Unknown,Transcriptomics,Genomics,Proteomics

Dataset Information

0

Transcriptome of Shox2+ cells in the developing limb


ABSTRACT: Vertebrate appendage patterning is programmed by Hox-TALE factors-bound regulatory elements. However, it remains enigmatic which cell lineages are commissioned by Hox-TALE factors to generate regional specific pattern and whether other Hox-TALE co-factors exist. In this study, we investigated the transcriptional mechanisms controlled by the Shox2 transcriptional regulator in limb patterning. Harnessing an osteogenic lineage-specific Shox2 inactivation approach we show that despite widespread Shox2 expression in multiple cell lineages, lack of the stylopod observed upon Shox2 deficiency is a specific result of Shox2 loss of function in the osteogenic lineage. ChIP-Seq revealed robust interaction of Shox2 with cis-regulatory enhancers clustering around skeletogenic genes that are also bound by Hox-TALE factors, supporting a lineage autonomous function of Shox2 in osteogenic lineage fate determination and skeleton patterning. Pbx ChIP-Seq further allowed the genome-wide identification of cis-regulatory modules exhibiting co-occupancy of Pbx, Meis, and Shox2 transcriptional regulators. Integrative analysis of ChIP-Seq and RNA-Seq data and transgenic enhancer assays indicate that Shox2 patterns the stylopod as a repressor via interaction with enhancers active in the proximal limb mesenchyme and antagonizes the repressive function of TALE factors in osteogenesis. RNA sequencing profiling the transcriptome of Shox2+ in the developing limb

ORGANISM(S): Mus musculus

SUBMITTER: Yiping Chen 

PROVIDER: E-GEOD-82300 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

Similar Datasets

2016-07-05 | E-GEOD-81897 | biostudies-arrayexpress
2016-07-05 | GSE81897 | GEO
2016-07-05 | GSE82300 | GEO
2023-04-26 | GSE197858 | GEO
2023-04-26 | GSE197857 | GEO
2023-04-26 | GSE197856 | GEO
2023-04-26 | GSE197855 | GEO
2020-03-23 | GSE143910 | GEO
2020-03-23 | GSE143911 | GEO
2020-03-23 | GSE143913 | GEO