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Post-transcriptional%20regulation

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ncRNA directly regulating transcription Gene-specific Activating ncRNAs bind DNA & recruit Mediator heat shock ... The protein acts as a repressor of the ncRNA ... – PowerPoint PPT presentation

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Title: Post-transcriptional%20regulation


1
  • Post-transcriptional regulation
  • Nearly ½ of human genome is transcribed, only 1
    is coding
  • 98 of RNA made is non-coding

2
  • ncRNA
  • Structural
  • rRNA
  • tRNA
  • snRNA
  • snoRNA
  • cleavage Rnases P MRP, U3, snR30, etc
  • Regulatory
  • Small
  • siRNA
  • miRNA
  • Long
  • Activator
  • Enhancer
  • silencing

3
  • Regulatory ncRNA
  • SiRNA direct DNA-methylation via RNA-dependent
    DNA-methyltransferase
  • In other cases direct RNA degradation

4
  • Post-transcriptional regulation
  • RNA degradation is crucial with so much extra
    RNA
  • mRNA lifespan varies 100x
  • Highly regulated! gt 30 RNAses in Arabidopsis!

5
  • Post-transcriptional regulation
  • mRNA degradation
  • lifespan varies 100x
  • Sometimes due to AU-rich 3' UTR sequences (DST)

6
  • mRNA degradation
  • lifespan varies 100x
  • Sometimes due to AU-rich 3' UTR sequences (DST)
  • Endonuclease cuts DST, then exosome digests
    3-gt5 XRN1 digests 5-gt3

7
  • mRNA degradation
  • Most are degraded by de-Adenylation pathway
  • Deadenylase removes tail

8
  • mRNA degradation
  • Most are degraded by de-Adenylation pathway
  • Deadenylase removes tail
  • Exosome digests 3 -gt 5

9
  • mRNA degradation
  • Most are degraded by de-Adenylation pathway
  • Deadenylase removes tail
  • Exosome digests 3 -gt 5
  • Or, decapping enz
  • removes cap XRN1
  • digests 5 -gt3

10
  • Post-transcriptional regulation
  • mRNA degradation mRNA is checked
  • defective transcripts are degraded
  • mRNA surveillance
  • Nonsense-mediated decayEJC _at_
  • each splice junction that is displaced by
  • ribosome

11
  • Post-transcriptional regulation
  • mRNA degradation mRNA is checked
  • defective transcripts are degraded
  • mRNA surveillance
  • Nonsense-mediated decayEJC _at_
  • each splice junction that is displaced by
  • ribosome
  • If not-displaced, is cut by
  • endonuclease RNA is degraded

12
  • Post-transcriptional regulation
  • mRNA degradation mRNA is checked
  • defective transcripts are degraded
  • mRNA surveillance
  • Non-stop decay
  • Ribosome goes to end
  • cleans off PABP

13
  • Post-transcriptional regulation
  • mRNA degradation mRNA is checked
  • defective transcripts are degraded
  • mRNA surveillance
  • Non-stop decay
  • Ribosome goes to end
  • cleans off PABP
  • w/o PABP exosome
  • eats mRNA

14
  • Post-transcriptional regulation
  • mRNA degradation mRNA is checked defective
    transcripts are degraded mRNA surveillance
  • No-go decay cut RNA 3 of stalled ribosomes

15
  • Other mRNA are targeted by
  • small interfering RNA
  • defense against RNA viruses
  • DICERs cut dsRNA into 21-28 bp

16
  • Other mRNA are targeted by
  • small interfering RNA
  • defense against RNA viruses
  • DICERs cut dsRNA into 21-28 bp
  • helicase melts dsRNA

17
  • Other mRNA are targeted by
  • small interfering RNA
  • defense against RNA viruses
  • DICERs cut dsRNA into 21-28 bp
  • helicase melts dsRNA
  • - RNA binds RISC

18
  • Other 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

19
  • Other 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, then digested by XRN1 exosome

20
  • Small RNA regulation
  • siRNA target RNA viruses ( transgenes)
  • miRNA arrest translation of targets
  • created by digestion of foldback
  • Pol II RNA with mismatch loop

21
  • 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

22
  • 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

23
  • small interfering RNA mark specific
  • targets
  • once cut they are removed by
  • endonuclease-mediated decay

24
  • Most RNA degradation occurs in P bodies
  • recently identified cytoplasmic sites where
    exosomes XRN1 accumulate when cells are
    stressed

25
  • Most RNA degradation occurs in P bodies
  • recently identified cytoplasmic sites where
    exosomes XRN1 accumulate when cells are
    stressed
  • Also where AGO miRNAs accumulate

26
  • 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!

27
(No Transcript)
28
  • Other ncRNA?
  • Incredible diversity of functions!
  • Epigenetic
  • Directly regulating transcription
  • Post-transcriptional regulation

29
  • Other ncRNA?
  • Incredible diversity of functions!
  • Epigenetic
  • Directly regulating transcription
  • Post-transcriptional regulation
  • Some are made by Pol II, others by Pol III

30
Other ncRNA? Incredible diversity of functions!
31
  • Other ncRNA?
  • Epigenetic regulation guide scaffold for
    chromatin mods
  • XIST in mammals controls X-inactivation
  • Transcribed by Pol II only from the inactive X
  • 17 kb, -gt Spliced, capped, poly-A
  • Coats the inactive X
  • Recruits PRC2, which silences the chromosome
  • Ubiquitinates H2AK119
  • Tri-methylates H3K27
  • Hypermethylates H3K9

32
  • Other ncRNA?
  • Epigenetic regulation guide scaffold for
    chromatin mods
  • FLC blocks flowering in fall after 20 days near
    0C plants make COLDAIR ncRNA

33
FLC blocks flowering in fall after 20 days near
0C plants make COLDAIR ncRNA Targets PRC2 to
FLC locus silences it Flower next
Spring Basic rule for epigentic ncRNA Bind
target locus recruit chromatin modifiers
34
  • ncRNA directly regulating transcription
  • Gene-specific
  • Activating ncRNAs bind DNA recruit Mediator

35
  • ncRNA directly regulating transcription
  • Gene-specific
  • Activating ncRNAs bind DNA recruit Mediator
  • heat shock RNA1 (HSR1) mobilizes heat shock
    factor 1 (HSF1) upon heat shock

36
  • ncRNA directly regulating transcription
  • Gene-specific
  • Activating ncRNAs bind DNA recruit Mediator
  • heat shock RNA1 (HSR1) mobilizes heat shock
    factor 1 (HSF1) upon heat shock
  • The steroid receptor RNA activator 1 locus
    encodes both a protein and an ncRNA, depending on
    how it is spliced.
  • The ncRNA acts as
  • a coactivator for
  • steroid hormone
  • receptors

37
  • ncRNA directly regulating transcription
  • Gene-specific
  • Activating ncRNAs bind DNA recruit Mediator
  • heat shock RNA1 (HSR1) mobilizes heat shock
    factor 1 (HSF1) upon heat shock
  • The steroid receptor RNA activator 1 locus
    encodes both a protein and an ncRNA, depending on
    how it is spliced.The ncRNA acts as a coactivator
    for steroid hormone receptors.
  • The protein acts as a repressor of the ncRNA!

38
  • ncRNA directly regulating transcription
  • Gene-specific
  • Activating ncRNAs bind DNA recruit Mediator
  • heat shock RNA1 (HSR1) mobilizes heat shock
    factor 1 (HSF1) upon heat shock
  • The steroid receptor RNA activator 1 locus
    encodes both a protein and an ncRNA, depending on
    how it is spliced.The ncRNA acts as a coactivator
    for steroid hormone receptors.
  • The protein acts as a repressor of the ncRNA!
  • ncRNACCND1 are transcribed from the cyclin D
    locus during stress and remain tethered to DNA
    and recruit and allosterically modulate the
    protein TLS

39
  • ncRNA directly regulating transcription
  • Gene-specific
  • Activating ncRNAs bind DNA recruit Mediator
  • heat shock RNA1 (HSR1) mobilizes heat shock
    factor 1 (HSF1) upon heat shock
  • The steroid receptor RNA activator 1 locus
    encodes both a protein and an ncRNA, depending on
    how it is spliced.The ncRNA acts as a coactivator
    for steroid hormone receptors.
  • The protein acts as a repressor of the ncRNA!
  • ncRNACCND1 are transcribed from the cyclin D
    locus during stress and remain tethered to DNA
    and recruit and allosterically modulate the
    protein TLS
  • Other ncRNAs remain bound to the DNA coding
    sequence prevent transcription

40
  • ncRNA directly regulating transcription
  • Gene-specific
  • Other ncRNAs remain bound to the DNA coding
    sequence prevent transcription
  • Many sense and antisense ncRNA are found around
    promoters

41
  • ncRNA directly regulating transcription
  • Gene-specific
  • Other ncRNAs remain bound to the DNA coding
    sequence prevent transcription
  • Many sense and antisense ncRNA are found around
    promoters
  • Most are rapidly
  • degraded defective?

42
  • ncRNA directly regulating transcription
  • Gene-specific
  • Other ncRNAs remain bound to the DNA coding
    sequence prevent transcription
  • Many sense and antisense ncRNA are found around
    promoters
  • Most are rapidly degraded defective?
  • Loops may help identify correct direction

43
  • ncRNA directly regulating transcription
  • Gene-specific
  • Many enhancer elements are transcribed by Pol II,
    this somehow enhances transcription from the core

44
  • ncRNA directly regulating transcription
  • Gene-specific
  • Many enhancer elements are transcribed by Pol II,
    this somehow enhances transcription from the core

45
  • ncRNA directly regulating transcription
  • Gene-specific
  • Many enhancer elements are transcribed by Pol II,
    this somehow enhances transcription from the core

46
  • ncRNA directly regulating transcription
  • Gene-specific
  • Many enhancer elements are transcribed by Pol II,
    this somehow enhances
  • transcription from the
  • core
  • Looping brings many
  • related genes close, where
  • Pol II is high

47
  • ncRNA directly regulating transcription
  • Gene-specific
  • General
  • U1 snRNA associates with TFIIH to stimulate Pol
    II CTD phosphorylation hence transcription
  • Couples splicing with transcription

48
  • ncRNA directly regulating transcription
  • General
  • U1 snRNA associates with TFIIH to stimulate Pol
    II CTD phosphorylation hence transcription
  • Upon heat shock SINE (Alu) elements are
    transcribed by Pol III Alu RNA binds Pol II and
    prevents initiation

49
  • ncRNA directly regulating transcription
  • U1 snRNA associates with TFIIH to stimulate Pol
    II CTD phosphorylation hence transcription
  • Upon heat shock SINE (Alu) elements are
    transcribed by Pol III Alu RNA binds Pol II and
    prevents initiation
  • P-TEFb (an elongation factor) reversibly
    associates with 7SK ncRNA to regulate Pol II
    elongation

50
  • ncRNA indirectly regulating transcription
  • Decoys
  • For transcription factors eg Gas5 RNA binds the
    DNA-binding domain of steroid hormone receptors
  • NRON (noncoding repressor of NFAT) RNA prevents
    NFAT from shuttling into the nucleus

51
  • ncRNA regulating genes post-transcriptionally
  • Decoys for miRNAs (or siRNAs)
  • Many mammalian pseudogenes, including PTENP1 and
    KRASP1 have miRNA binding sites

52
  • ncRNA regulating genes post-transcriptionally
  • Decoys for miRNAs (or siRNAs)
  • Many mammalian pseudogenes, including PTENP1 and
    KRASP1 have miRNA binding sites
  • Thousands of genes are transcribed in both sense
    and antisense directions

53
  • Thousands of antisense transcripts in plants
  • Overlapping genes

54
  • Thousands of antisense transcripts in plants
  • Overlapping genes
  • Non-coding RNAs

55
  • Thousands of antisense transcripts in plants
  • Overlapping genes
  • Non-coding RNAs
  • cDNA pairs
  • MPSS
  • TARs

56
  • Thousands of antisense transcripts in plants
  • Hypotheses
  • Accident transcription unveils cryptic
    promoters on opposite strand (Zilberman et al)

57
  • Hypotheses
  • 1. Accident transcription unveils cryptic
    promoters on opposite strand (Zilberman et al)
  • 2. Functional
  • siRNA
  • miRNA
  • Silencing

58
  • Hypotheses
  • 1. Accident transcription unveils cryptic
    promoters on opposite strand (Zilberman et al)
  • 2. Functional
  • siRNA
  • miRNA
  • Silencing
  • Priming chromatin remodeling requires
    transcription!

59
  • Detecting ncRNA
  • 1. cDNA pairs

60
  • Detecting ncRNA
  • cDNA pairs
  • MPSS

61
  • Detecting ncRNA
  • cDNA pairs
  • MPSS
  • Tiling path microarrays

62
  • Detecting ncRNA
  • cDNA pairs
  • MPSS
  • Tiling path microarrays
  • RNA-seq (high-throughput RNA sequencing)

63
  • Our ncRNA
  • Extracted total RNA, separated out and sequenced
    50-300 nt

64
  • Our ncRNA
  • Extracted total RNA, separated out and sequenced
    50-300 nt
  • BLAST to find relatives (and discard tRNA, etc)

65
  • Our ncRNA
  • Extracted total RNA, separated out and sequenced
    50-300 nt
  • BLAST to find relatives (and discard tRNA, etc)
  • T-DNA express to find mutants

66
  • Our ncRNA
  • Extracted total RNA, separated out and sequenced
    50-300 nt
  • BLAST to find relatives (and discard tRNA, etc)
  • T-DNA express to find genes that werent near
    protein-coding genes

67
  • Our ncRNA
  • Extracted total RNA, separated out and sequenced
    50-300 nt
  • BLAST to find relatives (and discard tRNA, etc)
  • T-DNA express to find genes that werent near
    protein-coding genes
  • 33 Hits order seeds
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