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Displaying 20 of 164 results for "KDM5B"
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  1. Extended self-renewal and accelerated reprogramming in the absence of Kdm5b [ChIP-Seq] BioProject

    ID: PRJNA203696

    Keywords: Epigenomics

    Access Type: download

  2. Mus musculus : KDM5B ChIP-Seq project BioProject

    ID: PRJNA270238

    Keywords: epigenomics

    Access Type: download

  3. Extended self-renewal and accelerated reprogramming in the absence of Kdm5b [RNA-Seq] BioProject

    ID: PRJNA203695

    Keywords: Transcriptome or Gene expression

    Access Type: download

  4. Extended self-renewal and accelerated reprogramming in the absence of Kdm5b [ChIP-Seq] OmicsDI

    ID: E-GEOD-47123

    Date Released: 11-25-2013

    Description: tes in iPS cell reprogramming. Here, we show that KDM5B, which demethylates H3K4, is important for ES cell differentiation, and presents a barrier to the reprogramming process. Depletion of Kdm5b leads to an extension in the self-renewal of ES cells in the absence of LIF. Transcriptome analysis revealed the persistent expression...

  5. Extended self-renewal and accelerated reprogramming in the absence of Kdm5b [RNA-Seq] OmicsDI

    ID: E-GEOD-47124

    Date Released: 11-25-2013

    Description: tes in iPS cell reprogramming. Here, we show that KDM5B, which demethylates H3K4, is important for ES cell differentiation, and presents a barrier to the reprogramming process. Depletion of Kdm5b leads to an extension in the self-renewal of ES cells in the absence of LIF. Transcriptome analysis revealed the persistent expression...

  6. NMR Structure of KDM5B PHD1 finger PDB

    ID: PDB:2MNY

    Description: Lysine-specific demethylase 5B (E.C.1.14.11.-)

  7. KDM5B focuses H3K4 methylation near promoters and enhancers during embryonic stem cell self-renewal and differentiation [RNA-Seq] OmicsDI

    ID: E-GEOD-53090

    Date Released: 05-30-2014

    Description: ntributes to ES cell function. Here, we show that KDM5B, which demethylates lysine 4 of histone H3, co-localizes with H3K4me3 near promoters and enhancers of active genes in ES cells; its depletion leads to spreading of H3K4 methylation into gene bodies and enhancer shores, indicating that KDM5B functions to focus H3K4 methylation at promoters and enhancers. Spr...

  8. Extended self-renewal and accelerated reprogramming in the absence of Kdm5b BioProject

    ID: PRJNA203694

    Access Type: download

  9. Extended self-renewal and accelerated reprogramming in the absence of Kdm5b [RNA-Seq] ArrayExpress

    ID: E-GEOD-47124

    Description: tes in iPS cell reprogramming. Here, we show that KDM5B, which demethylates H3K4, is important for ES cell differentiation, and presents a barrier to the reprogramming process. Depletion of Kdm5b leads to an extension in the self-renewal of ES cells in the absence of LIF. Transcriptome analysis revealed the persistent expression...

  10. Extended self-renewal and accelerated reprogramming in the absence of Kdm5b [ChIP-Seq] ArrayExpress

    ID: E-GEOD-47123

    Description: tes in iPS cell reprogramming. Here, we show that KDM5B, which demethylates H3K4, is important for ES cell differentiation, and presents a barrier to the reprogramming process. Depletion of Kdm5b leads to an extension in the self-renewal of ES cells in the absence of LIF. Transcriptome analysis revealed the persistent expression...

  11. H3K4 demethylase KDM5B regulates global dynamics of transcription elongation and alternative splicing in embryonic stem cells [ChIP-seq] BioProject

    ID: PRJNA373903

    Keywords: Epigenomics

    Access Type: download

  12. KDM5B focuses H3K4 methylation near promoters and enhancers during embryonic stem cell self-renewal and differentiation [RNA-Seq] ArrayExpress

    ID: E-GEOD-53090

    Description: ntributes to ES cell function. Here, we show that KDM5B, which demethylates lysine 4 of histone H3, co-localizes with H3K4me3 near promoters and enhancers of active genes in ES cells; its depletion leads to spreading of H3K4 methylation into gene bodies and enhancer shores, indicating that KDM5B functions to focus H3K4 methylation at promoters and enhancers. Spr...

  13. H3K4 demethylase KDM5B regulates global dynamics of transcription elongation and alternative splicing in embryonic stem cells [RNA-seq] BioProject

    ID: PRJNA375934

    Keywords: Transcriptome or Gene expression

    Access Type: download

  14. KDM5B focuses H3K4 methylation near promoters and enhancers during embryonic stem cell self-renewal and differentiation [ChIP-Seq] BioProject

    ID: PRJNA230821

    Keywords: Epigenomics

    Access Type: download

  15. KDM5B focuses H3K4 methylation near promoters and enhancers during embryonic stem cell self-renewal and differentiation [RNA-Seq] BioProject

    ID: PRJNA230823

    Keywords: Transcriptome or Gene expression

    Access Type: download

  16. NMR Structure of KDM5B PHD1 finger in complex with H3K4me0(1-10aa) PDB

    ID: PDB:2MNZ

    Description: Lysine-specific demethylase 5B (E.C.1.14.11.-), H3K4me0

  17. KDM5B focuses H3K4 methylation near promoters and enhancers during embryonic stem cell self-renewal and differentiation [ChIP-Seq] ArrayExpress

    ID: E-GEOD-53087

    Description: ntributes to ES cell function. Here, we show that KDM5B, which demethylates lysine 4 of histone H3, co-localizes with H3K4me3 near promoters and enhancers of active genes in ES cells; its depletion leads to spreading of H3K4 methylation into gene bodies and enhancer shores, indicating that KDM5B functions to focus H3K4 methylation at promoters and enhancers. Spr...

  18. H3K4 demethylase KDM5B regulates global dynamics of transcription elongation and alternative splicing in embryonic stem cells BioProject

    ID: PRJNA375932

    Access Type: download

  19. KDM5B focuses H3K4 methylation near promoters and enhancers during embryonic stem cell self-renewal and differentiation [ChIP-Seq] OmicsDI

    ID: E-GEOD-53087

    Date Released: 05-31-2014

    Description: ntributes to ES cell function. Here, we show that KDM5B, which demethylates lysine 4 of histone H3, co-localizes with H3K4me3 near promoters and enhancers of active genes in ES cells; its depletion leads to spreading of H3K4 methylation into gene bodies and enhancer shores, indicating that KDM5B functions to focus H3K4 methylation at promoters and enhancers. Spr...

  20. KDM5B focuses H3K4 methylation near promoters and enhancers during embryonic stem cell self-renewal and differentiation BioProject

    ID: PRJNA230819

    Access Type: download


Displaying 20 of 164 results for "KDM5B"