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Renoprotective role of the vitamin D receptor in diabetic nephropathy
Z. Zhang
, L. Sun
, Y. Wang
,
G. Ning
, A. W. Minto
, J. Kong
, R. J. Quigg
, Y. C. Li
Huck Institutes of the Life Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
300
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Scopus citations
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Dive into the research topics of 'Renoprotective role of the vitamin D receptor in diabetic nephropathy'. Together they form a unique fingerprint.
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Keyphrases
Vitamin D Receptor
100%
Diabetic Nephropathy
100%
Knock-in Mouse Model
75%
Receptor Knockout
75%
Transforming Growth Factor-β
50%
Renal Injury
50%
Renin-angiotensin System
50%
Diabetic
50%
Fibronectin
50%
High Glucose
50%
Nephrin
50%
Vitamin D
25%
Receptor-mediated
25%
Wild Mice
25%
Angiotensinogen
25%
Renin
25%
Negatively Regulate
25%
Induced Activation
25%
Hyperglycemia
25%
Connective Tissue Growth Factor
25%
1,25-dihydroxyvitamin D3
25%
Glomerulosclerosis
25%
Albuminuria
25%
Podocyte
25%
Pharmacology, Toxicology and Pharmaceutical Science
Diabetic Nephropathy
100%
Vitamin D Receptor
100%
Knockout Mouse
75%
Renin
75%
Receptor
50%
Kidney Injury
50%
Transforming Growth Factor
50%
Fibronectin
50%
Angiotensin
50%
Nephrin
50%
Mouse
25%
Wild Type Mouse
25%
Calcitriol
25%
Vitamin D
25%
Hyperglycemia
25%
Albuminuria
25%
Angiotensinogen
25%
Glomerulosclerosis
25%
Medicine and Dentistry
Mesangial Cell
50%
Angiotensinogen
25%
Connective Tissue Growth Factor
25%
Glomerulus Basement Membrane
25%
Juxtaglomerular Cell
25%
Calcitriol
25%
Biochemistry, Genetics and Molecular Biology
Mesangial Cell
33%
Podocyte
33%
Glomerulus Basement Membrane
16%
Juxtaglomerular Cell
16%