Project description:KRYPTONITE shapes TAD-like boundaries through the control of H3K9ac

Project description:KRYPTONITE shapes TAD-like boundaries through the control of H3K9ac [ATAC-Seq]

Project description:KRYPTONITE shapes TAD-like boundaries through the control of H3K9ac [RNA-seq]

Project description:KRYPTONITE shapes TAD-like boundaries through the control of H3K9ac [ChIP-Seq]

Project description:KRYPTONITE shapes TAD-like boundaries through the control of H3K9ac [ChIP-seq]

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Employing high-throughput sequencing and advanced microscopy techniques, we explored twenty-six histone modifications and Pol II distribution landscape in tomato (Solanum lycopersicum). Our findings revealed a comprehensive epigenetic landscape, uncovering distinct chromatin states associated with heterochromatin formation and gene silencing, allowing for the classification of genomic regions.

Project description:Employing high-throughput sequencing and advanced microscopy techniques, we explored twenty-six histone modifications and Pol II distribution landscape in tomato (Solanum lycopersicum). Our findings revealed a comprehensive epigenetic landscape, uncovering distinct chromatin states associated with heterochromatin formation and gene silencing, allowing for the classification of genomic regions.

Project description:Employing high-throughput sequencing and advanced microscopy techniques, we explored twenty-six histone modifications and Pol II distribution landscape in tomato (Solanum lycopersicum). Our findings revealed a comprehensive epigenetic landscape, uncovering distinct chromatin states associated with heterochromatin formation and gene silencing, allowing for the classification of genomic regions.

Project description:Employing high-throughput sequencing and advanced microscopy techniques, we explored twenty-six histone modifications and Pol II distribution landscape in tomato (Solanum lycopersicum). Our findings revealed a comprehensive epigenetic landscape, uncovering distinct chromatin states associated with heterochromatin formation and gene silencing, allowing for the classification of genomic regions.