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Calcium (Physiology renal)
LE WE PMID CA
Calcium (Physiology renal)11530Kalzium (Physiologie Niere)

1 alpha hydroxylase

17 beta Estradiol

Acidosis (metabolic)

ACTH

Aldosterone (Pseudohypoaldosteronism)

Alkalosis (metabolic)

Arterial hypertension (BASKET)

ATP13A4

beta Glucuronidase

Bradykinin

Calbindin D28k

Calbindin D9k

Calcium (BASKET)

Calcium (Hypercalciemia)

Calcium (Hypercalciuria)

Calcium (Hypocalciuria)

Calcium (Physiology Intestines)

Calcium (Physiology renal)

CASR

Chlorothiazide

Ciclosporin ttMPT

Claudin16

Cnnm2

Diuretic agents (Thiazides)

Endoglycosidase F

Estrogen

Furosemide Frusemide

Gentamicin

Glucocorticoids

Hydrochlorothiazide

Hypomagnesemia with hypercalciuria familiar

Ion channel (Calcium)

Ion channel (Magnesium)

Ion channel (Sodium ENaC)

Ion channel (TRP Family)

JE049 ttBradykinin

Kallikrein

Kidney (Endowment)

Kidney (FSGS)

Kidney (Intercalated cell)

Kidney (Polycystic kidney disease)

Kidney (Tubulus CNT)

Kidney (Tubulus Collecting Duct)

Kidney (Tubulus Distal Convoluted)

Kidney (Tubulus Proximal)

Kidney (Tubulus TALH)

Kidney (Tubulus)

Klotho

Magnesium (Hypermagnesiuria)

Magnesium (Physiology Intestines)

Magnesium (Physiology Kidney)

Methods of experimental Nephrology

NCC

NCX1

Nephrolithiasis

NKCC2

Osmosensor

Pancreas (Anatomy)

Parvalbumin

PMCA1b

Protein kinase A

Protein kinase C

Pseudovitamin D deficiency rickets

PTH (Parathyroid hormone)

RAAS (Renin)

Rapamycin

Receptor (Vitamin D)

Ronacaleret ttCASR

Ruthenium red

SGK1

SLC26A4 Pendrin

Tacrolimus FK506

Testosterone

Transporter (Calcium)

Transporter (Sodium and proton)

TRPC6

TRPM6

TRPM7

TRPP2

TRPV4

TRPV5

TRPV6

Urinary tract (Obstructive uropathy)

Urine (Acid)

Vitamin D

Vitamin D3 (Calcitriol)

Volume contraction ECV

WNK4

2007  
1
Effects of furosemide on renal calcium handling.
[17652376] Am J Physiol Renal Physiol 293(4): F1231-7 (2007)
2004  
2
Characterization of a murine renal distal convoluted tubule cell line for the study of transcellular calcium transport.
[14625201] Am J Physiol Renal Physiol 286(3): F483-9 (2004)
2004  
3
Effect of thiazide on renal gene expression of apical calcium channels and calbindins.
[15265769] Am J Physiol Renal Physiol 287(6): F1164-70 (2004)
2010  
4
Expression and immunolocalization of calcium transport proteins in the canine duodenum, kidney, and pancreas.
[20186965] Anat Rec (Hoboken) 293(5): 770-4 (2010)
2010  
5
Mechanisms for hypercalciuria in pseudohypoaldosteronism type II-causing WNK4 knock-in mice.
[20181799] Endocrinology 151(4): 1829-36 (2010)
2009  
6
Klotho prevents renal calcium loss.
[19713312] J Am Soc Nephrol 20(11): 2371-9 (2009)
2006  
7
Critical role of the epithelial Ca2+ channel TRPV5 in active Ca2+ reabsorption as revealed by TRPV5/calbindin-D28K knockout mice.
[17005931] J Am Soc Nephrol 17(11): 3020-7 (2006)
2005  
8
Hypervitaminosis D mediates compensatory Ca2+ hyperabsorption in TRPV5 knockout mice.
[16148038] J Am Soc Nephrol 16(11): 3188-95 (2005)
2005  
9
Epithelial Ca2+ and Mg2+ channels in health and disease.
[15574510] J Am Soc Nephrol 16(1): 15-26 (2005)
2000  
10
A rat kidney-specific calcium transporter in the distal nephron.
[10875938] J Biol Chem 275(36): 28186-94 (2000)
2008  
11
The beta-glucuronidase klotho exclusively activates the epithelial Ca2+ channels TRPV5 and TRPV6.
[18495742] Nephrol Dial Transplant 23(11): 3397-402 (2008)
2012  
12
Renal adaptation to gentamicin-induced mineral loss.
[22378246] Am J Nephrol 35(3): 279-86 (2012)
2008  
13
Mechanisms and regulation of epithelial Ca2+ absorption in health and disease.
[17850211] Annu Rev Physiol 70(): 257-71 (2008)
2002  
14
Molecular mechanism of active Ca2+ reabsorption in the distal nephron.
[11826278] Annu Rev Physiol 64(): 529-49 (2002)
2009  
15
Activation of the Ca2+-sensing receptor stimulates the activity of the epithelial Ca2+ channel TRPV5.
[19157541] Cell Calcium 45(4): 331-9 (2009)
2002  
16
A family of calcium-permeable channels in the kidney: distinct roles in renal calcium handling.
[12187321] Curr Opin Nephrol Hypertens 11(5): 555-61 (2002)
2005  
17
Calcium absorption across epithelia.
[15618484] Physiol Rev 85(1): 373-422 (2005)
2005  
18
TRPV5 and TRPV6 in Ca(2+) (re)absorption: regulating Ca(2+) entry at the gate.
[16044309] Pflugers Arch 451(1): 181-92 (2005)
2007  
19
Physiology of epithelial Ca2+ and Mg2+ transport.
[17729442] Rev Physiol Biochem Pharmacol 158(): 77-160 (2007)
2011  
20
Effect of silencing VDR gene in kidney on renal epithelial calcium transporter proteins and urinary calcium excretion in genetic hypercalciuric stone-forming rats.
[22137721] Urology 78(6): 1442.e1-7 (2011)
2001  
21
Distribution of transcellular calcium and sodium transport pathways along mouse distal nephron.
[11704552] Am J Physiol Renal Physiol 281(6): F1021-7 (2001)
2002  
22
Modulation of renal Ca2+ transport protein genes by dietary Ca2+ and 1,25-dihydroxyvitamin D3 in 25-hydroxyvitamin D3-1alpha-hydroxylase knockout mice.
[12205031] FASEB J 16(11): 1398-406 (2002)
2002  
23
1,25-dihydroxyvitamin D(3)-independent stimulatory effect of estrogen on the expression of ECaC1 in the kidney.
[12138142] J Am Soc Nephrol 13(8): 2102-9 (2002)
2001  
24
Calcitriol controls the epithelial calcium channel in kidney.
[11423563] J Am Soc Nephrol 12(7): 1342-9 (2001)
2010  
25
High dose vitamin D3 attenuates the hypocalciuric effect of thiazide in hypercalciuric rats.
[20808673] J Korean Med Sci 25(9): 1305-12 (2010)
2009  
26
Effects of thiazide on the expression of TRPV5, calbindin-D28K, and sodium transporters in hypercalciuric rats.
[19194547] J Korean Med Sci 24 Suppl(): S161-9 (2009)
2007  
27
The effect of a low-protein diet in pregnancy on offspring renal calcium handling.
[17567711] Am J Physiol Regul Integr Comp Physiol 293(2): R759-65 (2007)
2011  
28
Hypercalcemia reduces plasma renin via parathyroid hormone, renal interstitial calcium, and the calcium-sensing receptor.
[21825222] Hypertension 58(4): 604-10 (2011)
2005  
29
Coordinated control of renal Ca(2+) transport proteins by parathyroid hormone.
[16164647] Kidney Int 68(4): 1708-21 (2005)
2000  
30
Toward a comprehensive molecular model of active calcium reabsorption.
[10710538] Am J Physiol Renal Physiol 278(3): F352-60 (2000)
2000  
31
Localization of the epithelial Ca(2+) channel in rabbit kidney and intestine.
[10864572] J Am Soc Nephrol 11(7): 1171-8 (2000)
2006  
32
Recent advances in physiological calcium homeostasis.
[16519596] Clin Chem Lab Med 44(3): 237-73 (2006)
2000  
33
Mechanisms of renal calcium transport.
[11014931] Exp Nephrol 8(6): 343-50 (2000)
2012  
34
Deletion of the Cl-/HCO3- exchanger pendrin downregulates calcium-absorbing proteins in the kidney and causes calcium wasting.
[21873623] Nephrol Dial Transplant 27(4): 1368-79 (2012)
2010  
35
Targeted deletion of murine Cldn16 identifies extra- and intrarenal compensatory mechanisms of Ca2+ and Mg2+ wasting.
[20147368] Am J Physiol Renal Physiol 298(5): F1152-61 (2010)
2011  
36
Role of the calcium-sensing receptor in reducing the risk for calcium stones.
[21784822] Clin J Am Soc Nephrol 6(8): 2076-82 (2011)
2006  
37
Tissue kallikrein stimulates Ca(2+) reabsorption via PKC-dependent plasma membrane accumulation of TRPV5.
[17006539] EMBO J 25(20): 4707-16 (2006)
2009  
38
Parathyroid hormone activates TRPV5 via PKA-dependent phosphorylation.
[19423690] J Am Soc Nephrol 20(8): 1693-704 (2009)
2008  
39
Mechanism of urinary calcium regulation by urinary magnesium and pH.
[18448585] J Am Soc Nephrol 19(8): 1530-7 (2008)
2006  
40
Who Wins the Competition: TRPV5 or Calbindin-D28K?
[17021264] J Am Soc Nephrol 17(11): 2954-6 (2006)
2006  
41
Acid-base status determines the renal expression of Ca2+ and Mg2+ transport proteins.
[16421227] J Am Soc Nephrol 17(3): 617-26 (2006)
2005  
42
Enhanced passive Ca2+ reabsorption and reduced Mg2+ channel abundance explains thiazide-induced hypocalciuria and hypomagnesemia.
[15902302] J Clin Invest 115(6): 1651-8 (2005)
2011  
43
Molecular basis of epithelial Ca2+ and Mg2+ transport: insights from the TRP channel family.
[21041532] J Physiol 589(Pt 7): 1535-42 (2011)
2011  
44
Effects of cyclosporine, tacrolimus and rapamycin on renal calcium transport and vitamin D metabolism.
[21691056] Am J Nephrol 34(1): 87-94 (2011)
2007  
45
2006  
46
Recent advances in renal tubular calcium reabsorption.
[16914966] Curr Opin Nephrol Hypertens 15(5): 524-9 (2006)
2004  
47
[New concepts of tubular calcium transport in the kidney: clinical implications].
[15356841] G Ital Nefrol 21(1): 5-15 (2004)
2011  
48
The renal connecting tubule: Resolved and unresolved issues in Ca(2+) transport.
[20969972] Int J Biochem Cell Biol 43(1): 1-4 (2011)
2010  
49
Hypertension and renal calcium transport.
[21170867] J Nephrol 23 Suppl 16(): S112-7 (2010)
2006  
50
Transient receptor potential channels in the kidney: calcium signaling, transport and beyond.
[16523421] J Nephrol 19(1): 21-9 (2006)
2000  
51
Molecular pathophysiology of renal calcium handling.
[11031716] Kidney Blood Press Res 23(3-5): 183-4 (2000)
2010  
52
Testosterone increases urinary calcium excretion and inhibits expression of renal calcium transport proteins.
[20090667] Kidney Int 77(7): 601-8 (2010)
2006  
53
Coordinated control of renal Ca2+ handling.
[16518325] Kidney Int 69(4): 650-4 (2006)
2009  
54
The role of transient receptor potential channels in kidney disease.
[19546862] Nat Rev Nephrol 5(8): 441-9 (2009)
2011  
55
Changes of renal vitamin D metabolic enzyme expression and calcium transporter abundance in obstructive nephropathy.
[22029643] Nephrology (Carlton) 16(8): 710-4 (2011)
2009  
56
Active Ca(2+) reabsorption in the connecting tubule.
[18989697] Pflugers Arch 458(1): 99-109 (2009)
2006  
57
Renal Ca2+ handling in sgk1 knockout mice.
[16685564] Pflugers Arch 452(4): 444-52 (2006)
2010  
58
Transcriptional and physiological responses to chronic ACTH treatment by the mouse kidney.
[19920212] Physiol Genomics 40(3): 158-66 (2010)

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