/o the plant in the phloem (SUT1, KN1)•Also some siRNA & miRNA!•siRNA mediate silencing• Especially of viruses & TE
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4) mRNA localization• RNA-binding proteins link it to cytoskeleton:bring it to correct site or store it•Some RNA are transported into neighboring cells•Others are transported t/o the plant in the phloem (SUT1, KN1)•Also some siRNA & miRNA!•siRNA mediate silencing•MiR399 moves to roots todestroy PHO2 mRNA upon Pi stress•PHO2 negatively regulates Pi uptake
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Post-transcriptional regulationRNA in pollen controls first division after fertilization!
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Post-transcriptional regulationRNA in pollen controls first division after fertilization!Delivery by pollen ensures correct development doesn’t happen unless egg is fertilized by pollen
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Post-transcriptional regulation4) mRNA localization• RNA-binding proteins link it to cytoskeleton: bring it to correct site or store it• many are stored in P-bodies! More than just an RNA-destruction site
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Post-transcriptional regulation4) mRNA localization• RNA-binding proteins link it to cytoskeleton: bring it to correct site or store it• many are stored in P-bodies! More than just an RNA-destruction site•Link with initiation of translation
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Post-transcriptional regulationProtein degradation rate varies 100x• Some have motifs, eg Destruction box, marking them for
polyubiquitination: taken to proteasome & destroyed
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Post-transcriptional regulationProtein degradation rate varies 100x• Some have motifs, eg Destruction box, marking them for
polyubiquitination: taken to proteasome & destroyed• N-terminal rule: Proteins with N-terminal Phe, Leu,
Asp, Lys, or Arg have half lives of 3 min or less.
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Post-transcriptional regulationProtein degradation rate varies 100x• Some have motifs, eg Destruction box, marking them for
polyubiquitination: taken to proteasome & destroyed• N-terminal rule: Proteins with N-terminal Phe, Leu,
Asp, Lys, or Arg have half lives of 3 min or less.• Proteins with N-terminal Met, Ser, Ala, Thr, Val, or Gly
have half lives greater than 20 hours.
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Protein degradationSome have motifs marking them for polyubiquitination:• E1 enzymes activate ubiquitin• E2 enzymes conjugate ubiquitin• E3 ub ligases determine specificity, eg for N-terminus
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Protein degradationSome have motifs marking them for polyubiquitination:• E1 enzymes activate ubiquitin• E2 enzymes conjugate ubiquitin• E3 ub ligases determine specificity, eg for N-terminusDiscovered in plants: X-W Deng found COP1 mutant• Looks like light-grown plant in dark: tags proteins for
destruction
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Protein degradation• E3 ub ligases determine specificity
• >1300 E3 ligases in Arabidopsis• 4 main classes according to cullin scaffolding protein
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E3 ubiquitin ligases determine specificity>1300 E3 ligases in Arabidopsis4 main classes according to cullin scaffolding protein• RBX1 (or similar) positions E2
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E3 ubiquitin ligases determine specificity>1300 E3 ligases in Arabidopsis4 main classes according to cullin scaffolding protein• RBX1 (or similar) positions E2• Linker (eg DDB1) positions substrate receptor
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E3 ubiquitin ligases determine specificity>1300 E3 ligases in Arabidopsis4 main classes according to cullin scaffolding protein• RBX1 (or similar) positions E2• Linker (eg DDB1) positions substrate receptor• Substrate receptor (eg DCAF/DWD) picks substrate• >100 DWD in Arabidopsis
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E3 ubiquitin ligases determine specificity>1300 E3 ligases in Arabidopsis4 main classes according to cullin scaffolding protein• RBX1 (or similar) positions E2• Linker (eg DDB1) positions substrate receptor• Substrate receptor (eg DCAF/DWD) picks substrate• NOT4 is an E3 ligase & a component of the CCR4–NOT
de-A complex
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E3 ubiquitin ligases determine specificity>1300 E3 ligases in Arabidopsis4 main classes according to cullin scaffolding protein• RBX positions E2• DDB1 positions DCAF/DWD• DCAF/DWD picks substrate: >85 DWD in rice• NOT4 is an E3 ligase & a component of the CCR4–NOT
de-A complex• CCR4–NOT de-A Complex regulates pol II
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E3 ubiquitin ligases determine specificity>1300 E3 ligases in Arabidopsis4 main classes according to cullin scaffolding protein• RBX positions E2• DDB1 positions DCAF/DWD• DCAF/DWD picks substrate• NOT4 is an E3 ligase & a component of the CCR4–NOT
de-A complex• CCR4–NOT de-A Complex regulates pol II• Transcription, mRNAdeg & prot deg are linked!
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E3 ubiquitin ligases determine specificityCell cycle: Anaphase Promoting Complex is an E3 ligase.MPF induces APCAPC inactive until all kinetochores are boundAPC then tags securin to free separase: cuts proteins linking chromatids
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E3 ubiquitin ligases determine specificityMPF induces APCAPC inactive until all kinetochores are boundAPC then tags securin to free separase: cuts proteins
linking chromatidsAPC next swaps Cdc20 for Cdh1 & tags cyclin B to enter
G1
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E3 ubiquitin ligases determine specificityAPC next tags cyclin B (destruction box) to enter G1APC also targets Sno proteins in TGF- signaling• Sno proteins prevent Smad from activating genes
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E3 ubiquitin ligases determine specificityAPC also targets Sno proteins in TGF- signaling• Sno proteins prevent Smad from activating genes• APC/Smad2/Smad3 tags Sno for destruction
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E3 ubiquitin ligases determine specificityAPC also targets Sno proteins in TGF- signaling• Sno proteins prevent Smad from activating genes• APC/Smad2/Smad3 tags Sno for destruction• Excess Sno = cancer
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E3 ubiquitin ligases determine specificityAPC also targets Sno proteins in TGF- signaling• Sno proteins prevent Smad from activating genes• APC/Smad2/Smad3 tags Sno for destruction• Excess Sno = cancerAngelman syndrome = bad UBE3A • Only express maternal allele because paternal allele is
methylated
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Auxin signalingAuxin receptors eg TIR1 are E3 ubiquitin ligasesUpon binding auxin they activate complexes targeting AUX/IAA proteins for degradation
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Auxin signalingAuxin receptors eg TIR1 are E3 ubiquitin ligases!Upon binding auxin they activate complexes targeting AUX/IAA proteins for degradationAUX/IAA inhibit ARF transcription factors,so this turns on "early genes"
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Auxin signalingAuxin receptors eg TIR1 are E3 ubiquitin ligases!Upon binding auxin they activate complexes targeting AUX/IAA proteins for degradation!AUX/IAA inhibit ARF transcription factors,so this turns on "early genes"Some early genes turn on 'late genes" needed for development