ENA0000GenomicsThe Francis Crick Institutehttps://www.ebi.ac.uk/ena/browser/view/PRJNA353368Homo sapiensAsthma arises from the complex interplay of inflammatory pathways in diverse cell types and tissues including epithelial and T cells. Overall design: To undertake a comprehensive transcriptomic assessment of epithelium and airway T cells in asthma, and investigate the interactions between these tissues.ENAdTAF[[II]]230, TAF[[II]]250, d230, exercise induced asthma, TAF200, l(3)84Ab, dTAFII250, BG:DS00004.13, TAFII-250, ASTHMA, TAF250/230, EfW1, Asthmas, Cell, dTAF230, dmTAF[[II]]230, TAFII250, tracheobronchial tree segment, dmTAF1, Taf230, p230, Asthma, tissue portion, TAF[[II]]250/230, TFIID, simple tissue, Bronchial Asthma, TAF250, Taf[[II]]250, portion of tissue, Taf200, dTAF[[II]]250, TAF[[II]]230, airways, TFIID TAF250, cel, cell, Tissue, chronic obstructive asthma with acute exacerbation, Asthma., segment of tracheobronchial tree, Taf1p, TAF[II]250, exercise-induced asthma, CG17603, TAF[[II]], bronchial hyperreactivity, respiratory conducting tube, dTAF250, chronic obstructive asthma, airway, DmelCG17603, Taf250, SR3-5, Bronchial, TAF, chronic obstructive asthma with status asthmaticus, TAF230, TAF1human being, human., man0.00.00.00.00.00falseHomo sapiensMulti-tissue transcriptomics delineates the diversity of airway T cells functions in asthma2022-05-122017-10-04PRJNA353368GSE89809289339209606