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Total number of records for Asthma in Bronchial Epithelial Cells of Human in DAAB (Version-2) database: 383

 

Record noDiseaseOrganismSampleGene NameTechniquesOmicsStudyCommentsPubmed ID
1Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsCXCL3Affymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt is a chemokine acting neutrophil chemoattractants.19710636
2Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsCXCL2Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is a chemokine acting as neutrophil chemoattractants.19710636
3Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsIL8Affymetrix GeneChip Microarray and qRT-PCR followed ELISA based assayGenomicsHigh Throughput and Low ThroughputIt is one of the major chemokine mediators of the inflammatory response.19710636
4Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsCSF3Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is a chemokine involved in eosinophil development.19710636
5Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsIL1R2Affymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt acts as a decoy receptor that inhibits the activity of interleukin ligands.19710636
6Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsCXCL1Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is responsible for corticosteroid resistance in asthma. It also acts as a chemoattractent of immune cells.19710636
7Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsEGR1Affymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt is a transcription factor involved in immune signaling.19710636
8Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsSERPINB2Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt acts as an inflammatory factor.19710636
9Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsTNFAIP3Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is an inhibitor of apoptosis.19710636
10Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsCCL20Affymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputUpregulation of this chemokline takes place in rhinovirus induced allergic asthma.19710636
11Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsIL13RA2Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputThis cytokine receptor is upregulated in rhinovirus induced allergic asthma.19710636
12Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsCSF2Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is a cytokine upregulated in rhinovirus induced allergic asthma.19710636
13Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsSPRR2BAffymetrix GeneChip MicroarrayGenomicsHigh ThroughputThis is a structural protein involved in airway remodelling.19710636
14Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsZC3H12AAffymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is a regulatory gene upregulated in asthma.19710636
15Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsIL6Affymetrix GeneChip Microarray and qRT-PCR followed ELISA based assayGenomicsHigh Throughput and Low ThroughputThis cytokine gene is more upregulated after rhinovirus infection as compared to normal asthma.19710636
16Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsNFKBIZAffymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt is a regulatory gene upregulated in asthma.19710636
17Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsS100A3Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputThis calcium and zinc binding protein shows upregulation after rhinovirus infection in the asthma group.19710636
18Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsSOCS3Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputThis gene shows upregulation in asthma patients and as well as in non-asthmatic normal subjects infected with rhino virus.19710636
19Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsIVNS1ABPAffymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is a rhinoviral infection responsive protein down regulated in asthma.19710636
20Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsDLG1Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputThis is a cell cycle regulatory protein down regulated after rhinoviral infection.19710636
21Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsTIA1Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is an apoptotic inducer downregulated in rhinovirus infection.19710636
22Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsFN1Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt is a constituent of extra cellular matrix.19710636
23Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsUHRF2Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputThis is a cell cycle regulatory protein down regulated after rhinoviral infection.19710636
24Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsCDKN2BAffymetrix GeneChip MicroarrayGenomicsHigh ThroughputThis is a cell cycle regulatory protein down regulated after rhinoviral infection.19710636
25Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsLOXL2Affymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt is involved in cross-linking of collagen and elastin. Thus it helps in airway repair and remodelling.19710636
26Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsMMP10Affymetrix GeneChip MicroarrayGenomicsHigh ThroughputIt helps in airway repair and remodelling.19710636
27Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsIFI44Affymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt is a virus responsive protein and also participates in cell-cycle arrest.19710636
28Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsIL1BAffymetrix GeneChip Microarray and qRT-PCR followed ELISA based assayGenomicsHigh Throughput and Low ThroughputThis is a proinflammatory cytokine found in the cell culture supernatent after rhinovirus infection.19710636
29Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsIL1F9Affymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputThis gene is usually upregulated after microbial infection. In this study IL1F9 gene showed robust expression in asthmatic group after rhinoviral infection.19710636
30Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsINHBAAffymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt shows upregulation in uninfected asthma group. It is involved in airway repair and remodelling.19710636
31Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsSPARCAffymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt is involved in airway repair and remodelling.19710636
32Asthma exacerbation after rhinovirus infection.HumanPrimary Bronchial Epithelial CellsADAM19Affymetrix GeneChip Microarray and qRT-PCRGenomicsHigh Throughput and Low ThroughputIt is expressed at higher levels in the asthma samples (P<0.05) and was downregulated by HRV in both groups. It is involved in cell-matrix interactions.19710636
33AsthmaHumanBronchial Epithelial Cells stimulated with leukotriene E4SRSF12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputLTE4 and TGF-β alone or together with this gene may be able to hinder alternative splicing in Bronchial Epithelial Cells.20219718
34AsthmaHumanBronchial Epithelial Cells stimulated with leukotriene E4EIF3I2D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt participates in the modulation of the TGFβ response and has recently been shown to inhibit human lung fibroblast collagen contraction. Upregulation of this gene in Epithelial Cells causes fibroblast collagen contraction and may affect reparation in the context of the chronic airway wound scenario.20219718
35AsthmaHumanBronchial Epithelial Cells stimulated with leukotriene E4TUBB2D PAGE and MALDI-TOF-MS followed by flow cytometry and RT-QpcrProteomics, GenomicsHigh Throughput and Low ThroughputIt is known as a marker of ciliated cells in bronchial epithelium. In this study tubulin beta gene was found to be significantly down regulated.20219718
36AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βRCN12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt is reported to be involved in fibrosis of lungs during pulmonary inflammation.20219718
37AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βNPM12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputThis protein is upregulated in asthma inflammation. It is thought to control cell proliferation.20219718
38AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βATP5H2D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt is upregulated in asthma inflammation.20219718
39AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βMRPL122D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt is upregulated in asthma inflammation.20219718
40AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βSTMN12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt controls TGF-β1-mediated regulation of proliferation of Bronchial Epithelial Cells by participation in the construction and function of the mitotic spindle .20219718
41AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βSOD12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputUpregulation of this metal dependent antioxidant enzyme causes TGF-β1 to potentially increase the Bronchial Epithelial Cells' ability to withstand oxidative stress.20219718
42AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βNME12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputThis protein is upregulated in asthma inflammation. It is thought to control cell proliferation.20219718
43AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βCAPG2D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt participates in cell cycle regulation as it mediates communication between the actin cytoskeleton and microtubule-based organelles involved in mitosis.20219718
44AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βHSPD12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt plays cytoprotective roles in lung inflammation and injury by modulation of the balance between folding or aggregation and degradation of proteins.20219718
45AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βHSPA92D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt plays cytoprotective roles in lung inflammation and injury by modulation of the balance between folding or aggregation and degradation of proteins.20219718
46AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βG3BP12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt stimulates the pathway for cell proliferation and growth regulation. It is essential because it regulates the stability or translational efficiency of newly synthesized mRNA. It also acts as a negative regulator of p53 and may thereby be involved in the regulation of apoptosis of Bronchial Epithelial Cells.20219718
47AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βHNRNPH12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt is involved in RNA processing.20219718
48AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βPFDN22D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt is upregulated in asthma inflammation.20219718
49AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βKRT172D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt regulates cell growth.20219718
50AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βSFN2D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt is downregulated in asthma inflammation.20219718
51AsthmaHumanBronchial Epithelial Cells stimulated with TGF-βTPT12D PAGE and MALDI-TOF-MSProteomicsHigh ThroughputIt is downregulated in asthma inflammation.20219718
52Asthma induced by Virus.HumanBronchial Epithelial CellsIP-10ELISAOthersLow ThroughputHighly expressed in virus induced asthma.17628646
53Asthma induced by Virus.HumanBronchial Epithelial CellsRANTESELISAOthersLow ThroughputImportant chemoattractant for eosinophils and overexpressed in virus induced asthma.17628646
54Asthma induced by Virus.HumanBronchial Epithelial CellsIL6ELISAOthersLow ThroughputExpressed in virus induced asthma.17628646
55Asthma induced by Virus.HumanBronchial Epithelial CellsIL8ELISAOthersLow ThroughputExpressed in virus induced asthma.17628646
56Asthma induced by Virus.HumanBronchial Epithelial CellsTNFELISAOthersLow ThroughputExpressed in virus induced asthma.17628646
57AsthmaHumanBronchial Epithelial CellsSERPINB3ImmunoblotProteomicsLow ThroughputAllergen sensitization and Th2 cytokine treatment causes upregulation of this gene.15677460
58AsthmaHumanBronchial Epithelial CellsSTAT1ImmunoblotProteomicsLow ThroughputIL-4 and IL-13 treatment causes phosphorylation of STAT-1 at tyrosine residue to induce SCCA gene expression in bronchial epithelial cell.15677460
59AsthmaHumanBronchial Epithelial CellsSTAT6ImmunoblotProteomicsLow ThroughputIL-4 and IL-13 treatment causes phosphorylation of STAT-1 at tyrosine residue to induce SCCA gene expression in bronchial epithelial cell.15677460
60Allergic rhinitis and AsthmaHumanPrimary Nasal Epithelial Cells and Primary Bronchial Epithelial CellsCXCL10Microarray and real time PCRGenomicsHigh Throughput and Low ThroughputUpregulated in asthma(data in supplimentary table).24282527
61Allergic rhinitis and AsthmaHumanPrimary Nasal Epithelial Cells and Primary Bronchial Epithelial CellsDUSP1Microarray and real time PCRGenomicsHigh Throughput and Low ThroughputDowregulated in upper airways(data in suplimentary table).24282527
62Allergic rhinitis and AsthmaHumanPrimary Nasal Epithelial Cells and Primary Bronchial Epithelial CellsEREGMicroarray and real time PCRGenomicsHigh Throughput and Low ThroughputDownregulated in upper airways in allergic rhinitis patients with or without asthma.(data in supplimentary table.)24282527
63Allergic rhinitis and AsthmaHumanPrimary Nasal Epithelial Cells and Primary Bronchial Epithelial CellsIL13RA2Microarray and real time PCRGenomicsHigh Throughput and Low ThroughputUpregulated in upper airways in allergic rhinitis patients with or without asthma.(Data in supplimentary table.)24282527
64Allergic rhinitis and AsthmaHumanPrimary Nasal Epithelial Cells and Primary Bronchial Epithelial CellsIL1BMicroarray and real time PCRGenomicsHigh Throughput and Low ThroughputUpregulated in upperairways of allergic rhinitis patients without asthma and downregulated in upper airways of patients with asthma. (Data in supplimentary table.)24282527
65Allergic rhinitis and AsthmaHumanPrimary Nasal Epithelial Cells and Primary Bronchial Epithelial CellsIL8Microarray and real time PCRGenomicsHigh Throughput and Low ThroughputDownregulated in upperairways of patients with allergic rhinitis and asthma.(Data in supplimentary table.)24282527
66Allergic rhinitis and AsthmaHumanPrimary Nasal Epithelial Cells and Primary Bronchial Epithelial CellsPDE4DMicroarray and real time PCRGenomicsHigh Throughput and Low ThroughputDownregulated in upper airways in allergic rhinitis patients with or without asthma.(Data in supplimentary table.)24282527
67Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsAKAP12Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma.(Data in supplimentary table.)24282527
68Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsBST2Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma.(Data in supplimentary table.)24282527
69Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsC16orf45Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
70Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsC1orf133Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
71Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsCHST9Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
72Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsDPYSL3Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
73Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsFOXA2Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. It is a transcription factor belonging to Forkhead family.(Data in supplimentary table.)24282527
74Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsFOXE1Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. It is a transcription factor belonging to Forkhead family.(Data in supplimentary table.)24282527
75Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsFUT2Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma.(Data in supplimentary table.)24282527
76Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsGSNMicroarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma.(Data in supplimentary table.)24282527
77Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsHOXA1Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma.(Data in supplimentary table.)24282527
78Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsIL33Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. Induces Th2 associated cytokines.(Data in supplimentary table.)24282527
79Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsJAK2Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
80Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsNCF2Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
81Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsNLRP1Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
82Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsPCDH7Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
83Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsPLCB1Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
84Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsPSD3Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
85Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsRIMS2Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
86Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsSERTAD4Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
87Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsSKAP2Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
88Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsSPDEFMicroarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
89Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsST6GALNAC1Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
90Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsSTOMMicroarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
91Allergic rhinitis and AsthmaHumanBronchial Epithelial CellsTSPAN1Microarray and real time PCRGenomicsHigh ThroughputHighly expressed in patients with allergic rhinitis and asthma. (Data in supplimentary table.)24282527
92Allergic rhinitis and AsthmaHumanPrimary Nasal Epithelial Cells and Primary Bronchial Epithelial CellsTIMP2Microarray and real time PCRGenomicsHigh Throughput and Low ThroughputDowregulated in upper airways(data in suplimentary table).24282527
93AsthmaHumanBronchial Epithelial Cells (BEC), Broncho Alveolar Lavage (BAL) CellsIL18R1MicroarrayGenomicsHigh ThroughputThe expression levels of IL18R1 were consistently higher in asthma or severe asthma than controls or mild/moderate asthma in BEC and BAL, indicating that it may be a potential biomarker for asthma susceptibility and severity.27050946
94AsthmaHumanBronchial Epithelial Cells (BEC), Broncho Alveolar Lavage (BAL) CellsIL6RMicroarrayGenomicsHigh ThroughputThe expression levels of IL6R were consistently higher in asthma or severe asthma than controls or mild/moderate asthma in cells from BAL.27050946
95AsthmaHumanBronchial Epithelial Cells (BEC), Broncho Alveolar Lavage (BAL) CellsORMDL3MicroarrayGenomicsHigh ThroughputThe expression levels of ORMDL3 were higher in severe asthma than controls in BEC.27050946
96AsthmaHumanBronchial Epithelial Cells (BEC), Broncho Alveolar Lavage (BAL) CellsIL13MicroarrayGenomicsHigh ThroughputThe expression levels of IL13 were higher in asthma and severe asthma than controls in BAL.27050946
97AsthmaHumanBronchial Epithelial Cells (BEC), Broncho Alveolar Lavage (BAL) CellsGSDMBMicroarrayGenomicsHigh ThroughputThe expression levels of GSDMB were higher in severe asthma than mild/moderate asthma in BAL cells.27050946
98AsthmaHumanBronchial Epithelial Cells (BEC), Broncho Alveolar Lavage (BAL) CellsIL6MicroarrayGenomicsHigh ThroughputThe expression levels of IL6 was lower in asthma or severe asthma than controls in BEC.27050946
99AsthmaHumanBronchial Epithelial Cells (BEC), Broncho Alveolar Lavage (BAL) CellsCHI3L1MicroarrayGenomicsHigh ThroughputThe expression levels of CHI3L1 was lower in asthma or severe asthma than controls in BEC.27050946
100AsthmaHumanBronchial Epithelial Cells (BECs)IL33Bis-pyrosequencingEpigeneticsLow ThroughputLower DNA-methylation levels of IL33 was noted in asthmatic BECs than control BECs.30468398
101AsthmaHumanBronchial Epithelial Cells (BECs)CCL26Bis-pyrosequencingEpigeneticsLow ThroughputLower DNA-methylation levels of CCL26 was noted in asthmatic BECs than control BECs.30468398
102AsthmaHumanBronchial Epithelial Cells (BECs)SCGB1A1Analysis of Microarray DatasetGenomics, BioinformaticsHigh ThroughputSCGB1A1 mRNA expression was significantly reduced by approximately 53% in asthmatic epithelial cells as compared to the cells from healthy controls.30576223
103AsthmaHumanBronchial Epithelial Cells (BECs)MUC5ACAnalysis of Microarray DatasetGenomics, BioinformaticsHigh ThroughputThe major airway epithelial mucin gene MUC5AC was highly elevated by approximately twofold in asthmatic epithelial cells as compared to the cells from healthy controls.30576223
104AsthmaHumanBronchial Epithelial Cells (BECs)FOXA2Analysis of Microarray DatasetGenomics, BioinformaticsHigh ThroughputFOXA2 (decreased by about 32%) was differentially expressed between asthmatics and healthy controls. The reduction of FOXA2 in asthma may be responsible for decreased SCGB1A1 expression.30576223
105AsthmaHumanBronchial Epithelial Cells (BECs)FOXA3Analysis of Microarray DatasetGenomics, BioinformaticsHigh ThroughputFOXA3 (increased by approximately 38%) was differentially expressed between asthmatics and healthy controls.30576223
106Severe AsthmaHumanBronchial Epithelial Cells (BECs)CXCL8Cytometric Bead ArrayOthers High Throughput CXCL8 production was significantly upregulated in severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC) co-cultured with control or asthmatic Monocyte-derived dendritic cells (moDC) compared to baseline. Exposure to particulate matter resulted in increased CXCL8 release in severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC).28275176
107Severe AsthmaHumanBronchial Epithelial Cells (BECs)TSLPELISAOthers Low Throughput TSLP production was significantly upregulated in severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC) co-cultured with control or asthmatic Monocyte-derived dendritic cells (moDC) compared to baseline.28275176
108Severe AsthmaHumanBronchial Epithelial Cells (BECs)IL33ELISAOthers Low Throughput IL33 production was significantly upregulated in severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC) co-cultured with control or asthmatic Monocyte-derived dendritic cells (moDC) compared to baseline. Exposure to particulate matter resulted in increased IL33 release in severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC).28275176
109Severe AsthmaHumanBronchial Epithelial Cells (BECs)CXCL10Cytometric Bead ArrayOthers High Throughput CXCL10 production was significantly upregulated in control Human Bronchial Epithelial Cells (cHBEC) co-cultured with control Monocyte-derived dendritic cells (moDC) compared to HBEC alone.28275176
110Severe AsthmaHumanBronchial Epithelial Cells (BECs)CCL2Cytometric Bead ArrayOthers High Throughput CCL2 production was significantly upregulated in control Human Bronchial Epithelial Cells (cHBEC) co-cultured with control Monocyte-derived dendritic cells (moDC) compared to HBEC alone. Particulate matter exposure of saHBEC (Severe asthmatics derived Human Bronchial Epithelial Cells) co-cultured with control moDC induced an additional increase in basolateral production of CCL2, which was not found in saHBEC co-cultured with severe moDC.28275176
111Severe AsthmaHumanBronchial Epithelial Cells (BECs)IL25qRT-PCRGenomicsLow Throughput IL25 mRNA expression was found to decrease in control Human Bronchial Epithelial Cells (cHBEC) upon particulate matter-induction.28275176
112Severe AsthmaHumanBronchial Epithelial Cells (BECs)PDL1qRT-PCRGenomicsLow Throughput Co-culture with Monocyte-derived dendritic cells (moDC) resulted in increased PD-L1 mRNA levels exclusively in severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC).28275176
113Severe AsthmaHumanBronchial Epithelial Cells (BECs)PDL2qRT-PCRGenomicsLow Throughput Co-culture with Monocyte-derived dendritic cells (moDC) resulted in increased PD-L2 mRNA levels in both severe asthmatics derived Human Bronchial Epithelial Cells(saHBEC) and Control Human Bronchial Epithelial Cells(cHBEC).28275176
114Severe AsthmaHumanBronchial Epithelial Cells (BECs)IL2Cytometric Bead ArrayOthers High Throughput IL2 was found to be increased in co-culture of severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC)-conditioned Monocyte-derived dendritic cells (moDC) with lymphocytes compared to control Human Bronchial Epithelial Cells (cHBEC)-conditioned moDC/lymphocytes.28275176
115Severe AsthmaHumanBronchial Epithelial Cells (BECs)IL4Cytometric Bead ArrayOthers High Throughput IL4 was found to be increased in co-culture of severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC)-conditioned Monocyte-derived dendritic cells (moDC) with lymphocytes compared to control Human Bronchial Epithelial Cells (cHBEC)-conditioned moDC/lymphocytes.28275176
116Severe AsthmaHumanBronchial Epithelial Cells (BECs)IL6Cytometric Bead ArrayOthers High Throughput IL6 was found to be increased in co-culture of severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC)-conditioned Monocyte-derived dendritic cells (moDC) with lymphocytes compared to control Human Bronchial Epithelial Cells (cHBEC)-conditioned moDC/lymphocytes.28275176
117Severe AsthmaHumanBronchial Epithelial Cells (BECs)IL10Cytometric Bead ArrayOthers High Throughput IL10 was found to be decreased in co-culture of severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC)-conditioned Monocyte-derived dendritic cells (moDC) with lymphocytes compared to control Human Bronchial Epithelial Cells (cHBEC)-conditioned moDC/lymphocytes.28275176
118Severe AsthmaHumanBronchial Epithelial Cells (BECs)IFNGCytometric Bead ArrayOthers High Throughput IFNG was found to be decreased in co-culture of severe asthmatics derived Human Bronchial Epithelial Cells (saHBEC)-conditioned Monocyte-derived dendritic cells (moDC) with lymphocytes compared to control Human Bronchial Epithelial Cells (cHBEC)-conditioned moDC/lymphocytes.28275176
119Severe AsthmaHumanLung Tissues, Bronchial Epithelial Cells, Broncho Alveolar Lavage Fluid (BALF), Airway Epithelial Cell CultureSEMA3EImmunohistochemistry, qRT-PCR, ELISAOthers, Genomics, OthersLow ThroughputSemaphorin 3E is diminished in the airways of severe allergic asthmatic patients. This study suggests a potential role of Semaphorin3E in the pathogenesis of asthma severity.28506853
120AsthmaHumanBronchial Epithelial Cells (BECs)VCANqRT-PCRGenomicsLow ThroughputPan-versican (VCAN) transcription was found to be significantly elevated in the asthmatic BECs compared with those from healthy controls.27126823
121AsthmaHumanBronchial Epithelial Cells (BECs)VCAN1qRT-PCRGenomicsLow ThroughputVCAN1 transcription was found to be significantly elevated in the asthmatic BECs compared with those from healthy controls.27126823
122AsthmaHumanBronchial Epithelial Cells (BECs)VCAN3qRT-PCRGenomicsLow ThroughputVCAN3 transcription was found to be significantly elevated in the asthmatic BECs compared with those from healthy controls.27126823
123AsthmaHumanBronchial Epithelial Cells (BECs)HAS2qRT-PCRGenomicsLow ThroughputIncreased expression of HAS2 transcripts was noted in the BECs from asthmatic children as compared with BECs from healthy children. 27126823
124AsthmaHumanBronchial Epithelial Cells (BECs)HAS3qRT-PCRGenomicsLow ThroughputIncreased expression of HAS3 transcripts was noted in the BECs from asthmatic children as compared with BECs from healthy children. 27126823
125AsthmaHumanBronchial Epithelial Cells (BECs)CD44qRT-PCRGenomicsLow ThroughputThe expression of CD44 was increased in BECs from asthmatic children as compared to that from non asthmatics.27126823
126Asthma (Steroid Naïve Asthma)HumanBronchial Epithelial Cells (BECs), Lung Biopsy, Broncho Alveolar Lavage Fluid (BALF), SerumITLN1qRT-PCR, Immunohistochemistry, ELISAGenomics, OthersLow ThroughputITLN1 mRNA expression in freshly isolated BECs was significantly higher in the Steroid Naive (SN) Asthma group than in Steroid treated asthmatics and healthy controls in both distal and proximal airway samples. ITLN1 mRNA was also positively correlated with iNOS, CCL26, periostin and DPP4 mRNA. ITLN1 protein was increased in goblet cells in SN-Asthmatics and increased in SN-Asthmatic BAL fluid.28775743
127Severe AsthmaHumanBronchial Epithelial Cells (BECs)IL5Eosinophil/basophil colony formation units Enumeration, MACS CD34 Microbead mediated Cell Isolation, qRT-PCROthers, GenomicsLow ThroughputIL5 from bronchial epithelial cells from severe asthmatic patients possess the ability to drive in situ eosinophilopoiesis.28853918
128Severe AsthmaHumanBronchial Epithelial Cells (BECs)TSLPEosinophil/basophil colony formation units Enumeration, MACS CD34 Microbead mediated Cell Isolation, qRT-PCROthers, GenomicsLow ThroughputFactors derived from bronchial epithelial cells from severe asthmatic patients possess the ability to drive in situ eosinophilopoiesis, with TSLP being a key driver of this process.28853918
129AsthmaHumanPrimary Bronchial Epithelial Cells (BECs) (Infected with Rhinovirus)CASP1qRT-PCRGenomicsLow ThroughputCaspase-1 expression was elevated after rhinoviral infection exclusively in bronchial epithelial cells from asthmatics.29204432
130Asthma, COPDHumanPrimary Bronchial Epithelial Cells (BECs), SerummiR-10a-5pNext Generation Sequencing, qRT-PCR, Microarray Data AnalysisGenomics, BioinformaticsHigh Throughput, Low Throughput, High ThroughputIncreased miR-10a-5p level was noted in primary bronchial epithelial cells and serum of patients with asthma and COPD as compared with normal control subjects. 30696075
131Asthma, COPDHumanPrimary Bronchial Epithelial Cells (BECs), SerummiR-146a-5pNext Generation Sequencing, qRT-PCR, Microarray Data AnalysisGenomics, BioinformaticsHigh Throughput, Low Throughput, High ThroughputIncreased miR-146a-5p level was noted in primary bronchial epithelial cells and serum of patients with asthma and COPD as compared with normal control subjects. 30696075
132Asthma, COPDHumanPrimary Bronchial Epithelial Cells (BECs)FOXO3 qRT-PCRGenomicsLow ThroughputSignificantly decreased expression levels of FOXO3 was noted primary bronchial epthelial cells in asthmatics and COPD patients as compared to healthy subjects.30696075
133Asthma, COPDHumanPrimary Bronchial Epithelial Cells (BECs)PDE7A qRT-PCRGenomicsLow ThroughputSignificantly decreased expression levels of PDE7A was noted primary bronchial epthelial cells in asthmatics and COPD patients as compared to healthy subjects.30696075
134Asthma, COPDHumanBronchial Epithelial CellsCXCL1ELISAOthersLow ThroughputCXCL1 level was decreased in the bronchial epithelial cells from asthmatics and COPD patients as compared to healthy subjects.30690080
135AsthmaHumanBronchial Epithelial CellsmiR-744qRT-PCRGenomicsLow ThroughputSevere asthma showed a significantly elevated cell proliferation rate and reduced abundance of miR-744 as compared to healthy subjects. The presence of miR-744 repressed bronchial epithelial cells proliferation through mediating the SMAD3 pathway by modulating TGFB1, providing a promising therapeutic approach for epithelial function in severe asthma.30903795
136AsthmaHuman Bronchial Epithelial CellsmiR-221qRT-PCRGenomicsLow ThroughputCompared with healthy controls, miR-221 expression was significantly increased in bronchial epithelial cells from asthma patients subjects. miR-221 participates in the airway epithelial cells injury in asthma via targeting SIRT1.30654657
137AsthmaHuman Bronchial Epithelial CellsSIRT1qRT-PCRGenomicsLow ThroughputThe level of SIRT1 mRNA was reduced in the bronchial epithelial cells from asthma patients as compared to healthy subjects. 30654657
138Neutrophilic AsthmaHumanPrimary Bronchial Epithelial Cells (BECs)NOX4Immunohistochemistry, Immunofluorescence Staining, qRT-PCROthers, GenomicsLow ThroughputNADPH Oxidase-4 overexpression is associated With epithelial ciliary dysfunction in Neutrophilic Asthma.26836936
139Neutrophilic AsthmaHumanPrimary Bronchial Epithelial Cells (BECs)DUOX1ImmunohistochemistryOthersLow ThroughputSignificant overexpression of DUOX1 was noted in bronchial epithelial cells from neutrophilic asthma patients as compared to healthy controls.26836936
140Non-Neutrophilic AsthmaHumanPrimary Bronchial Epithelial Cells (BECs)DUOX2ImmunohistochemistryOthersLow ThroughputSignificant overexpression of DUOX2 was noted in bronchial epithelial cells from non-neutrophilic asthma patients as compared to healthy controls.26836936
141AsthmaHumanBronchial Epithelial Cells from Bronchial BrushingsCLDN4qRT-PCRGenomicsLow ThroughputClaudin-4 was significantly low expressed in asthmatic HBEC compared to control epithelium.27312821
142AsthmaHumanBronchial Epithelial Cells from Bronchial BrushingsJUPqRT-PCRGenomicsLow ThroughputPlakoglobin was significantly low expressed in asthmatic HBEC compared to control epithelium.27312821
143AsthmaHumanBronchial Epithelial Cells from Bronchial BrushingsNECTIN1qRT-PCRGenomicsLow ThroughputNectin-1 was significantly low expressed in asthmatic HBEC compared to control epithelium.27312821
144AsthmaHumanBronchial Epithelial Cells from Bronchial BrushingsNECTIN2qRT-PCRGenomicsLow ThroughputNectin-2 was significantly low expressed in asthmatic HBEC compared to control epithelium.27312821
145AsthmaHumanBronchial Epithelial Cells from Bronchial BrushingsGJB2qRT-PCRGenomicsLow ThroughputConnexin-26 was significantly low expressed in asthmatic HBEC compared to control epithelium.27312821
146Bronchial AsthmaHumanBronchial Epithelial Cells (BECs)DPP4qRT-PCR, ImmunohistochemistryGenomics, OthersLow ThroughputDPP4 mRNA and protein was strongly expressed in freshly isolated Bronchial Epithelial Cells (BECs) in steroid naive Bronchial Asthmatics as compared to steroid treated Bronchial Asthmatics.26975422
147AsthmaHumanHuman Lung Fibroblast (HLF) cocultured with Bronchial Epithelial Cells (BECs) from subjectsα-SMAqRT-PCR, ImmunohistochemistryGenomics, OthersLow Throughputα-SMA was significantly increased HLFs co-cultured with BECs from asthmatic subjects as compared to that from healthy controls.30361541
148AsthmaHumanHuman Lung Fibroblast (HLF) cocultured with Bronchial Epithelial Cells (BECs) from subjectsCOL1A1qRT-PCRGenomicsLow ThroughputCOL1A1 was significantly increased HLFs co-cultured with BECs from asthmatic subjects as compared to that from healthy controls.30361541
149AsthmaHumanHuman Lung Fibroblast (HLF) cocultured with Bronchial Epithelial Cells (BECs) from subjectsHAS2qRT-PCRGenomicsLow ThroughputHAS2 was significantly increased HLFs co-cultured with BECs from asthmatic subjects as compared to that from healthy controls.30361541
150Severe AsthmaHumanBronchial Epithelial CellsMUC1qRT-PCRGenomicsLow ThroughputMUC1 expression was downregulated in bronchial epithelial cells and peripheral blood neutrophils from severe asthma patients compared with mild asthma and healthy subjects. Daily dose of inhaled corticosteroids (ICS) inversely correlated with MUC1 expression in neutrophils from mild and severe asthma.29978485
151Severe Allergic Asthma (Patients from highly polluted area)HumanPrimary Bronchial Epithelial Cells (BECs exposed to Diesel Exhausted Particles (DEP))IL33qRT-PCR, Western Blotting, ELISAGenomics, Proteomics, OthersLow ThroughputPrimary bronchial epithelial cells exposed to DEP showed upregulation of IL33.29672862
152Severe Allergic Asthma (Patients from highly polluted area)HumanPrimary Bronchial Epithelial Cells (BECs exposed to Diesel Exhausted Particles (DEP))IL25qRT-PCR, Western Blotting, ELISAGenomics, Proteomics, OthersLow ThroughputPrimary bronchial epithelial cells exposed to DEP showed upregulation of IL25.29672862
153Severe Allergic Asthma (Patients from highly polluted area)HumanPrimary Bronchial Epithelial Cells (BECs exposed to Diesel Exhausted Particles (DEP))TSLPqRT-PCR, Western Blotting, ELISAGenomics, Proteomics, OthersLow ThroughputPrimary bronchial epithelial cells exposed to DEP showed upregulation of TSLP. 29672862
154Severe Allergic Asthma (Patients from highly polluted area)HumanPrimary Bronchial Epithelial Cells (BECs)AHRChIP assayOthersLow ThroughputIncreased AHR binding to promoters of IL33, IL25, and TSLP was found using chromatin immunoprecipitation (ChIP) assay. Allergic severe asthma with high AHR NT had higher bronchial gene and protein expression of IL33, IL25, and TSLP.29672862
155AsthmaHumanBronchial Epithelial Cells (BECs)SCD1qRT-PCRGenomicsLow ThroughputSCD1 expression was significantly decreased in bronchial epithelial cells from asthmatics as compared to that from healthy volunteers.28397284
156AsthmaHumanBronchial Epithelial Cells (BECs)SCD5qRT-PCRGenomicsLow ThroughputSCD5 expression was significantly decreased in bronchial epithelial cells from asthmatics as compared to that from healthy volunteers.28397284
157Asthma HumanPrimary Bronchial Epithelial Cells (BECs) (Infected with Rhinovirus-16)IL33Immunostaining, qRT-PCROthers, GenomicsLow ThroughputIL33 expression was significantly increased in asthmatic primary bronchial epithelial cells infected with RV16 as compared to healthy control primary bronchial epithelial cells infected with Rhino virus 16 (RV-16).30316823
158AsthmaHumanBronchial Epithelial CellsHLA-GqRT-PCRGenomicsLow ThroughputMild Asthmatics and Severe Asthmatics display less functional HLA-G isoforms than healthy controls. HLA-G*01:06 frequency in mild and severe asthmatics was significantly higher than in the healthy population. An impaired expression of HLA-G isoforms in asthmatic patients could contribute to the loss of inflammation control and epithelium structural remodeling. HLA-G might be an interesting alternative target for asthmatic patients not adequately responding to current drugs.28303134
159AsthmaHumanBronchial Epithelial Cells (BECs)miR-19b-3pSmall RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputmiR-19b-3p expression was significantly decreased in severe asthmatics as compared to healthy controls.29769273
160AsthmaHumanBronchial Epithelial Cells (BECs)miR-20a-5pSmall RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputmiR-20a-5p expression was significantly decreased in severe asthmatics as compared to healthy controls.29769273
161AsthmaHumanBronchial Epithelial Cells (BECs)miR-625-3pSmall RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputmiR-625-3p expression was significantly increased in severe asthmatics as compared to healthy controls.29769273
162AsthmaHumanBronchial Epithelial Cells (BECs)miR-574-3pSmall RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputmiR-574-3p expression was significantly increased in severe asthmatics as compared to healthy controls.29769273
163AsthmaHumanBronchial Epithelial Cells (BECs)miR-135b-5pSmall RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputmiR-135b-5p expression was significantly decreased in severe asthmatics as compared to healthy controls.29769273
164Asthma (HDM Sensitized Symptomatic Asthma), Atopic AsthmaHumanSputum Derived Cells, Bronchial Epithelial Cells (BECs)EGFRRNA Sequencing, ImmunostainingTranscriptomics, OthersHigh Throughput, Low ThroughputEGFR was up regulated in HDM sensitized wheezers as compared to HDM sensitized non-wheezers. EGFR expression was significantly higher in atopic asthmatic bronchial epithelial cells versus nonatopic controls. 29367592
165Asthma (HDM Sensitized Symptomatic Asthma), Atopic AsthmaHumanSputum Derived Cells, Bronchial Epithelial Cells (BECs)ERBB2RNA Sequencing, ImmunostainingTranscriptomics, OthersHigh Throughput, Low ThroughputERBB2 was up regulated in HDM sensitized wheezers as compared to HDM sensitized non-wheezers. ERBB2 expression was found to be higher in atopic asthmatic bronchial epithelial cells versus nonatopic controls. 29367592
166Asthma (HDM Sensitized Symptomatic Asthma), Atopic AsthmaHumanSputum Derived Cells, Bronchial Epithelial Cells (BECs)CDHR3RNA Sequencing, ImmunostainingTranscriptomics, OthersHigh Throughput, Low ThroughputCDHR3 was up regulated in HDM sensitized wheezers as compared to HDM sensitized non-wheezers. CDHR3 expression was significantly higher in atopic asthmatic bronchial epithelial cells versus nonatopic controls. 29367592
167AsthmaHumanBronchial Epithelial Cells (BECs)miR-127-3pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-127-3p was significantly increased in severe asthmatics as compared to healthy controls.29769273
168AsthmaHumanBronchial Epithelial Cells (BECs)miR-582-3pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-582-3p was significantly dereased in severe asthmatics as compared to healthy controls.29769273
169AsthmaHumanBronchial Epithelial Cells (BECs)miR-543Small RNA SequencingTranscriptomicsHigh ThroughputmiR-543 was significantly increased in severe asthmatics as compared to healthy controls.29769273
170AsthmaHumanBronchial Epithelial Cells (BECs)miR-495-3pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-495-3p was significantly increased in severe asthmatics as compared to healthy controls.29769273
171AsthmaHumanBronchial Epithelial Cells (BECs)miR-17-5pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-17-5p was significantly decreased in severe asthmatics as compared to healthy controls.29769273
172AsthmaHumanBronchial Epithelial Cells (BECs)miR-320cSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-320c was significantly increased in severe asthmatics as compared to healthy controls.29769273
173AsthmaHumanBronchial Epithelial Cells (BECs)miR-27b-3pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-27b-3p was significantly decreased in severe asthmatics as compared to healthy controls.29769273
174AsthmaHumanBronchial Epithelial Cells (BECs)miR-192-5pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-192-5p was significantly decreased in severe asthmatics as compared to healthy controls.29769273
175AsthmaHumanBronchial Epithelial Cells (BECs)miR-99b-5pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-99b-5p was significantly increased in severe asthmatics as compared to healthy controls.29769273
176AsthmaHumanBronchial Epithelial Cells (BECs)let-7i-5pSmall RNA SequencingTranscriptomicsHigh Throughputlet-7i-5p was significantly decreased in severe asthmatics as compared to healthy controls.29769273
177AsthmaHumanBronchial Epithelial Cells (BECs)miR-148a-3pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-148a-3p was significantly decreased in severe asthmatics as compared to healthy controls.29769273
178AsthmaHumanBronchial Epithelial Cells (BECs)miR-342-3pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-342-3p was significantly increased in severe asthmatics as compared to healthy controls.29769273
179AsthmaHumanBronchial Epithelial Cells (BECs)miR-22-5pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-22-5p was significantly decreased in severe asthmatics as compared to healthy controls.29769273
180AsthmaHumanBronchial Epithelial Cells (BECs)miR-96-5pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-96-5p was significantly decreased in severe asthmatics as compared to healthy controls.29769273
181AsthmaHumanBronchial Epithelial Cells (BECs)miR-197-3pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-197-3p was significantly increased in severe asthmatics as compared to healthy controls.29769273
182AsthmaHumanBronchial Epithelial Cells (BECs)miR-423-5pSmall RNA SequencingTranscriptomicsHigh ThroughputmiR-423-5p was significantly increased in severe asthmatics as compared to healthy controls.29769273
183AsthmaHumanBronchial Epithelial Cells (BECs)COL21A1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCOL21A1 expression was significantly decreased in severe asthma patients as compared to healthy controls.29769273
184AsthmaHumanBronchial Epithelial Cells (BECs)CTSDRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCTSD expression was significantly decreased in severe asthma patients as compared to healthy controls.29769273
185AsthmaHumanBronchial Epithelial Cells (BECs)CEBPARNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCEBPA expression was significantly decreased in severe asthma patients as compared to healthy controls.29769273
186AsthmaHumanBronchial Epithelial Cells (BECs)IL23ARNA Sequencing, Frac Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIL23A expression was significantly increased in severe asthma patients as compared to healthy controls. IL23A was more bound to polyribosomes in Severe asthmatics than in healthy controls.29769273
187AsthmaHumanBronchial Epithelial Cells (BECs)ABCC4RNA Sequencing, Frac Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputABCC4 expression was significantly increased in severe asthma patients as compared to healthy controls. ABCC4 was more bound to polyribosomes in Severe asthmatics than in healthy controls.29769273
188AsthmaHumanBronchial Epithelial Cells (BECs)PDPNRNA Sequencing, Frac Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPDPN expression was significantly increased in severe asthma patients as compared to healthy controls. PDPN was more bound to polyribosomes in Severe asthmatics than in healthy controls.29769273
189AsthmaHumanBronchial Epithelial Cells (BECs)IL31RARNA Sequencing, Frac Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIL31RA expression was significantly increased in severe asthma patients as compared to healthy controls. IL31RA was more bound to polyribosomes in Severe asthmatics than in healthy controls.29769273
190AsthmaHumanBronchial Epithelial Cells (BECs)IGFL1RNA Sequencing, Frac Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIGFL1 expression was significantly increased in severe asthma patients as compared to healthy controls. IGFL1 was more bound to polyribosomes in Severe asthmatics than in healthy controls.29769273
191AsthmaHumanBronchial Epithelial Cells (BECs)IL1AFrac Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIL1A was more bound to polyribosomes in Severe asthmatics than in healthy controls.29769273
192AsthmaHumanBronchial Epithelial Cells (BECs)LTBFrac Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLTB was more bound to polyribosomes in Severe asthmatics than in healthy controls.29769273
193AsthmaHumanBronchial Epithelial Cells (BECs)IRAK3RNA Sequencing, Frac Sequencing, Alternative Splicing Analysis, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputThe skipped isoform of IRAK3 was increased in severe asthma BECs as compared to that from healthy controls.29769273
194AsthmaHumanBronchial Epithelial Cells (BECs)ACBD4RNA Sequencing, Frac Sequencing, Alternative Splicing Analysis, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAggregate gene expression analysis detected ACBD4 as down regulated in severe asthma while alternative splicing analysis revealed no difference. IRAK3 skipped isoform showed increased binding to polyribosomes when performing analysis of aggregate gene expression.29769273
195AsthmaHumanBronchial Epithelial Cells (BECs)ITGA2RNA Sequencing, Frac Sequencing, Alternative Splicing Analysis, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputThe skipped isoform of ITGA2 presented increased polyribosome binding in severe asthma.29769273
196AsthmaHumanBronchial Epithelial Cells (BECs)ITGA6RNA Sequencing, Frac Sequencing, Alternative Splicing Analysis, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputThe skipped isoform of ITGA6 presented increased polyribosome binding in severe asthma.29769273
197AsthmaHumanBronchial Epithelial Cells (BECs)RGS18RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputRGS18 was significantly increased in severe asthmatics as compred to healthy controls.29769273
198AsthmaHumanBronchial Epithelial Cells (BECs)MARCH4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMARCH4 was significantly increased in severe asthmatics as compred to healthy controls.29769273
199AsthmaHumanBronchial Epithelial Cells (BECs)TMEM18RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputTMEM18 was slightly but significantly increased in severe asthmatics as compred to healthy controls.29769273
200AsthmaHumanBronchial Epithelial Cells (BECs)GPR63RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputGPR63 was significantly increased in severe asthmatics as compred to healthy controls.29769273
201AsthmaHumanBronchial Epithelial Cells (BECs)CYP2D6RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCYP2D6 was significantly increased in severe asthmatics as compred to healthy controls.29769273
202AsthmaHumanBronchial Epithelial Cells (BECs)ETV4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputETV4 was significantly increased in severe asthmatics as compred to healthy controls.29769273
203AsthmaHumanBronchial Epithelial Cells (BECs)PAK3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPAK3 was significantly increased in severe asthmatics as compred to healthy controls.29769273
204AsthmaHumanBronchial Epithelial Cells (BECs)HTR1DRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputHTR1D was significantly increased in severe asthmatics as compred to healthy controls.29769273
205AsthmaHumanBronchial Epithelial Cells (BECs)MAP2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMAP2 was significantly decreased in severe asthmatics as compred to healthy controls.29769273
206AsthmaHumanBronchial Epithelial Cells (BECs)CIDEARNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCIDEA was significantly increased in severe asthmatics as compred to healthy controls.29769273
207AsthmaHumanBronchial Epithelial Cells (BECs)ARHGAP6RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputARHGAP6 was significantly decreased in severe asthmatics as compred to healthy controls.29769273
208AsthmaHumanBronchial Epithelial Cells (BECs)LOC100134259RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLOC100134259 was significantly decreased in severe asthmatics as compred to healthy controls.29769273
209AsthmaHumanBronchial Epithelial Cells (BECs)ACSL5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputACSL5 was significantly increased in severe asthmatics as compred to healthy controls.29769273
210AsthmaHumanBronchial Epithelial Cells (BECs)BC016015RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputBC016015 was significantly increased in severe asthmatics as compred to healthy controls.29769273
211AsthmaHumanBronchial Epithelial Cells (BECs)MUCL1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMUCL1 was significantly increased in severe asthmatics as compred to healthy controls.29769273
212AsthmaHumanBronchial Epithelial Cells (BECs)PLCB2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPLCB2 was significantly increased in severe asthmatics as compred to healthy controls.29769273
213AsthmaHumanBronchial Epithelial Cells (BECs)ARHGAP24RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputARHGAP24 was significantly decreased in severe asthmatics as compred to healthy controls.29769273
214AsthmaHumanBronchial Epithelial Cells (BECs)AX748345RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAX748345 was significantly increased in severe asthmatics as compred to healthy controls.29769273
215AsthmaHumanBronchial Epithelial Cells (BECs)CREG1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCREG1 was significantly decreased in severe asthmatics as compred to healthy controls.29769273
216AsthmaHumanBronchial Epithelial Cells (BECs)LAPTM5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLAPTM5 was significantly increased in severe asthmatics as compared to control subjects.29769273
217AsthmaHumanBronchial Epithelial Cells (BECs)STEAP1BRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSTEAP1B was significantly increased in severe asthmatics as compared to control subjects.29769273
218AsthmaHumanBronchial Epithelial Cells (BECs)C1RLRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC1RL was significantly decreased in severe asthmatics as compared to control subjects.29769273
219AsthmaHumanBronchial Epithelial Cells (BECs)LOC646576RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLOC646576 was significantly increased in severe asthmatics as compared to control subjects.29769273
220AsthmaHumanBronchial Epithelial Cells (BECs)HDGFRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputHDGF was significantly increased in severe asthmatics as compared to control subjects.29769273
221AsthmaHumanBronchial Epithelial Cells (BECs)IMMP2LRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIMMP2L was significantly increased in severe asthmatics as compared to control subjects.29769273
222AsthmaHumanBronchial Epithelial Cells (BECs)IL1R2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIL1R2 was significantly increased in severe asthmatics as compared to control subjects.29769273
223AsthmaHumanBronchial Epithelial Cells (BECs)NPAS1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNPAS1 was significantly decreased in severe asthmatics as compared to control subjects.29769273
224AsthmaHumanBronchial Epithelial Cells (BECs)SFTA1PRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSFTA1P was significantly increased in severe asthmatics as compared to control subjects.29769273
225AsthmaHumanBronchial Epithelial Cells (BECs)XPNPEP3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputXPNPEP3 was significantly increased in severe asthmatics as compared to control subjects.29769273
226AsthmaHumanBronchial Epithelial Cells (BECs)FIG4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputFIG4 was significantly decreased in severe asthmatics as compared to control subjects.29769273
227AsthmaHumanBronchial Epithelial Cells (BECs)DDX58RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputDDX58 was significantly increased in severe asthmatics as compared to control subjects.29769273
228AsthmaHumanBronchial Epithelial Cells (BECs)LOC728752RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLOC728752 was significantly decreased in severe asthmatics as compared to control subjects.29769273
229AsthmaHumanBronchial Epithelial Cells (BECs)LYPLA1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLYPLA1 was significantly increased in severe asthmatics as compared to control subjects.29769273
230AsthmaHumanBronchial Epithelial Cells (BECs)MESTRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMEST was significantly increased in severe asthmatics as compared to control subjects.29769273
231AsthmaHumanBronchial Epithelial Cells (BECs)PAPSS2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPAPSS2 was significantly increased in severe asthmatics as compared to control subjects.29769273
232AsthmaHumanBronchial Epithelial Cells (BECs)STK32BRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSTK32B was significantly increased in severe asthmatics as compared to control subjects.29769273
233AsthmaHumanBronchial Epithelial Cells (BECs)TMEM47RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputTMEM47 was significantly decreased in severe asthmatics as compared to control subjects.29769273
234AsthmaHumanBronchial Epithelial Cells (BECs)C15orf44RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC15orf44 was significantly increased in severe asthmatics as compared to control subjects.29769273
235AsthmaHumanBronchial Epithelial Cells (BECs)C1RRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC1R was significantly decreased in severe asthmatics as compared to control subjects.29769273
236AsthmaHumanBronchial Epithelial Cells (BECs)ZNF582RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputZNF582 was significantly increased in severe asthmatics as compared to control subjects.29769273
237AsthmaHumanBronchial Epithelial Cells (BECs)AK095112RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAK095112 was significantly increased in severe asthmatics as compared to control subjects.29769273
238AsthmaHumanBronchial Epithelial Cells (BECs)ANKRD5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputANKRD5 was significantly increased in severe asthmatics as compared to control subjects.29769273
239AsthmaHumanBronchial Epithelial Cells (BECs)SNAP23RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSNAP23 was significantly increased in severe asthmatics as compared to control subjects.29769273
240AsthmaHumanBronchial Epithelial Cells (BECs)PDCD2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPDCD2 was significantly increased in severe asthmatics as compared to control subjects.29769273
241AsthmaHumanBronchial Epithelial Cells (BECs)PSMD2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPSMD2 was significantly increased in severe asthmatics as compared to control subjects.29769273
242AsthmaHumanBronchial Epithelial Cells (BECs)RAB3BRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputRAB3B was significantly increased in severe asthmatics as compared to control subjects.29769273
243AsthmaHumanBronchial Epithelial Cells (BECs)ST3GAL4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputST3GAL4 was significantly increased in severe asthmatics as compared to control subjects.29769273
244AsthmaHumanBronchial Epithelial Cells (BECs)VILLRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputVILL was significantly decreased in severe asthmatics as compared to control subjects.29769273
245AsthmaHumanBronchial Epithelial Cells (BECs)SPARCRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSPARC was significantly increased in severe asthmatics as compared to control subjects.29769273
246AsthmaHumanBronchial Epithelial Cells (BECs)SLC9B2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSLC9B2 was significantly increased in severe asthmatics as compared to control subjects.29769273
247AsthmaHumanBronchial Epithelial Cells (BECs)DCAF11RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputDCAF11 was significantly decreased in severe asthmatics as compared to control subjects.29769273
248AsthmaHumanBronchial Epithelial Cells (BECs)AVPI1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAVPI1 was significantly decreased in severe asthmatics as compared to control subjects.29769273
249AsthmaHumanBronchial Epithelial Cells (BECs)LOC100507246RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLOC100507246 was significantly increased in severe asthmatics as compared to control subjects.29769273
250AsthmaHumanBronchial Epithelial Cells (BECs)MFAP5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMFAP5 was significantly increased in severe asthmatics as compared to control subjects.29769273
251AsthmaHumanBronchial Epithelial Cells (BECs)CYP3A5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCYP3A5 was significantly decreased in severe asthmatics as compared to control subjects.29769273
252AsthmaHumanBronchial Epithelial Cells (BECs)GLB1L3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputGLB1L3 was significantly increased in severe asthmatics as compared to control subjects.29769273
253AsthmaHumanBronchial Epithelial Cells (BECs)C1orf210RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC1orf210 was significantly decreased in severe asthmatics as compared to control subjects.29769273
254AsthmaHumanBronchial Epithelial Cells (BECs)DIDO1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputDIDO1 was significantly decreased in severe asthmatics as compared to control subjects.29769273
255AsthmaHumanBronchial Epithelial Cells (BECs)WNT10ARNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputWNT10A was significantly decreased in severe asthmatics as compared to control subjects.29769273
256AsthmaHumanBronchial Epithelial Cells (BECs)GRK5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputGRK5 was significantly increased in severe asthmatics as compared to control subjects.29769273
257AsthmaHumanBronchial Epithelial Cells (BECs)VDAC1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputVDAC1 was significantly increased in severe asthmatics as compared to control subjects.29769273
258AsthmaHumanBronchial Epithelial Cells (BECs)KARSRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputKARS was significantly increased in severe asthmatics as compared to control subjects.29769273
259AsthmaHumanBronchial Epithelial Cells (BECs)CNGB1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCNGB1 was significantly increased in severe asthmatics as compared to control subjects.29769273
260AsthmaHumanBronchial Epithelial Cells (BECs)WNT4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputWNT4 was significantly decreased in severe asthmatics as compared to control subjects.29769273
261AsthmaHumanBronchial Epithelial Cells (BECs)INTS10RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputINTS10 was significantly increased in severe asthmatics as compared to control subjects.29769273
262AsthmaHumanBronchial Epithelial Cells (BECs)RBMS2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputRBMS2 was significantly increased in severe asthmatics as compared to control subjects.29769273
263AsthmaHumanBronchial Epithelial Cells (BECs)SMARCAL1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSMARCAL1 was significantly increased in severe asthmatics as compared to control subjects.29769273
264AsthmaHumanBronchial Epithelial Cells (BECs)LOC731424RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLOC731424 was significantly increased in severe asthmatics as compared to control subjects.29769273
265AsthmaHumanBronchial Epithelial Cells (BECs)AGMATRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAGMAT was significantly increased in severe asthmatics as compared to control subjects.29769273
266AsthmaHumanBronchial Epithelial Cells (BECs)C16orf62RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC16orf62 was significantly increased in severe asthmatics as compared to control subjects.29769273
267AsthmaHumanBronchial Epithelial Cells (BECs)SPATS2LRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSPATS2L was significantly decreased in severe asthmatics as compared to control subjects.29769273
268AsthmaHumanBronchial Epithelial Cells (BECs)RFTN1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputRFTN1 was significantly increased in severe asthmatics as compared to control subjects.29769273
269AsthmaHumanBronchial Epithelial Cells (BECs)CYP27B1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCYP27B1 was significantly increased in severe asthmatics as compared to control subjects.29769273
270AsthmaHumanBronchial Epithelial Cells (BECs)CAP2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCAP2 was significantly increased in severe asthmatics as compared to control subjects.29769273
271AsthmaHumanBronchial Epithelial Cells (BECs)GALNT14RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputGALNT14 was significantly increased in severe asthmatics as compared to control subjects.29769273
272AsthmaHumanBronchial Epithelial Cells (BECs)PPIDRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPPID was significantly increased in severe asthmatics as compared to control subjects.29769273
273AsthmaHumanBronchial Epithelial Cells (BECs)CLNS1ARNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCLNS1A was significantly increased in severe asthmatics as compared to control subjects.29769273
274AsthmaHumanBronchial Epithelial Cells (BECs)UPK1ARNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputUPK1A was significantly increased in severe asthmatics as compared to control subjects.29769273
275AsthmaHumanBronchial Epithelial Cells (BECs)MAPKAPK5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMAPKAPK5 was significantly increased in severe asthmatics as compared to control subjects.29769273
276AsthmaHumanBronchial Epithelial Cells (BECs)MREGRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMREG was significantly increased in severe asthmatics as compared to control subjects.29769273
277AsthmaHumanBronchial Epithelial Cells (BECs)MRPS27RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMRPS27 was significantly increased in severe asthmatics as compared to control subjects.29769273
278AsthmaHumanBronchial Epithelial Cells (BECs)SSR3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSSR3 was significantly increased in severe asthmatics as compared to control subjects.29769273
279AsthmaHumanBronchial Epithelial Cells (BECs)ATG2ARNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputATG2A was significantly decreased in severe asthmatics as compared to control subjects.29769273
280AsthmaHumanBronchial Epithelial Cells (BECs)PPA1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPPA1 was significantly increased in severe asthmatics as compared to control subjects.29769273
281AsthmaHumanBronchial Epithelial Cells (BECs)BC046191RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputBC046191 was significantly increased in severe asthmatics as compared to control subjects.29769273
282AsthmaHumanBronchial Epithelial Cells (BECs)CPERNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCPE was significantly decreased in severe asthmatics as compared to control subjects.29769273
283AsthmaHumanBronchial Epithelial Cells (BECs)ERC2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputERC2 was significantly increased in severe asthmatics as compared to control subjects.29769273
284AsthmaHumanBronchial Epithelial Cells (BECs)IL6RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIL6 was significantly increased in severe asthmatics as compared to control subjects.29769273
285AsthmaHumanBronchial Epithelial Cells (BECs)ARHGEF33RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputARHGEF33 was significantly decreased in severe asthmatics as compared to control subjects.29769273
286AsthmaHumanBronchial Epithelial Cells (BECs)C16orf79RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC16orf79 was significantly increased in severe asthmatics as compared to control subjects.29769273
287AsthmaHumanBronchial Epithelial Cells (BECs)SNORA33RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSNORA33 was significantly increased in severe asthmatics as compared to control subjects.29769273
288AsthmaHumanBronchial Epithelial Cells (BECs)BCAP29RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputBCAP29 was significantly increased in severe asthmatics as compared to control subjects.29769273
289AsthmaHumanBronchial Epithelial Cells (BECs)CHRNB1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCHRNB1 was significantly increased in severe asthmatics as compared to control subjects.29769273
290AsthmaHumanBronchial Epithelial Cells (BECs)FBLN2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputFBLN2 was significantly decreased in severe asthmatics as compared to control subjects.29769273
291AsthmaHumanBronchial Epithelial Cells (BECs)NME7RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNME7 was significantly increased in severe asthmatics as compared to control subjects.29769273
292AsthmaHumanBronchial Epithelial Cells (BECs)NT5ERNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNT5E was significantly increased in severe asthmatics as compared to control subjects.29769273
293AsthmaHumanBronchial Epithelial Cells (BECs)STOMRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSTOM was significantly increased in severe asthmatics as compared to control subjects.29769273
294AsthmaHumanBronchial Epithelial Cells (BECs)AK023627RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAK023627 was significantly increased in severe asthmatics as compared to control subjects.29769273
295AsthmaHumanBronchial Epithelial Cells (BECs)GDI2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputGDI2 was significantly increased in severe asthmatics as compared to control subjects.29769273
296AsthmaHumanBronchial Epithelial Cells (BECs)NMNAT3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNMNAT3 was significantly decreased in severe asthmatics as compared to control subjects.29769273
297AsthmaHumanBronchial Epithelial Cells (BECs)AF070581RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAF070581 was significantly increased in severe asthmatics as compared to control subjects.29769273
298AsthmaHumanBronchial Epithelial Cells (BECs)CYP4F11RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCYP4F11 was significantly decreased in severe asthmatics as compared to control subjects.29769273
299AsthmaHumanBronchial Epithelial Cells (BECs)CDCA7LRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCDCA7L was significantly increased in severe asthmatics as compared to control subjects.29769273
300AsthmaHumanBronchial Epithelial Cells (BECs)LCLAT1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLCLAT1 was significantly increased in severe asthmatics as compared to control subjects.29769273
301AsthmaHumanBronchial Epithelial Cells (BECs)SFXN4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSFXN4 was significantly increased in severe asthmatics as compared to control subjects.29769273
302AsthmaHumanBronchial Epithelial Cells (BECs)HYIRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputHYI was significantly increased in severe asthmatics as compared to control subjects.29769273
303AsthmaHumanBronchial Epithelial Cells (BECs)NEXNRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNEXN was significantly increased in severe asthmatics as compared to control subjects.29769273
304AsthmaHumanBronchial Epithelial Cells (BECs)ZBTB48RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputZBTB48 was significantly decreased in severe asthmatics as compared to control subjects.29769273
305AsthmaHumanBronchial Epithelial Cells (BECs)BCS1LRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputBCS1L was significantly increased in severe asthmatics as compared to control subjects.29769273
306AsthmaHumanBronchial Epithelial Cells (BECs)GPSM3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputGPSM3 was significantly increased in severe asthmatics as compared to control subjects.29769273
307AsthmaHumanBronchial Epithelial Cells (BECs)MLKLRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMLKL was significantly increased in severe asthmatics as compared to control subjects.29769273
308AsthmaHumanBronchial Epithelial Cells (BECs)UNC93B1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputUNC93B1 was significantly decreased in severe asthmatics as compared to control subjects.29769273
309AsthmaHumanBronchial Epithelial Cells (BECs)PLAURNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPLAU was significantly increased in severe asthmatics as compared to control subjects.29769273
310AsthmaHumanBronchial Epithelial Cells (BECs)SNHG10RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSNHG10 was significantly increased in severe asthmatics as compared to control subjects.29769273
311AsthmaHumanBronchial Epithelial Cells (BECs)RCC1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputRCC1 was significantly increased in severe asthmatics as compared to control subjects.29769273
312AsthmaHumanBronchial Epithelial Cells (BECs)RGS10RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputRGS10 was significantly increased in severe asthmatics as compared to control subjects.29769273
313AsthmaHumanBronchial Epithelial Cells (BECs)KIF6RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputKIF6 was significantly increased in severe asthmatics as compared to control subjects.29769273
314AsthmaHumanBronchial Epithelial Cells (BECs)RAP1GDS1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputRAP1GDS1 was significantly increased in severe asthmatics as compared to control subjects.29769273
315AsthmaHumanBronchial Epithelial Cells (BECs)RHBDL1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputRHBDL1 was significantly decreased in severe asthmatics as compared to control subjects.29769273
316AsthmaHumanBronchial Epithelial Cells (BECs)TSPAN5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputTSPAN5 was significantly increased in severe asthmatics as compared to control subjects.29769273
317AsthmaHumanBronchial Epithelial Cells (BECs)IGDCC4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIGDCC4 was significantly increased in severe asthmatics as compared to control subjects.29769273
318AsthmaHumanBronchial Epithelial Cells (BECs)PPPDE2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPPPDE2 was significantly increased in severe asthmatics as compared to control subjects.29769273
319AsthmaHumanBronchial Epithelial Cells (BECs)HP08777RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputHP08777 was significantly increased in severe asthmatics as compared to control subjects.29769273
320AsthmaHumanBronchial Epithelial Cells (BECs)BAIAP2L2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputBAIAP2L2 was significantly increased in severe asthmatics as compared to control subjects.29769273
321AsthmaHumanBronchial Epithelial Cells (BECs)SUPT7LRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSUPT7L was significantly increased in severe asthmatics as compared to control subjects.29769273
322AsthmaHumanBronchial Epithelial Cells (BECs)AK094934RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAK094934 was significantly increased in severe asthmatics as compared to control subjects.29769273
323AsthmaHumanBronchial Epithelial Cells (BECs)C20orf27RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC20orf27 was significantly increased in severe asthmatics as compared to control subjects.29769273
324AsthmaHumanBronchial Epithelial Cells (BECs)CDK7RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCDK7 was significantly increased in severe asthmatics as compared to control subjects.29769273
325AsthmaHumanBronchial Epithelial Cells (BECs)KIAA1797RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputKIAA1797 was significantly increased in severe asthmatics as compared to control subjects.29769273
326AsthmaHumanBronchial Epithelial Cells (BECs)SLC4A4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSLC4A4 was significantly increased in severe asthmatics as compared to control subjects.29769273
327AsthmaHumanBronchial Epithelial Cells (BECs)TFPI2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputTFPI2 was significantly increased in severe asthmatics as compared to control subjects.29769273
328AsthmaHumanBronchial Epithelial Cells (BECs)SLC35F2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSLC35F2 was significantly increased in severe asthmatics as compared to control subjects.29769273
329AsthmaHumanBronchial Epithelial Cells (BECs)DCTDRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputDCTD was significantly increased in severe asthmatics as compared to control subjects.29769273
330AsthmaHumanBronchial Epithelial Cells (BECs)FLVCR2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputFLVCR2 was significantly decreased in severe asthmatics as compared to control subjects.29769273
331AsthmaHumanBronchial Epithelial Cells (BECs)SLC38A10RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSLC38A10 was significantly decreased in severe asthmatics as compared to control subjects.29769273
332AsthmaHumanBronchial Epithelial Cells (BECs)E02193RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputE02193 was significantly decreased in severe asthmatics as compared to control subjects.29769273
333AsthmaHumanBronchial Epithelial Cells (BECs)GNPATRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputGNPAT was significantly increased in severe asthmatics as compared to control subjects.29769273
334AsthmaHumanBronchial Epithelial Cells (BECs)PEG10RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPEG10 was significantly decreased in severe asthmatics as compared to control subjects.29769273
335AsthmaHumanBronchial Epithelial Cells (BECs)DISP2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputDISP2 was significantly increased in severe asthmatics as compared to control subjects.29769273
336AsthmaHumanBronchial Epithelial Cells (BECs)MRPL10RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMRPL10 was significantly increased in severe asthmatics as compared to control subjects.29769273
337AsthmaHumanBronchial Epithelial Cells (BECs)C12orf75RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC12orf75 was significantly increased in severe asthmatics as compared to control subjects.29769273
338AsthmaHumanBronchial Epithelial Cells (BECs)CCDC64BRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCCDC64B was significantly decreased in severe asthmatics as compared to control subjects.29769273
339AsthmaHumanBronchial Epithelial Cells (BECs)NPM3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNPM3 was significantly increased in severe asthmatics as compared to control subjects.29769273
340AsthmaHumanBronchial Epithelial Cells (BECs)ACSL1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputACSL1 was significantly decreased in severe asthmatics as compared to control subjects.29769273
341AsthmaHumanBronchial Epithelial Cells (BECs)ATP13A4RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputATP13A4 was significantly decreased in severe asthmatics as compared to control subjects.29769273
342AsthmaHumanBronchial Epithelial Cells (BECs)CCNYL1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCCNYL1 was significantly increased in severe asthmatics as compared to control subjects.29769273
343AsthmaHumanBronchial Epithelial Cells (BECs)PPM1LRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPPM1L was significantly decreased in severe asthmatics as compared to control subjects.29769273
344AsthmaHumanBronchial Epithelial Cells (BECs)FRMD4ARNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputFRMD4A was significantly increased in severe asthmatics as compared to control subjects.29769273
345AsthmaHumanBronchial Epithelial Cells (BECs)LOC100506190RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLOC100506190 was significantly decreased in severe asthmatics as compared to control subjects.29769273
346AsthmaHumanBronchial Epithelial Cells (BECs)CERS2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCERS2 was significantly increased in severe asthmatics as compared to control subjects.29769273
347AsthmaHumanBronchial Epithelial Cells (BECs)IFITM3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputIFITM3 was significantly increased in severe asthmatics as compared to control subjects.29769273
348AsthmaHumanBronchial Epithelial Cells (BECs)SLAMF9RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSLAMF9 was significantly increased in severe asthmatics as compared to control subjects.29769273
349AsthmaHumanBronchial Epithelial Cells (BECs)DPH5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputDPH5 was significantly increased in severe asthmatics as compared to control subjects.29769273
350AsthmaHumanBronchial Epithelial Cells (BECs)LOC100306975RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputLOC100306975 was significantly decreased in severe asthmatics as compared to control subjects.29769273
351AsthmaHumanBronchial Epithelial Cells (BECs)PMS2P1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPMS2P1 was significantly increased in severe asthmatics as compared to control subjects.29769273
352AsthmaHumanBronchial Epithelial Cells (BECs)ZNF548RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputZNF548 was significantly decreased in severe asthmatics as compared to control subjects.29769273
353AsthmaHumanBronchial Epithelial Cells (BECs)GRIP1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputGRIP1 was significantly decreased in severe asthmatics as compared to control subjects.29769273
354AsthmaHumanBronchial Epithelial Cells (BECs)P4HA3RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputP4HA3 was significantly increased in severe asthmatics as compared to control subjects.29769273
355AsthmaHumanBronchial Epithelial Cells (BECs)MYCBPAPRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputMYCBPAP was significantly increased in severe asthmatics as compared to control subjects.29769273
356AsthmaHumanBronchial Epithelial Cells (BECs)SLC25A30RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSLC25A30 was significantly increased in severe asthmatics as compared to control subjects.29769273
357AsthmaHumanBronchial Epithelial Cells (BECs)TNFRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputTNF was significantly increased in severe asthmatics as compared to control subjects.29769273
358AsthmaHumanBronchial Epithelial Cells (BECs)AK055323RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputAK055323 was significantly decreased in severe asthmatics as compared to control subjects.29769273
359AsthmaHumanBronchial Epithelial Cells (BECs)CD96RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCD96 was significantly increased in severe asthmatics as compared to control subjects.29769273
360AsthmaHumanBronchial Epithelial Cells (BECs)FANCFRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputFANCF was significantly increased in severe asthmatics as compared to control subjects.29769273
361AsthmaHumanBronchial Epithelial Cells (BECs)BLVRBRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputBLVRB was significantly decreased in severe asthmatics as compared to control subjects.29769273
362AsthmaHumanBronchial Epithelial Cells (BECs)FOSL2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputFOSL2 was significantly decreased in severe asthmatics as compared to control subjects.29769273
363AsthmaHumanBronchial Epithelial Cells (BECs)PDCD5RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPDCD5 was significantly increased in severe asthmatics as compared to control subjects.29769273
364AsthmaHumanBronchial Epithelial Cells (BECs)YARS2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputYARS2 was significantly increased in severe asthmatics as compared to control subjects.29769273
365AsthmaHumanBronchial Epithelial Cells (BECs)CCDC64RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCCDC64 was significantly decreased in severe asthmatics as compared to control subjects.29769273
366AsthmaHumanBronchial Epithelial Cells (BECs)ETS2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputETS2 was significantly decreased in severe asthmatics as compared to control subjects.29769273
367AsthmaHumanBronchial Epithelial Cells (BECs)C9orf21RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC9orf21 was significantly increased in severe asthmatics as compared to control subjects.29769273
368AsthmaHumanBronchial Epithelial Cells (BECs)FBXO27RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputFBXO27 was significantly increased in severe asthmatics as compared to control subjects.29769273
369AsthmaHumanBronchial Epithelial Cells (BECs)ZNF493RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputZNF493 was significantly decreased in severe asthmatics as compared to control subjects.29769273
370AsthmaHumanBronchial Epithelial Cells (BECs)COTL1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputCOTL1 was significantly increased in severe asthmatics as compared to control subjects.29769273
371AsthmaHumanBronchial Epithelial Cells (BECs)ATF6BRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputATF6B was significantly decreased in severe asthmatics as compared to control subjects.29769273
372AsthmaHumanBronchial Epithelial Cells (BECs)PLA2G4FRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputPLA2G4F was significantly decreased in severe asthmatics as compared to control subjects.29769273
373AsthmaHumanBronchial Epithelial Cells (BECs)SRMRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputSRM was significantly increased in severe asthmatics as compared to control subjects.29769273
374AsthmaHumanBronchial Epithelial Cells (BECs)ECE2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputECE2 was significantly increased in severe asthmatics as compared to control subjects.29769273
375AsthmaHumanBronchial Epithelial Cells (BECs)ENPP1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputENPP1 was significantly increased in severe asthmatics as compared to control subjects.29769273
376AsthmaHumanBronchial Epithelial Cells (BECs)NCAM2RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNCAM2 was significantly decreased in severe asthmatics as compared to control subjects.29769273
377AsthmaHumanBronchial Epithelial Cells (BECs)NCEH1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNCEH1 was significantly increased in severe asthmatics as compared to control subjects.29769273
378AsthmaHumanBronchial Epithelial Cells (BECs)TNIP1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputTNIP1 was significantly increased in severe asthmatics as compared to control subjects.29769273
379AsthmaHumanBronchial Epithelial Cells (BECs)TOR1AIP1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputTOR1AIP1 was significantly increased in severe asthmatics as compared to control subjects.29769273
380AsthmaHumanBronchial Epithelial Cells (BECs)C9orf66RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputC9orf66 was significantly increased in severe asthmatics as compared to control subjects.29769273
381AsthmaHumanBronchial Epithelial Cells (BECs)NARFLRNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputNARFL was significantly decreased in severe asthmatics as compared to control subjects.29769273
382AsthmaHumanBronchial Epithelial Cells (BECs)ZNF69RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputZNF69 was significantly increased in severe asthmatics as compared to control subjects.29769273
383AsthmaHumanBronchial Epithelial Cells (BECs)TBCCD1RNA Sequencing, qRT-PCRTranscriptomics, GenomicsHigh Throughput, Low ThroughputTBCCD1 was significantly increased in severe asthmatics as compared to control subjects.29769273

 

© Bose Institute, Kolkata, 2020. For any queries regarding DAAB (Version: 2), contact Dr. Sudipto Saha at  ssaha4@jcbose.ac.in