about
Whole-exome capture and sequencing identifies HEATR2 mutation as a cause of primary ciliary dyskinesiaLinking acute infection to chronic lung disease. The role of IL-33-expressing epithelial progenitor cellsHigh throughput screening for small molecule enhancers of the interferon signaling pathway to drive next-generation antiviral drug discoveryCCL5-CCR5 interaction provides antiapoptotic signals for macrophage survival during viral infectionThe role of CLCA proteins in inflammatory airway diseaseEffects of time, albuterol, and budesonide on the shape of the flow-volume loop in children with asthma.Blocking airway mucous cell metaplasia by inhibiting EGFR antiapoptosis and IL-13 transdifferentiation signals.Immune pathways for translating viral infection into chronic airway disease.Myb permits multilineage airway epithelial cell differentiation.TREM-2 promotes macrophage survival and lung disease after respiratory viral infectionImmunogenetic programs for viral induction of mucous cell metaplasiaSelf-cleavage of human CLCA1 protein by a novel internal metalloprotease domain controls calcium-activated chloride channel activation.Primary ciliary dyskinesia-causing mutations in Amish and Mennonite communities.Long-term IL-33-producing epithelial progenitor cells in chronic obstructive lung disease.Basic science for the practicing physician: gene expression microarrays.Clinical relevance of target identity and biology: implications for drug discovery and development.Genetic segregation of airway disease traits despite redundancy of calcium-activated chloride channel family members.Airway epithelial versus immune cell Stat1 function for innate defense against respiratory viral infection
P50
Q24300321-19668BA5-9494-4702-B63A-C47ADCCF89F9Q26827549-CD2045C1-01AF-41CA-95B5-AFD56ECF9949Q28483402-E2B5BF2D-E159-47E1-8EFA-541CB68C4912Q28508659-798EDCE5-0BBD-42B8-BE0E-15D12B9B4C08Q28657590-8B353332-ED5F-47A4-83AE-E49B9C83B7B2Q33897325-01C25694-6CDD-47E3-BE47-DA7442DB6BB2Q34331327-9A34D51E-B26C-4FF4-9C04-0B15E2B8E82CQ34440425-9A38C3D2-B661-4B1C-93B3-87C1B66037D5Q34576950-B2FABE85-E3DC-4D46-BF62-82D174F9BDC7Q35568471-3677FFFB-E806-4FE5-A926-769EDE821515Q36423688-BB47FD1D-FF0C-4785-B5B7-230B7AAD8E18Q36451996-C0E2CBAC-1C30-4E13-A73A-2F672F36EDCAQ37049872-50C3B608-5EEB-4FFB-A0DF-D52E18DEF9ABQ37123845-A984880A-951E-4F2B-BC2B-BE2465E892C2Q37278396-BA079014-F710-42B8-A541-D89F44FE7A37Q38147723-47D6A2BD-B9BD-410A-AA98-97467D7F1052Q65000582-50421495-CAC8-48BD-868F-1920ABD8348EQ80752775-51CD09C5-7635-438F-8E2D-93AAF46B06B9
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Anand C Patel
@nl
Anand C Patel
@sl
Anand C. Patel
@en
Anand C. Patel
@es
type
label
Anand C Patel
@nl
Anand C Patel
@sl
Anand C. Patel
@en
Anand C. Patel
@es
prefLabel
Anand C Patel
@nl
Anand C Patel
@sl
Anand C. Patel
@en
Anand C. Patel
@es
P106
P1153
8242499600
P31
P496
0000-0002-6570-8582