• 00:00 1.
    index 1
  • 00:28 2.
    Slide 2
  • 00:43 3.
    Slide 3
  • 00:52 4.
    RNA categories
  • 01:17 5.
    CircRNAs Biogenesis
  • 01:40 6.
    Functions of CircRNA
  • 02:00 7.
    Functions of CircRNA
  • 02:17 8.
    Functions of CircRNA
  • 02:35 9.
    Slide 10
  • 03:00 10.
    Characteristic of Circular RNA
  • 04:51 11.
    Circular RNAs in Cancers
  • 05:50 12.
    Slide 22
  • 06:06 13.
    Slide 23
  • 06:19 14.
    RNA N6-Methyladenosine Modification
  • 06:48 15.
    Writer, Eraser, and Reader
  • 07:25 16.
    Methylated RNA immunoprecipitation
  • 08:04 17.
    Detected the m6A Modification on CircRNA
  • 09:44 18.
    Slide 28
  • 09:57 19.
    The m6A Modification Influenced CircARHGAP35 Biogenesis
  • 10:51 20.
    Slide 31
  • 11:05 21.
    YTHDC1 Binds to m6A Site and Exported CircMET to Cytoplasm
  • 11:40 22.
    Slide 33
  • 12:25 23.
    CircMET is Exported to Cytoplasm by YTHDC1
  • 12:51 24.
    Slide 35
  • 13:06 25.
    CircMET Downregulates CDKN2A mRNA by Direct Binding
  • 14:10 26.
    CircMET Decreased CDKN2A mRNA Stability
  • 14:57 27.
    CircMET Recruited YTHDF2 to Accelerate the Decay of CDKN2A
  • 15:32 28.
    Slide 39
  • 15:52 29.
    The m6A Modification of CircALG1 Enhanced its Stability
  • 16:39 30.
    CircALG1 Sponge with miR-342-5p
  • 17:33 31.
    PGF was a Downstream Target of the CircALG1/miR-342-5p Axis
  • 18:04 32.
    Slide 44
  • 18:23 33.
    CircARHGAP35 Encode a Protein with m6A Modification
  • 19:42 34.
    The circARHGAP35 Protein Interacts with TFII-I in the Nucleus
  • 20:36 35.
    CircARHGAP35 Protein Interacts with TFII-I in the Nucleus
  • 21:18 36.
    Slide 48
  • 21:57 37.
    Slide 49
  • 22:37 38.
    CircMET Accelerates Cell Proliferation
  • Index
  • Notes
  • Comment
  • Fullscreen
20220831 lab meeting_家銘
Duration: 1:34:02, Browse: 312, Last Updated: 2022-09-19
    • 00:00 1.
      index 1
    • 00:28 2.
      Slide 2
    • 00:43 3.
      Slide 3
    • 00:52 4.
      RNA categories
    • 01:17 5.
      CircRNAs Biogenesis
    • 01:40 6.
      Functions of CircRNA
    • 02:00 7.
      Functions of CircRNA
    • 02:17 8.
      Functions of CircRNA
    • 02:35 9.
      Slide 10
    • 03:00 10.
      Characteristic of Circular RNA
    • 04:51 11.
      Circular RNAs in Cancers
    • 05:50 12.
      Slide 22
    • 06:06 13.
      Slide 23
    • 06:19 14.
      RNA N6-Methyladenosine Modification
    • 06:48 15.
      Writer, Eraser, and Reader
    • 07:25 16.
      Methylated RNA immunoprecipitation
    • 08:04 17.
      Detected the m6A Modification on CircRNA
    • 09:44 18.
      Slide 28
    • 09:57 19.
      The m6A Modification Influenced CircARHGAP35 Biogenesis
    • 10:51 20.
      Slide 31
    • 11:05 21.
      YTHDC1 Binds to m6A Site and Exported CircMET to Cytoplasm
    • 11:40 22.
      Slide 33
    • 12:25 23.
      CircMET is Exported to Cytoplasm by YTHDC1
    • 12:51 24.
      Slide 35
    • 13:06 25.
      CircMET Downregulates CDKN2A mRNA by Direct Binding
    • 14:10 26.
      CircMET Decreased CDKN2A mRNA Stability
    • 14:57 27.
      CircMET Recruited YTHDF2 to Accelerate the Decay of CDKN2A
    • 15:32 28.
      Slide 39
    • 15:52 29.
      The m6A Modification of CircALG1 Enhanced its Stability
    • 16:39 30.
      CircALG1 Sponge with miR-342-5p
    • 17:33 31.
      PGF was a Downstream Target of the CircALG1/miR-342-5p Axis
    • 18:04 32.
      Slide 44
    • 18:23 33.
      CircARHGAP35 Encode a Protein with m6A Modification
    • 19:42 34.
      The circARHGAP35 Protein Interacts with TFII-I in the Nucleus
    • 20:36 35.
      CircARHGAP35 Protein Interacts with TFII-I in the Nucleus
    • 21:18 36.
      Slide 48
    • 21:57 37.
      Slide 49
    • 22:37 38.
      CircMET Accelerates Cell Proliferation
    Location
    Folder name
    2022
    Author
    黃照穎
    Branch
    賴亮全教授
    Created
    2022-08-31 11:52:05
    Last Updated
    2022-09-19 10:35:10
    Duration
    1:34:02