Embryonic stem (ES) cells can differentiate in vitro to produce the endothelial and hematopoietic precursor, the hemangioblasts, which are derived from the mesoderm germ layer. Differentiation of BryGFP/+ ES cell to hemangioblasts can be followed by the expression of the BryGFP/+ and Flk1 genes. Proteomic and transcriptomic changes during this differentiation process were analyzed to identify mechanisms for phenotypic change during early differentiation. Three populations of differentiating BryGFP ES cells were obtained by flow cytometric sorting, GFP-Flk1- (epiblast), GFP+Flk1- (mesoderm) and GFP+Flk1+ (hemangioblast). Microarray analyses and relative quantification 2 dimensional liquid chromatography/tandem mass spectrometry (LCLCMSMS) on nuclear extracts were performed. We identified and quantified 2389 proteins, 1057 of which were associated to their microarray probeset. These included a variety of low abundance transcription factors, e.g. UTF1, Sox2, Oct4 and E2F4, demonstrating a high level of proteomic penetrance. When paired comparisons of changes in the mRNA and protein expression levels were performed low levels of correlation were found. A strong correlation between isobaric tag-derived relative quantification and western blot analysis was found for a number of nuclear proteins. Pathway and ontology analysis identified proteins known to be involved in the regulation of stem cell differentiation and proteins with no described function in early ES cell development were also shown to change markedly at the proteome level only. ES cell development is regulated at the mRNA and protein level.