a-mouse-model-of-hies-reveals-pro-and-anti-inflamm218bonebone marrowcelldiseaseimmunoglobulinimmunoglobulin eserumstem cellsyndromemouseFalseE-GEOD-556077583A mouse model of HIES reveals pro and anti-inflammatory functions of STAT3analysis-of-differential-gene-expression-in-cebpa411bonebone marrowlivermouseFalseE-GEOD-238006196Analysis of differential gene expression in Cebpa-positive and Cebpa-negative hematopoietic stem cells using a Cebpa-Cre EYFP reporter mouse modelrunx1-deficiency-effect-on-mll-enl-cells16bonebone marrowleukemiamouseFalseE-GEOD-474027313Runx1 deficiency effect on MLL-ENL cellsspontaneous-elimination-of-intraocular-tumors-is-a14anteriorbonebone marrowcelleyemacrophageskinmouseFalseE-GEOD-571017632Spontaneous Elimination of Intraocular Tumors is Associated with IFNγ- and Fas/FasL-Dependent Activation of Macrophagesstem-cell-factor-programs-the-mast-cell-activation118asthmabonebone marrowcellcytokinediseasemast cellproteinstem cellmouseFalseE-GEOD-353326762Stem cell factor programs the mast cell activation phenotypestroke-brain-infiltrating-stem-cells-mouse26arterybonebone marrowbraincellcerebral artery occlusioncytokineendothelial cellischemialinemiddlemiddle cerebral arterynerveproteinserinestem cellstrokemouseFalseE-GEOD-213936049Stroke-brain infiltrating stem cells - mousetgf-1-accelerates-dendritic-cell-differentiation-f120bonebone marrowcelldendriticgenomeinsulinlymphoid tissuestem cellsurfacemouseFalseE-GEOD-224326128TGF-β1 Accelerates Dendritic Cell Differentiation from Common Dendritic Cell Progenitors (CDPs) and Directs Subset Specification Towards Conventional Dendritic Cellsheme-regulates-the-development-of-iron-recycling-m13bonebone marrowcysteineerythrocytemacrophageprolinemouseFalseE-GEOD-469847301Heme regulates the development of iron-recycling macrophages from monocytes (sorted splenocytes)ikk-alpha-inactivation-impairs-early-b-lymphopoies15bonebone marrowcellliverlymphlymphocyteorganmouseFalseE-GEOD-303636517IKK alpha inactivation impairs early B-lymphopoiesis during hematopoiesisil-33-induces-a-hypo-responsive-human-mast-cell-ph112bonebone marrowcelldiseaseinterleukinmast cellmouseFalseE-GEOD-393826948IL-33 induces a hypo-responsive human mast cell phenotype