about
Recent advances in understanding trans-epithelial acid-base regulation and excretion mechanisms in cephalopodsMolecular mechanisms and regulation of urinary acidificationAmmonia transport in the kidney by Rhesus glycoproteins.Antennal-expressed ammonium transporters in the malaria vector mosquito Anopheles gambiaeExpression of the rhesus glycoproteins, ammonia transporter family members, RHCG and RHBG in male reproductive organs.Effects of chronic lithium administration on renal acid excretion in humans and rats.Wnt/β-Catenin Signaling Regulates the Expression of the Ammonium Permease Gene RHBG in Human Cancer Cells.Effect of dietary protein restriction on renal ammonia metabolismUrea and Ammonia Metabolism and the Control of Renal Nitrogen Excretion.NBCe1 expression is required for normal renal ammonia metabolism.Lowering blood ammonia prevents hepatocyte injury and apoptosis.Acid-Base HomeostasisEffect of NBCe1 deletion on renal citrate and 2-oxoglutarate handling.Proximal tubule-specific glutamine synthetase deletion alters basal and acidosis-stimulated ammonia metabolism.Peripheral ammonia and blood brain barrier structure and function after methamphetamine.Perfused Gills Reveal Fundamental Principles of pH Regulation and Ammonia Homeostasis in the Cephalopod Octopus vulgaris.Evidence for ammonium conductance in a mouse thick ascending limb cell line.Roles of renal ammonia metabolism other than in acid-base homeostasis.The Role of RRT in Hyperammonemic PatientsRecent advances in understanding renal ammonia metabolism and transport.Ammonia Transporters and Their Role in Acid-Base Balance.The metabolic waste ammonium regulates mTORC2 and mTORC1 signaling.Integrated compensatory network is activated in the absence of NCC phosphorylationPostoperative Compensatory Ammonium Excretion Subsequent to Systemic Acidosis in Cardiac PatientsUntangling the complex relationship between dietary acid load and glucocorticoid metabolism.Effects of end-stage renal disease and dialysis modalities on blood ammonia level.The Pharmabiotic Approach to Treat Hyperammonemia.Proximal tubule glutamine synthetase expression is necessary for the normal response to dietary protein restriction.The importance of the thick ascending limb of Henle’s loop in renal physiology and pathophysiology.Canagliflozin mediated dual inhibition of mitochondrial glutamate dehydrogenase and complex I: an off-target adverse effect.Acid Stimulation of the Citrate Transporter NaDC-1 Requires Pyk2 and ERK1/2 Signaling Pathways.Mechanism of Hyperkalemia-Induced Metabolic Acidosis.Fearful dogs have increased plasma glutamine and γ-glutamyl glutamine
P2860
Q26771610-43B8C8F0-20C3-4632-816D-8C09271D631FQ26823086-00A38C21-F786-4AF7-A340-55F5751CBEEBQ30578351-315DF3DC-6C8A-45E0-8DE2-B585FF441615Q34435249-DA1C42D0-FDD1-4C17-A04C-82B0DBFEE153Q35049220-42AD75EE-4087-40AF-84EB-5C1DDCBC4643Q35094211-0CF57196-38B6-4732-9BDB-53F5FACC43D6Q35647527-CA868602-6190-484B-9460-FA61911DDA1FQ35749634-130A205D-0F2A-46C8-A70A-7694F2110949Q35922729-B07BF164-F0E2-47ED-8666-7C4C0C696DFDQ36122791-666BF775-4EF1-4E70-B99B-1E1BF903F02DQ36182696-90D246E7-FC58-4D86-ACAB-40854AE6D864Q36349470-060DDC3E-DBE6-4B8B-AF24-12BD47E800D4Q36846453-7008E043-F2AC-46E2-8D4B-DDF89BE1342FQ37072414-44BAE545-95BF-4CDB-9345-311ED1FC6FD1Q37605025-13761C0C-7339-4B2D-AD82-5F9D6E560772Q37710412-CC500D2F-8F48-48D1-BD31-CA5F8F59E549Q38694392-28F77A49-3D99-482C-B58B-DDB1EDA2D9C9Q38832344-B32BBED5-E1EC-41BA-BB86-CC87E06D3637Q38838766-969C81E1-49A1-44C9-BD62-9BFCF79DB98BQ38883387-6AC2702D-7535-4597-ADA7-B5644B5EA973Q39115255-EC980979-0C40-4F4F-9007-9307EB4D13D2Q42036119-7FEF551E-F6E2-4870-9A9A-F07A6CDB2C55Q42103841-FA7555F7-D3FD-4D2B-B594-E9724097C32DQ42222963-4E23E728-C0FE-4865-B1D4-F090F5052C22Q42314745-BD34483C-27D6-4B9A-B2EA-E86A6C9C2195Q46632759-9912D755-962F-421A-8ED4-729C16BE345AQ47831420-32254543-90CB-44C7-B83A-F5707840AC18Q47937945-C133505A-1278-45CC-9134-906C31AB0E50Q50333319-9063F7F0-297D-4E6A-A162-329993F0768EQ52378681-BDEBC3F8-CE54-4DCB-9C43-8F0741FF773BQ52573388-9A28F8D3-46BD-4ED7-ABF1-B2DCAB526B14Q54124330-D47F7D69-4A81-49E8-9889-F1075CB19461Q58107332-5ED7D5E4-1F2F-4E54-880B-F378B93D1C40
P2860
description
2013 nî lūn-bûn
@nan
2013 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Renal ammonia metabolism and transport.
@ast
Renal ammonia metabolism and transport.
@en
type
label
Renal ammonia metabolism and transport.
@ast
Renal ammonia metabolism and transport.
@en
prefLabel
Renal ammonia metabolism and transport.
@ast
Renal ammonia metabolism and transport.
@en
P2860
P356
P1476
Renal ammonia metabolism and transport.
@en
P2093
I David Weiner
Jill W Verlander
P2860
P304
P356
10.1002/CPHY.C120010
P577
2013-01-01T00:00:00Z