価格表
在庫・価格 : 2025年04月26日 18時09分 現在
| 商品名 | 商品コード | メーカー | 包装 | 価格 | 在庫 | リスト |
|---|---|---|---|---|---|---|
|
Anti-ENaCβ, Rabbit-Poly, Atto 390 データシート |
SPC-404D-A390 |
STQストレスマークバイオサイエンス StressMarq Biosciences Inc. |
100 μg | ¥99,000 |
無 (未発注) |
追加 |
在庫・価格 : 2025年04月26日 18時09分 現在
使用文献
| No. | 文献情報 | 備考 | 参照 |
|---|---|---|---|
| 1 |
You H et al. Derlin-1 promotes ubiquitylation and degradation of the epithelial Na(+) channel, ENaC. J. Cell. Sci. 2017 Mar;130(6):1027-1036 You H et al 2017/01/01 |
 |
|
| 2 |
Klemens CA et al. Ankyrin G Expression Regulates Apical Delivery of the Epithelial Sodium Channel (ENaC). J. Biol. Chem. 2017 Jan;292(1):375-385 Klemens CA et al 2017/01/01 |
|
|
| 3 |
Pavlov TS et al. Renal sodium transport in renin-deficient Dahl salt-sensitive rats. J Renin Angiotensin Aldosterone Syst 2016 Jul;17(3) Pavlov TS et al 2016/01/01 |
|
|
| 4 |
Xu C et al. (Pro)Renin Receptor Regulates Potassium Homeostasis through a Local Mechanism. Am. J. Physiol. Renal Physiol. 2016 Jul;:ajprenal.00043.2016 Xu C et al 2016/01/01 |
|
|
| 5 |
Ferdaus MZ et al. SPAK and OSR1 play essential roles in potassium homeostasis through actions on the distal convoluted tubule. J. Physiol. (Lond.) 2016 Sep;594(17):4945-66 Ferdaus MZ et al 2016/01/01 |
|
|
| 6 |
Ramkumar N et al. Renal tubular epithelial cell prorenin receptor regulates blood pressure and sodium transport. Am. J. Physiol. Renal Physiol. 2016 Jul;311(1):F186-94 Ramkumar N et al 2016/01/01 |
|
|
| 7 |
Patel-Chamberlin M et al. The Role of Epithelial Sodium Channel ENaC and the Apical Cl-/HCO3- Exchanger Pendrin in Compensatory Salt Reabsorption in the Setting of Na-Cl Cotransporter (NCC) Inactivation. PLoS ONE 2016;11(3):e0150918 Patel-Chamberlin M et al 2016/01/01 |
|
|
| 8 |
Davies MR et al. The Thiazide-Sensitive Co-Transporter Promotes the Development of Sodium Retention in Mice with Diet-Induced Obesity. Kidney Blood Press. Res. 2015;40(5):509-19 Davies MR et al 2015/01/01 |
|
|
| 9 |
Zhang Y et al. Inhibition of Mitochondrial Complex-1 Prevents the Downregulation of NKCC2 and ENaCα in Obstructive Kidney Disease. Sci Rep 2015 Jul;5:12480 Zhang Y et al 2015/01/01 |
|
|
| 10 |
Collier DM et al. Intersubunit conformational changes mediate epithelial sodium channel gating. J. Gen. Physiol. 2014 Oct;144(4):337-48 Collier DM et al 2014/01/01 |
|
|
| 11 |
Hye Khan M et al. Epoxyeicosatrienoic Acid (EET) Analog Lowers Blood Pressure Through Vasodilation And Sodium Channel Inhibition. Clin. Sci. 2014 Apr; Hye Khan M et al 2014/01/01 |
|
|
| 12 |
Pavlov TS et al. Role of Rho GDP dissociation inhibitor α in control of epithelial sodium channel (ENaC)-mediated sodium reabsorption. J. Biol. Chem. 2014 Oct;289(41):28651-9 Pavlov TS et al 2014/01/01 |
|
|
| 13 |
Ramkumar N et al. Collecting duct-specific knockout of renin attenuates angiotensin II-induced hypertension. Am. J. Physiol. Renal Physiol. 2014 Oct;307(8):F931-8 Ramkumar N et al 2014/01/01 |
|
|
| 14 |
Davies M et al. Novel mechanisms of Na+ retention in obesity: phosphorylation of NKCC2 and regulation of SPAK/OSR1 by AMPK. Am. J. Physiol. Renal Physiol. 2014 Jul;307(1):F96-F106 Davies M et al 2014/01/01 |
|
|
| 15 |
Vitzthum H et al. Functional coupling of renal K+ and Na+ handling causes high blood pressure in Na+ replete mice. J. Physiol. (Lond.) 2014 Mar;592(Pt 5):1139-57 Vitzthum H et al 2014/01/01 |
|
|
| 16 |
Xu J et al. Double knockout of carbonic anhydrase II (CAII) and Na(+)-Cl(-) cotransporter (NCC) causes salt wasting and volume depletion. Cell. Physiol. Biochem. 2013;32(7):173-83 Xu J et al 2013/01/01 |
|
|
| 17 |
Miller RL et al. ENaC γ-expressing astrocytes in the circumventricular organs, white matter, and ventral medullary surface: sites for Na+ regulation by glial cells. J. Chem. Neuroanat. 2013 Nov;53:72-80 Miller RL et al 2013/01/01 |
|
|
| 18 |
Pavlov TS et al. Regulation of ENaC in mice lacking renal insulin receptors in the collecting duct. FASEB J. 2013 Jul;27(7):2723-32 Pavlov TS et al 2013/01/01 |
|
|
| 19 |
Roos KP et al. Adenylyl cyclase VI mediates vasopressin-stimulated ENaC activity. J. Am. Soc. Nephrol. 2013 Feb;24(2):218-27 Roos KP et al 2013/01/01 |
|
|
| 20 |
Yu D et al. Regional differences in rat conjunctival ion transport activities. Am. J. Physiol., Cell Physiol. 2012 Oct;303(7):C767-80 Yu D et al 2012/01/01 |
|
|
| 21 |
Edinger RS et al. The epithelial sodium channel (ENaC) establishes a trafficking vesicle pool responsible for its regulation. PLoS ONE 2012;7(9):e46593 Edinger RS et al 2012/01/01 |
|
|
| 22 |
Soleimani M et al. Double knockout of pendrin and Na-Cl cotransporter (NCC) causes severe salt wasting, volume depletion, and renal failure. Proc. Natl. Acad. Sci. U.S.A. 2012 Aug;109(33):13368-73 Soleimani M et al 2012/01/01 |
|
|
| 23 |
van der Lubbe N et al. Aldosterone does not require angiotensin II to activate NCC through a WNK4-SPAK-dependent pathway. Pflugers Arch. 2012 Jun;463(6):853-63 van der Lubbe N et al 2012/01/01 |
|
|
| 24 |
Ilatovskaya DV et al. Cortical actin binding protein cortactin mediates ENaC activity via Arp2/3 complex. FASEB J. 2011 Aug;25(8):2688-99 Ilatovskaya DV et al 2011/01/01 |
|
|
| 25 |
Chen JC et al. WNK4 kinase is a physiological intracellular chloride sensor. Proc. Natl. Acad. Sci. U.S.A. 2019 Feb; Chen JC et al 2019/01/01 |
|
|
| 26 |
Romero CA et al. Renal release of N-acetyl-seryl-aspartyl-lysyl-proline is part of an antifibrotic peptidergic system in the kidney. Am. J. Physiol. Renal Physiol. 2019 Jan;316(1):F195-F203 Romero CA et al 2019/01/01 |
|
|
| 27 |
Fu Z et al. (Pro)renin receptor contributes to pregnancy-induced sodium-water retention in rats via activation of intrarenal RAAS and α-ENaC. Am. J. Physiol. Renal Physiol. 2019 Mar;316(3):F530-F538 Fu Z et al 2019/01/01 |
|
|
| 28 |
Gao Y et al. Nephron-Specific Disruption of Nitric Oxide Synthase 3 Causes Hypertension and Impaired Salt Excretion. J Am Heart Assoc 2018 Jul;7(14) Gao Y et al 2018/01/01 |
|
|
| 29 |
Ramkumar N et al. Collecting duct principal, but not intercalated, cell prorenin receptor regulates renal sodium and water excretion. Am. J. Physiol. Renal Physiol. 2018 Sep;315(3):F607-F617 Ramkumar N et al 2018/01/01 |
|
|
| 30 |
Pham TD et al. Pendrin-null mice develop severe hypokalemia following dietary Na<sup>+</sup> and K<sup>+</sup> restriction: role of ENaC. Am J Physiol Renal Physiol 2022 May;322(5):F486-F497 Pham TD et al 2022/01/01 |
|
|
| 31 |
Mutchler SM et al. Role of paraoxonase 3 in regulating ENaC-mediated Na<sup>+</sup> transport in the distal nephron. J Physiol 2024 Feb;602(4):737-757 Mutchler SM et al 2024/01/01 |
|
|
| 32 |
Mutchler SM et al. Dietary sodium alters aldosterone's effect on renal sodium transporter expression and distal convoluted tubule remodelling. J Physiol 2024 Mar;602(5):967-987 Mutchler SM et al 2024/01/01 |
|
|
| 33 |
Sun K et al. Collecting duct NCOR1 controls blood pressure by regulating mineralocorticoid receptor. J Adv Res 2025 Feb;68:75-87 Sun K et al 2025/01/01 |
|
|
| 34 |
Sun XS et al. Atrial Natriuretic Peptide and the Epithelial Sodium Channel Contribute to Spinal Cord Injury-Induced Polyuria in Mice. J Neurotrauma 2022 May;39(9-10):724-734 Sun XS et al 2022/01/01 |
|
|
| 35 |
Ray EC et al. Salt sensitivity of volume and blood pressure in a mouse with globally reduced ENaC γ-subunit expression. Am J Physiol Renal Physiol 2021 Dec;321(6):F705-F714 Ray EC et al 2021/01/01 |
|
|
| 36 |
Vitzthum H et al. The AE4 transporter mediates kidney acid-base sensing. Nat Commun 2023 May;14(1):3051 Vitzthum H et al 2023/01/01 |
|
|
| 37 |
Shi S et al. Paraoxonase 2 is an ER chaperone that regulates the epithelial Na<sup>+</sup> channel. Am J Physiol Cell Physiol 2022 Jan;322(1):C111-C121 Shi S et al 2022/01/01 |
|
|
| 38 |
Xu P et al. Epithelial Sodium Channel Alpha Subunit (αENaC) Is Associated with Inverse Salt Sensitivity of Blood Pressure. Biomedicines 2022 Apr;10(5) Xu P et al 2022/01/01 |
|
|
| 39 |
Hu C et al. Profiling renal sodium transporters in mice with nephron Ift88 disruption: Association with sex, cysts, and blood pressure. Physiol Rep 2022 Mar;10(5):e15206 Hu C et al 2022/01/01 |
|
|
| 40 |
Xiao Y et al. Deletion of renal Nedd4-2 abolishes the effect of high K<sup>+</sup> intake on Kir4.1/Kir5.1 and NCC activity in the distal convoluted tubule. Am J Physiol Renal Physiol 2021 07;321(1):F1-F11 Xiao Y et al 2021/01/01 |
|
|
| 41 |
Duan XP et al. Deletion of Kir5.1 abolishes the effect of high Na<sup>+</sup> intake on Kir4.1 and Na<sup>+</sup>-Cl<sup>-</sup> cotransporter. Am J Physiol Renal Physiol 2021 06;320(6):F1045-F1058 Duan XP et al 2021/01/01 |
|
|
| 42 |
Wu P et al. Kir4.1/Kir5.1 Activity Is Essential for Dietary Sodium Intake-Induced Modulation of Na-Cl Cotransporter. J Am Soc Nephrol 2019 02;30(2):216-227 Wu P et al 2019/01/01 |
|
|
| 43 |
Song C et al. Myristoylated alanine-rich C kinase substrate-like protein-1 regulates epithelial sodium channel activity in renal distal convoluted tubule cells. Am J Physiol Cell Physiol 2020 09;319(3):C589-C604 Song C et al 2020/01/01 |
|
|
| 44 |
Grant GJ et al. Oxidized Glutathione Increases Delta-Subunit Expressing Epithelial Sodium Channel Activity in <i>Xenopus laevis</i> Oocytes. Emed Res 2020;2 Grant GJ et al 2020/01/01 |
|
|
| 45 |
Rein JL et al. Effect of luminal flow on doming of mpkCCD cells in a 3D perfusable kidney cortical collecting duct model. Am J Physiol Cell Physiol 2020 07;319(1):C136-C147 Rein JL et al 2020/01/01 |
|
|
| 46 |
Wu P et al. Effect of Angiotensin II on ENaC in the Distal Convoluted Tubule and in the Cortical Collecting Duct of Mineralocorticoid Receptor Deficient Mice. J Am Heart Assoc 2020 04;9(7):e014996 Wu P et al 2020/01/01 |
|
|
| 47 |
Wang M et al. Adenosine A<sub>2B</sub> receptor activation stimulates alveolar fluid clearance through alveolar epithelial sodium channel via cAMP pathway in endotoxin-induced lung injury. Am J Physiol Lung Cell Mol Physiol 2020 04;318(4):L787-L800 Wang M et al 2020/01/01 |
|
|
| 48 |
Wang F et al. Soluble (pro)renin receptor regulation of ENaC involved in aldosterone signaling in cultured collecting duct cells. Am J Physiol Renal Physiol 2020 03;318(3):F817-F825 Wang F et al 2020/01/01 |
|
|
| 49 |
Lee HW et al. NBCe1-A is required for the renal ammonia and K<sup>+</sup> response to hypokalemia. Am J Physiol Renal Physiol 2020 02;318(2):F402-F421 Lee HW et al 2020/01/01 |
|
|
| 50 |
Lu X et al. A20 in Myeloid Cells Protects Against Hypertension by Inhibiting Dendritic Cell-Mediated T-Cell Activation. Circ Res 2019 12;125(12):1055-1066 Lu X et al 2019/01/01 |
|
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| 51 |
Wu MM et al. Lovastatin attenuates hypertension induced by renal tubule-specific knockout of ATP-binding cassette transporter A1, by inhibiting epithelial sodium channels. Br J Pharmacol 2019 09;176(18):3695-3711 Wu MM et al 2019/01/01 |
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| 52 |
Khedr S et al. Increased ENaC activity during kidney preservation in Wisconsin solution. BMC Nephrol 2019 04;20(1):145 Khedr S et al 2019/01/01 |
|
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| 53 |
Blass G et al. Postprandial Effects on ENaC-Mediated Sodium Absorption. Sci Rep 2019 03;9(1):4296 Blass G et al 2019/01/01 |
|
|
| 54 |
Ilatovskaya DV et al. Salt-deficient diet exacerbates cystogenesis in ARPKD via epithelial sodium channel (ENaC). EBioMedicine 2019 Feb;40:663-674 Ilatovskaya DV et al 2019/01/01 |
|
- No.: 1
-
文献情報:
You H et al. Derlin-1 promotes ubiquitylation and degradation of the epithelial Na(+) channel, ENaC. J. Cell. Sci. 2017 Mar;130(6):1027-1036
You H et al
2017/01/01
-
備考:
-
参照:
- No.: 2
-
文献情報:
Klemens CA et al. Ankyrin G Expression Regulates Apical Delivery of the Epithelial Sodium Channel (ENaC). J. Biol. Chem. 2017 Jan;292(1):375-385
Klemens CA et al
2017/01/01
-
備考:
-
参照:
- No.: 3
-
文献情報:
Pavlov TS et al. Renal sodium transport in renin-deficient Dahl salt-sensitive rats. J Renin Angiotensin Aldosterone Syst 2016 Jul;17(3)
Pavlov TS et al
2016/01/01
-
備考:
-
参照:
- No.: 4
-
文献情報:
Xu C et al. (Pro)Renin Receptor Regulates Potassium Homeostasis through a Local Mechanism. Am. J. Physiol. Renal Physiol. 2016 Jul;:ajprenal.00043.2016
Xu C et al
2016/01/01
-
備考:
-
参照:
- No.: 5
-
文献情報:
Ferdaus MZ et al. SPAK and OSR1 play essential roles in potassium homeostasis through actions on the distal convoluted tubule. J. Physiol. (Lond.) 2016 Sep;594(17):4945-66
Ferdaus MZ et al
2016/01/01
-
備考:
-
参照:
- No.: 6
-
文献情報:
Ramkumar N et al. Renal tubular epithelial cell prorenin receptor regulates blood pressure and sodium transport. Am. J. Physiol. Renal Physiol. 2016 Jul;311(1):F186-94
Ramkumar N et al
2016/01/01
-
備考:
-
参照:
- No.: 7
-
文献情報:
Patel-Chamberlin M et al. The Role of Epithelial Sodium Channel ENaC and the Apical Cl-/HCO3- Exchanger Pendrin in Compensatory Salt Reabsorption in the Setting of Na-Cl Cotransporter (NCC) Inactivation. PLoS ONE 2016;11(3):e0150918
Patel-Chamberlin M et al
2016/01/01
-
備考:
-
参照:
- No.: 8
-
文献情報:
Davies MR et al. The Thiazide-Sensitive Co-Transporter Promotes the Development of Sodium Retention in Mice with Diet-Induced Obesity. Kidney Blood Press. Res. 2015;40(5):509-19
Davies MR et al
2015/01/01
-
備考:
-
参照:
- No.: 9
-
文献情報:
Zhang Y et al. Inhibition of Mitochondrial Complex-1 Prevents the Downregulation of NKCC2 and ENaCα in Obstructive Kidney Disease. Sci Rep 2015 Jul;5:12480
Zhang Y et al
2015/01/01
-
備考:
-
参照:
- No.: 10
-
文献情報:
Collier DM et al. Intersubunit conformational changes mediate epithelial sodium channel gating. J. Gen. Physiol. 2014 Oct;144(4):337-48
Collier DM et al
2014/01/01
-
備考:
-
参照:
- No.: 11
-
文献情報:
Hye Khan M et al. Epoxyeicosatrienoic Acid (EET) Analog Lowers Blood Pressure Through Vasodilation And Sodium Channel Inhibition. Clin. Sci. 2014 Apr;
Hye Khan M et al
2014/01/01
-
備考:
-
参照:
- No.: 12
-
文献情報:
Pavlov TS et al. Role of Rho GDP dissociation inhibitor α in control of epithelial sodium channel (ENaC)-mediated sodium reabsorption. J. Biol. Chem. 2014 Oct;289(41):28651-9
Pavlov TS et al
2014/01/01
-
備考:
-
参照:
- No.: 13
-
文献情報:
Ramkumar N et al. Collecting duct-specific knockout of renin attenuates angiotensin II-induced hypertension. Am. J. Physiol. Renal Physiol. 2014 Oct;307(8):F931-8
Ramkumar N et al
2014/01/01
-
備考:
-
参照:
- No.: 14
-
文献情報:
Davies M et al. Novel mechanisms of Na+ retention in obesity: phosphorylation of NKCC2 and regulation of SPAK/OSR1 by AMPK. Am. J. Physiol. Renal Physiol. 2014 Jul;307(1):F96-F106
Davies M et al
2014/01/01
-
備考:
-
参照:
- No.: 15
-
文献情報:
Vitzthum H et al. Functional coupling of renal K+ and Na+ handling causes high blood pressure in Na+ replete mice. J. Physiol. (Lond.) 2014 Mar;592(Pt 5):1139-57
Vitzthum H et al
2014/01/01
-
備考:
-
参照:
- No.: 16
-
文献情報:
Xu J et al. Double knockout of carbonic anhydrase II (CAII) and Na(+)-Cl(-) cotransporter (NCC) causes salt wasting and volume depletion. Cell. Physiol. Biochem. 2013;32(7):173-83
Xu J et al
2013/01/01
-
備考:
-
参照:
- No.: 17
-
文献情報:
Miller RL et al. ENaC γ-expressing astrocytes in the circumventricular organs, white matter, and ventral medullary surface: sites for Na+ regulation by glial cells. J. Chem. Neuroanat. 2013 Nov;53:72-80
Miller RL et al
2013/01/01
-
備考:
-
参照:
- No.: 18
-
文献情報:
Pavlov TS et al. Regulation of ENaC in mice lacking renal insulin receptors in the collecting duct. FASEB J. 2013 Jul;27(7):2723-32
Pavlov TS et al
2013/01/01
-
備考:
-
参照:
- No.: 19
-
文献情報:
Roos KP et al. Adenylyl cyclase VI mediates vasopressin-stimulated ENaC activity. J. Am. Soc. Nephrol. 2013 Feb;24(2):218-27
Roos KP et al
2013/01/01
-
備考:
-
参照:
- No.: 20
-
文献情報:
Yu D et al. Regional differences in rat conjunctival ion transport activities. Am. J. Physiol., Cell Physiol. 2012 Oct;303(7):C767-80
Yu D et al
2012/01/01
-
備考:
-
参照:
- No.: 21
-
文献情報:
Edinger RS et al. The epithelial sodium channel (ENaC) establishes a trafficking vesicle pool responsible for its regulation. PLoS ONE 2012;7(9):e46593
Edinger RS et al
2012/01/01
-
備考:
-
参照:
- No.: 22
-
文献情報:
Soleimani M et al. Double knockout of pendrin and Na-Cl cotransporter (NCC) causes severe salt wasting, volume depletion, and renal failure. Proc. Natl. Acad. Sci. U.S.A. 2012 Aug;109(33):13368-73
Soleimani M et al
2012/01/01
-
備考:
-
参照:
- No.: 23
-
文献情報:
van der Lubbe N et al. Aldosterone does not require angiotensin II to activate NCC through a WNK4-SPAK-dependent pathway. Pflugers Arch. 2012 Jun;463(6):853-63
van der Lubbe N et al
2012/01/01
-
備考:
-
参照:
- No.: 24
-
文献情報:
Ilatovskaya DV et al. Cortical actin binding protein cortactin mediates ENaC activity via Arp2/3 complex. FASEB J. 2011 Aug;25(8):2688-99
Ilatovskaya DV et al
2011/01/01
-
備考:
-
参照:
- No.: 25
-
文献情報:
Chen JC et al. WNK4 kinase is a physiological intracellular chloride sensor. Proc. Natl. Acad. Sci. U.S.A. 2019 Feb;
Chen JC et al
2019/01/01
-
備考:
-
参照:
- No.: 26
-
文献情報:
Romero CA et al. Renal release of N-acetyl-seryl-aspartyl-lysyl-proline is part of an antifibrotic peptidergic system in the kidney. Am. J. Physiol. Renal Physiol. 2019 Jan;316(1):F195-F203
Romero CA et al
2019/01/01
-
備考:
-
参照:
- No.: 27
-
文献情報:
Fu Z et al. (Pro)renin receptor contributes to pregnancy-induced sodium-water retention in rats via activation of intrarenal RAAS and α-ENaC. Am. J. Physiol. Renal Physiol. 2019 Mar;316(3):F530-F538
Fu Z et al
2019/01/01
-
備考:
-
参照:
- No.: 28
-
文献情報:
Gao Y et al. Nephron-Specific Disruption of Nitric Oxide Synthase 3 Causes Hypertension and Impaired Salt Excretion. J Am Heart Assoc 2018 Jul;7(14)
Gao Y et al
2018/01/01
-
備考:
-
参照:
- No.: 29
-
文献情報:
Ramkumar N et al. Collecting duct principal, but not intercalated, cell prorenin receptor regulates renal sodium and water excretion. Am. J. Physiol. Renal Physiol. 2018 Sep;315(3):F607-F617
Ramkumar N et al
2018/01/01
-
備考:
-
参照:
- No.: 30
-
文献情報:
Pham TD et al. Pendrin-null mice develop severe hypokalemia following dietary Na<sup>+</sup> and K<sup>+</sup> restriction: role of ENaC. Am J Physiol Renal Physiol 2022 May;322(5):F486-F497
Pham TD et al
2022/01/01
-
備考:
-
参照:
- No.: 31
-
文献情報:
Mutchler SM et al. Role of paraoxonase 3 in regulating ENaC-mediated Na<sup>+</sup> transport in the distal nephron. J Physiol 2024 Feb;602(4):737-757
Mutchler SM et al
2024/01/01
-
備考:
-
参照:
- No.: 32
-
文献情報:
Mutchler SM et al. Dietary sodium alters aldosterone's effect on renal sodium transporter expression and distal convoluted tubule remodelling. J Physiol 2024 Mar;602(5):967-987
Mutchler SM et al
2024/01/01
-
備考:
-
参照:
- No.: 33
-
文献情報:
Sun K et al. Collecting duct NCOR1 controls blood pressure by regulating mineralocorticoid receptor. J Adv Res 2025 Feb;68:75-87
Sun K et al
2025/01/01
-
備考:
-
参照:
- No.: 34
-
文献情報:
Sun XS et al. Atrial Natriuretic Peptide and the Epithelial Sodium Channel Contribute to Spinal Cord Injury-Induced Polyuria in Mice. J Neurotrauma 2022 May;39(9-10):724-734
Sun XS et al
2022/01/01
-
備考:
-
参照:
- No.: 35
-
文献情報:
Ray EC et al. Salt sensitivity of volume and blood pressure in a mouse with globally reduced ENaC γ-subunit expression. Am J Physiol Renal Physiol 2021 Dec;321(6):F705-F714
Ray EC et al
2021/01/01
-
備考:
-
参照:
- No.: 36
-
文献情報:
Vitzthum H et al. The AE4 transporter mediates kidney acid-base sensing. Nat Commun 2023 May;14(1):3051
Vitzthum H et al
2023/01/01
-
備考:
-
参照:
- No.: 37
-
文献情報:
Shi S et al. Paraoxonase 2 is an ER chaperone that regulates the epithelial Na<sup>+</sup> channel. Am J Physiol Cell Physiol 2022 Jan;322(1):C111-C121
Shi S et al
2022/01/01
-
備考:
-
参照:
- No.: 38
-
文献情報:
Xu P et al. Epithelial Sodium Channel Alpha Subunit (αENaC) Is Associated with Inverse Salt Sensitivity of Blood Pressure. Biomedicines 2022 Apr;10(5)
Xu P et al
2022/01/01
-
備考:
-
参照:
- No.: 39
-
文献情報:
Hu C et al. Profiling renal sodium transporters in mice with nephron Ift88 disruption: Association with sex, cysts, and blood pressure. Physiol Rep 2022 Mar;10(5):e15206
Hu C et al
2022/01/01
-
備考:
-
参照:
- No.: 40
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文献情報:
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