about
NMR structure of the KaiC-interacting C-terminal domain of KaiA, a circadian clock protein: Implications for KaiA-KaiC interactionMetabolic disturbances associated with systemic lupus erythematosusProteomics on the diagnostic horizon: Lessons from rheumatology.Adverse effects of simulated hyper- and hypo-phosphatemia on endothelial cell function and viability.Urine proteome scans uncover total urinary protease, prostaglandin D synthase, serum amyloid P, and superoxide dismutase as potential markers of lupus nephritis.Elevated cardiac markers in chronic kidney disease as a consequence of hyperphosphatemia-induced cardiac myocyte injurySLE peripheral blood B cell, T cell and myeloid cell transcriptomes display unique profiles and each subset contributes to the interferon signatureThe volume ratio of ground glass opacity in early lung CT predicts mortality in acute paraquat poisoning.Shared signaling networks active in B cells isolated from genetically distinct mouse models of lupus.Systemic-lupus-erythematosus-related acute pancreatitis: a cohort from South China.Urine VCAM-1 as a marker of renal pathology activity index in lupus nephritisInflammation associated anemia and ferritin as disease markers in SLEThree pathogenic determinants in immune nephritis--anti-glomerular antibody specificity, innate triggers and host genetics.Prevention of murine lupus nephritis by targeting multiple signaling axes and oxidative stress using a synthetic triterpenoid.Urinary angiostatin--a novel putative marker of renal pathology chronicity in lupus nephritis.Proteomic toolbox for autoimmunity research.The AKT axis as a therapeutic target in autoimmune diseases.Biomarkers of rheumatoid arthritis: recent progress.PSTK is a novel gene associated with early lung injury in Paraquat Poisoning.Pneumomediastinum predicts early mortality in acute paraquat poisoning.Superoxide dismutase mimetic drug tempol aggravates anti-GBM antibody-induced glomerulonephritis in mice.Lupus nephritis - alarmins may sound the alarm?Peritoneal catheter implantation elicits IL-10-producing immune-suppressor macrophages through a MyD88-dependent pathway.The lupus-susceptibility locus, Sle3, mediates enhanced resistance to bacterial infections.Extracellular regulated protein kinases play a key role via bone morphogenetic protein 4 in high phosphate-induced endothelial cell apoptosis.Excreted urinary mediators in an animal model of experimental immune nephritis with potential pathogenic significancePI3K/AKT/mTOR hypersignaling in autoimmune lymphoproliferative disease engendered by the epistatic interplay of Sle1b and FASlprCombined deficiency of proapoptotic regulators Bim and Fas results in the early onset of systemic autoimmunityElevated urinary VCAM-1, P-selectin, soluble TNF receptor-1, and CXC chemokine ligand 16 in multiple murine lupus strains and human lupus nephritisContrast-enhanced ultrasound with SonoVue could accurately assess the renal microvascular perfusion in diabetic kidney damageCritical role of TLR7 in the acceleration of systemic lupus erythematosus in TLR9-deficient miceIdentification of autoantibody clusters that best predict lupus disease activity using glomerular proteome arrays
P50
Q27643053-983DC08A-EE93-4A16-AD8E-D8A4B68BFC6DQ28728267-38DC5716-F8E1-4699-84FE-2F48AE9E0DF4Q33269076-B7C768EA-E661-47F2-BAA4-12BE5477A34AQ33999350-03ED59C0-D056-4B04-AD84-D155FDFFC430Q34082546-CEAC6844-C5DD-4C4A-B0D2-BF2E20D816A6Q34428293-37B6A6C2-712B-469F-82DD-DE843C2FD1C1Q34796327-96E187CF-55BA-4DA3-9410-79CCFA03CF73Q35241899-4DD6AAE2-5A04-42D7-B662-EC80DFFDE6D6Q35879514-13D0982F-6BF9-4710-B12E-CFCA29C6FB04Q36065820-B5012634-2AC1-4FDF-AAE9-F41358B59414Q36633311-D0E90854-92E5-4C22-8115-84FA5B9AB225Q36633384-43DC2029-7B82-469D-963A-409212E46489Q36664788-760A1B7D-6A7F-4189-B183-86DF3E22E275Q36823420-6B8CA9E6-5A47-4FD6-A114-6D6A27A15077Q36832462-9D65E4F0-6BE1-4151-B04F-24A5AAC59D68Q37459220-12180265-6D50-4231-826F-F5BABDD2C85FQ37516005-4DDF92FE-E4F2-4A42-AFE2-8C0911D7E490Q38089869-4310FCC6-D42D-4A3F-BDBF-C71A5B45A242Q38467875-B198FE78-5916-41EB-8035-DB204356C6CDQ41671311-527F9AE7-58F9-4C0B-93F6-CF090CFE099DQ43053690-202B63AF-5366-4371-9643-F5C98D6256DFQ43137597-D9AE04CA-E63B-4223-87D2-3E0D05ACC114Q53185028-F49E5A05-F8D7-4A8A-9443-230F835746CBQ53603319-C54506C2-0012-4D85-B5D2-712B1CFBAF0AQ54165337-F29612B1-F2AC-4C51-BE56-2CBBB921E0E2Q79844549-D4C3E2FC-6DA5-4CCE-A753-C266934EE5F2Q79974102-5A181FCB-AD0E-4EAA-A719-14341631C497Q80703822-21DE1370-FAA8-4213-A61A-C97D7C7EEB10Q81550440-92D3C179-D699-4AAA-BB2B-E78588CB00AAQ83988173-9A555806-BD8C-455F-A886-0F30ECC5A018Q84960461-C6618269-1F15-4CFB-B3F3-A71EEF55069BQ93731004-5DE6C766-9601-40FF-BD2F-0B54F87E6FB6
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Tianfu Wu
@ast
Tianfu Wu
@en
Tianfu Wu
@es
Tianfu Wu
@nl
Tianfu Wu
@sl
type
label
Tianfu Wu
@ast
Tianfu Wu
@en
Tianfu Wu
@es
Tianfu Wu
@nl
Tianfu Wu
@sl
prefLabel
Tianfu Wu
@ast
Tianfu Wu
@en
Tianfu Wu
@es
Tianfu Wu
@nl
Tianfu Wu
@sl
P106
P31
P496
0000-0001-8235-5929