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Summary Expression Phenotypes Gene Literature (168) GO Terms (2) Nucleotides (27) Proteins (10) Interactants (263) Wiki
XB--478174

Papers associated with slc5a1.2



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Xenopus Ssbp2 is required for embryonic pronephros morphogenesis and terminal differentiation., Cervino AS, Collodel MG, Lopez IA, Roa C, Hochbaum D, Hukriede NA, Cirio MC., Sci Rep. October 4, 2023; 13 (1): 16671.                                          

Na+-dependent intestinal glucose absorption mechanisms and its luminal Na+ homeostasis across metamorphosis from tadpoles to frogs., Ishizuka N, Nagahashi M, Mochida Y, Hempstock W, Nagata N, Hayashi H., Am J Physiol Regul Integr Comp Physiol. May 1, 2023; 324 (5): R645-R655.              

The inhibition of intestinal glucose absorption by oat-derived avenanthramides., Zhouyao H, Malunga LN, Chu YF, Eck P, Ames N, Thandapilly SJ., J Food Biochem. October 1, 2022; 46 (10): e14324.

The enpp4 ectonucleotidase regulates kidney patterning signalling networks in Xenopus embryos., Massé K, Bhamra S, Paroissin C, Maneta-Peyret L, Boué-Grabot E, Jones EA., Commun Biol. October 7, 2021; 4 (1): 1158.                                

Ttc30a affects tubulin modifications in a model for ciliary chondrodysplasia with polycystic kidney disease., Getwan M, Hoppmann A, Schlosser P, Grand K, Song W, Diehl R, Schroda S, Heeg F, Deutsch K, Hildebrandt F, Lausch E, Köttgen A, Lienkamp SS., Proc Natl Acad Sci U S A. September 28, 2021; 118 (39):                                                   

Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch., Malunga LN, Ames N, Zhouyao H, Blewett H, Thandapilly SJ., Front Nutr. April 16, 2021; 8 628571.

Mutations in PRDM15 Are a Novel Cause of Galloway-Mowat Syndrome., Mann N, Mzoughi S, Schneider R, Kühl SJ, Schanze D, Klämbt V, Lovric S, Mao Y, Shi S, Tan W, Kühl M, Onuchic-Whitford AC, Treimer E, Kitzler TM, Kause F, Schumann S, Nakayama M, Buerger F, Shril S, van der Ven AT, Majmundar AJ, Holton KM, Kolb A, Braun DA, Rao J, Jobst-Schwan T, Mildenberger E, Lennert T, Kuechler A, Wieczorek D, Gross O, Ermisch-Omran B, Werberger A, Skalej M, Janecke AR, Soliman NA, Mane SM, Lifton RP, Kadlec J, Guccione E, Schmeisser MJ, Zenker M, Hildebrandt F., J Am Soc Nephrol. March 1, 2021; 32 (3): 580-596.    

The Molecular Basis of Glucose Galactose Malabsorption in a Large Swedish Pedigree., Lostao MP, Loo DD, Hernell O, Meeuwisse G, Martin MG, Wright EM., Function (Oxf). January 1, 2021; 2 (5): zqab040.                    

Inhibition of the facilitative sugar transporters (GLUTs) by tea extracts and catechins., Ni D, Ai Z, Munoz-Sandoval D, Suresh R, Ellis PR, Yuqiong C, Sharp PA, Butterworth PJ, Yu Z, Corpe CP., FASEB J. August 1, 2020; 34 (8): 9995-10010.

A Modified Tripeptide Motif of RS1 (RSC1A1) Down-Regulates Exocytotic Pathways of Human Na+-d-glucose Cotransporters SGLT1, SGLT2, and Glucose Sensor SGLT3 in the Presence of Glucose., Schäfer N, Rikkala PR, Veyhl-Wichmann M, Keller T, Jurowich CF, Geiger D, Koepsell H., Mol Pharmacol. January 1, 2019; 95 (1): 82-96.

Dynamin Binding Protein Is Required for Xenopus laevis Kidney Development., DeLay BD, Baldwin TA, Miller RK., Front Physiol. January 1, 2019; 10 143.                                

Unraveling the Inhibition of Intestinal Glucose Transport by Dietary Phenolics: A Review., Pico J, Martínez MM., Curr Pharm Des. January 1, 2019; 25 (32): 3418-3433.

Functional analysis of a triplet deletion in the gene encoding the sodium glucose transporter 3, a potential risk factor for ADHD., Schäfer N, Friedrich M, Jørgensen ME, Kollert S, Koepsell H, Wischmeyer E, Lesch KP, Geiger D, Döring F., PLoS One. October 4, 2018; 13 (10): e0205109.                

Active site voltage clamp fluorometry of the sodium glucose cotransporter hSGLT1., Gorraitz E, Hirayama BA, Paz A, Wright EM, Loo DDF., Proc Natl Acad Sci U S A. November 14, 2017; 114 (46): E9980-E9988.            

Apple and blackcurrant polyphenol-rich drinks decrease postprandial glucose, insulin and incretin response to a high-carbohydrate meal in healthy men and women., Castro-Acosta ML, Stone SG, Mok JE, Mhajan RK, Fu CI, Lenihan-Geels GN, Corpe CP, Hall WL., J Nutr Biochem. November 1, 2017; 49 53-62.

Characterization of the transport activity of SGLT2/MAP17, the renal low-affinity Na+-glucose cotransporter., Coady MJ, Wallendorff B, Lapointe JY., Am J Physiol Renal Physiol. August 1, 2017; 313 (2): F467-F474.

Protein RS1 (RSC1A1) Downregulates the Exocytotic Pathway of Glucose Transporter SGLT1 at Low Intracellular Glucose via Inhibition of Ornithine Decarboxylase., Chintalapati C, Keller T, Mueller TD, Gorboulev V, Schäfer N, Zilkowski I, Veyhl-Wichmann M, Geiger D, Groll J, Koepsell H., Mol Pharmacol. November 1, 2016; 90 (5): 508-521.

Structural and functional significance of water permeation through cotransporters., Zeuthen T, Gorraitz E, Her K, Wright EM, Loo DD., Proc Natl Acad Sci U S A. November 1, 2016; 113 (44): E6887-E6894.

Phosphorylation of RS1 (RSC1A1) Steers Inhibition of Different Exocytotic Pathways for Glucose Transporter SGLT1 and Nucleoside Transporter CNT1, and an RS1-Derived Peptide Inhibits Glucose Absorption., Veyhl-Wichmann M, Friedrich A, Vernaleken A, Singh S, Kipp H, Gorboulev V, Keller T, Chintalapati C, Pipkorn R, Pastor-Anglada M, Groll J, Koepsell H., Mol Pharmacol. January 1, 2016; 89 (1): 118-32.

The Human Sodium-Glucose Cotransporter (hSGLT1) Is a Disulfide-Bridged Homodimer with a Re-Entrant C-Terminal Loop., Sasseville LJ, Morin M, Coady MJ, Blunck R, Lapointe JY., PLoS One. January 1, 2016; 11 (5): e0154589.            

Expression of JAK3 Sensitive Na+ Coupled Glucose Carrier SGLT1 in Activated Cytotoxic T Lymphocytes., Bhavsar SK, Singh Y, Sharma P, Khairnar V, Hosseinzadeh Z, Zhang S, Palmada M, Sabolic I, Koepsell H, Lang KS, Lang PA, Lang F., Cell Physiol Biochem. January 1, 2016; 39 (3): 1209-28.

Alternative channels for urea in the inner medulla of the rat kidney., Nawata CM, Dantzler WH, Pannabecker TL., Am J Physiol Renal Physiol. December 1, 2015; 309 (11): F916-24.

Distinct action of the α-glucosidase inhibitor miglitol on SGLT3, enteroendocrine cells, and GLP1 secretion., Lee EY, Kaneko S, Jutabha P, Zhang X, Seino S, Jomori T, Anzai N, Miki T., J Endocrinol. March 1, 2015; 224 (3): 205-14.            

SPAK-sensitive regulation of glucose transporter SGLT1., Elvira B, Blecua M, Luo D, Yang W, Shumilina E, Munoz C, Lang F., J Membr Biol. November 1, 2014; 247 (11): 1191-7.

Inhibition of the intestinal sodium-coupled glucose transporter 1 (SGLT1) by extracts and polyphenols from apple reduces postprandial blood glucose levels in mice and humans., Schulze C, Bangert A, Kottra G, Geillinger KE, Schwanck B, Vollert H, Blaschek W, Daniel H., Mol Nutr Food Res. September 1, 2014; 58 (9): 1795-808.

Gymnemic acids inhibit sodium-dependent glucose transporter 1., Wang Y, Dawid C, Kottra G, Daniel H, Hofmann T., J Agric Food Chem. June 25, 2014; 62 (25): 5925-31.

The Wnt/JNK signaling target gene alcam is required for embryonic kidney development., Cizelsky W, Tata A, Kühl M, Kühl SJ., Development. May 1, 2014; 141 (10): 2064-74.          

KCNQ1, KCNE2, and Na+-coupled solute transporters form reciprocally regulating complexes that affect neuronal excitability., Abbott GW, Tai KK, Neverisky DL, Hansler A, Hu Z, Roepke TK, Lerner DJ, Chen Q, Liu L, Zupan B, Toth M, Haynes R, Huang X, Demirbas D, Buccafusca R, Gross SS, Kanda VA, Berry GT., Sci Signal. March 4, 2014; 7 (315): ra22.

Up-regulation of Na(+)-coupled glucose transporter SGLT1 by caveolin-1., Elvira B, Honisch S, Almilaji A, Pakladok T, Liu G, Shumilina E, Alesutan I, Yang W, Munoz C, Lang F., Biochim Biophys Acta. November 1, 2013; 1828 (11): 2394-8.

Enhanced XAO: the ontology of Xenopus anatomy and development underpins more accurate annotation of gene expression and queries on Xenbase., Segerdell E, Ponferrada VG, James-Zorn C, Burns KA, Fortriede JD, Dahdul WM, Vize PD, Zorn AM., J Biomed Semantics. October 18, 2013; 4 (1): 31.      

Stimulation of the Na(+)-coupled glucose transporter SGLT1 by B-RAF., Pakladok T, Hosseinzadeh Z, Alesutan I, Lang F., Biochem Biophys Res Commun. November 2, 2012; 427 (4): 689-93.

Regional differences in rat conjunctival ion transport activities., Yu D, Thelin WR, Rogers TD, Stutts MJ, Randell SH, Grubb BR, Boucher RC., Am J Physiol Cell Physiol. October 1, 2012; 303 (7): C767-80.

Simulated annealing reveals the kinetic activity of SGLT1, a member of the LeuT structural family., Longpré JP, Sasseville LJ, Lapointe JY., J Gen Physiol. October 1, 2012; 140 (4): 361-74.              

Bridging the gap between structure and kinetics of human SGLT1., Sala-Rabanal M, Hirayama BA, Loo DD, Chaptal V, Abramson J, Wright EM., Am J Physiol Cell Physiol. May 1, 2012; 302 (9): C1293-305.

Mouse SGLT3a generates proton-activated currents but does not transport sugar., Barcelona S, Menegaz D, Díez-Sampedro A., Am J Physiol Cell Physiol. April 15, 2012; 302 (8): C1073-82.

Downregulation of the creatine transporter SLC6A8 by JAK2., Shojaiefard M, Hosseinzadeh Z, Bhavsar SK, Lang F., J Membr Biol. March 1, 2012; 245 (3): 157-63.

Xenopus as a model system for the study of GOLPH2/GP73 function: Xenopus GOLPH2 is required for pronephros development., Li L, Wen L, Gong Y, Mei G, Liu J, Chen Y, Peng T., PLoS One. January 1, 2012; 7 (6): e38939.                                              

Upregulation of Na-coupled glucose transporter SGLT1 by Tau tubulin kinase 2., Alesutan I, Sopjani M, Dërmaku-Sopjani M, Munoz C, Voelkl J, Lang F., Cell Physiol Biochem. January 1, 2012; 30 (2): 458-65.

Stimulation of the glucose carrier SGLT1 by JAK2., Hosseinzadeh Z, Bhavsar SK, Shojaiefard M, Saxena A, Merches K, Sopjani M, Alesutan I, Lang F., Biochem Biophys Res Commun. May 6, 2011; 408 (2): 208-13.

Regulation of Na(+)-coupled glucose carrier SGLT1 by human papillomavirus 18 E6 protein., Leiprecht N, Munoz C, Alesutan I, Siraskar G, Sopjani M, Föller M, Stubenrauch F, Iftner T, Lang F., Biochem Biophys Res Commun. January 14, 2011; 404 (2): 695-700.

Determination of the Na(+)/glucose cotransporter (SGLT1) turnover rate using the ion-trap technique., Longpré JP, Lapointe JY., Biophys J. January 5, 2011; 100 (1): 52-9.

Frog oocytes to unveil the structure and supramolecular organization of human transport proteins., Bergeron MJ, Boggavarapu R, Meury M, Ucurum Z, Caron L, Isenring P, Hediger MA, Fotiadis D., PLoS One. January 1, 2011; 6 (7): e21901.          

Inversin relays Frizzled-8 signals to promote proximal pronephros development., Lienkamp S, Ganner A, Boehlke C, Schmidt T, Arnold SJ, Schäfer T, Romaker D, Schuler J, Hoff S, Powelske C, Eifler A, Krönig C, Bullerkotte A, Nitschke R, Kuehn EW, Kim E, Burkhardt H, Brox T, Ronneberger O, Gloy J, Walz G., Proc Natl Acad Sci U S A. November 23, 2010; 107 (47): 20388-93.                          

Stimulation of Na+/K+ ATPase activity and Na+ coupled glucose transport by β-catenin., Sopjani M, Alesutan I, Wilmes J, Dërmaku-Sopjani M, Lam RS, Koutsouki E, Jakupi M, Föller M, Lang F., Biochem Biophys Res Commun. November 19, 2010; 402 (3): 467-70.

Functional characterization of mouse sodium/glucose transporter type 3b., Aljure O, Díez-Sampedro A., Am J Physiol Cell Physiol. July 1, 2010; 299 (1): C58-65.

Regulation of renal tubular glucose reabsorption by Akt2/PKBβ., Kempe DS, Siraskar G, Fröhlich H, Umbach AT, Stübs M, Weiss F, Ackermann TF, Völkl H, Birnbaum MJ, Pearce D, Föller M, Lang F., Am J Physiol Renal Physiol. May 1, 2010; 298 (5): F1113-7.

A single amino acid change converts the sugar sensor SGLT3 into a sugar transporter., Bianchi L, Díez-Sampedro A., PLoS One. April 8, 2010; 5 (4): e10241.            

Regulation of Na+-coupled glucose carrier SGLT1 by AMP-activated protein kinase., Sopjani M, Bhavsar SK, Fraser S, Kemp BE, Föller M, Lang F., Mol Membr Biol. April 1, 2010; 27 (2-3): 137-44.

The actual ionic nature of the leak current through the Na+/glucose cotransporter SGLT1., Longpré JP, Gagnon DG, Coady MJ, Lapointe JY., Biophys J. January 20, 2010; 98 (2): 231-9.

Regulation of the glutamate transporter EAAT4 by PIKfyve., Alesutan IS, Ureche ON, Laufer J, Klaus F, Zürn A, Lindner R, Strutz-Seebohm N, Tavaré JM, Boehmer C, Palmada M, Lang UE, Seebohm G, Lang F., Cell Physiol Biochem. January 1, 2010; 25 (2-3): 187-94.

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