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Displaying 10 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...


Displaying 10 of 164 results for "KDM5B"