This pathways features carbohydrates metabolism in proximal tubules, and is ment to be used to visualize RNA chip expression data.fb3a38aa6ea5Make sure to differentiate between M1 and M2 isoform2 Isoforms: L Liver and R red cells2 Isoforms: L Liver and R red cellsMake sure to differentiate between M1 and M2 isoformf6fclassic metabolic pathwayPW:0000002Pathway Ontologycarbohydrate metabolic pathwayPW:0000005Pathway Ontologydisease of metabolismDOID:0014667Human Disease Ontologyacquired metabolic diseaseDOID:0060158Human Disease Ontologyinherited metabolic disorderDOID:655Human Disease Ontologyglycolysis/gluconeogenesis pathwayPW:0000025Pathway Ontologyepithelial cell of proximal tubuleCL:0002306Cell Ontology23451068PubMedSGLT5 reabsorbs fructose in the kidney but its deficiency paradoxically exacerbates hepatic steatosis induced by fructose.PLoS One2013Fukuzawa TFukazawa MUeda OShimada HKito AKakefuda MKawase YWada NAGoto CFukushima NJishage KHonda KKing GLKawabe Y22212718PubMedFunctional characterisation of human SGLT-5 as a novel kidney-specific sodium-dependent sugar transporterFEBS Lett.2012Grempler RAugustin RFroehner SHildebrandt TSimon EMark MEickelmann P15607332PubMedSLC5A9/SGLT4, a new Na+-dependent glucose transporter, is an essential transporter for mannose, 1,5-anhydro-D-glucitol, and fructose.Life Sci.2005Tazawa SYamato TFujikura HHiratochi MItoh FTomae MTakemura YMaruyama HSugiyama TWakamatsu AIsogai TIsaji M30067804PubMedTranscriptome signature for dietary fructose-specific changes in rat renal cortex: A quantitative approach to physiological relevance.PLoS One2018Gonzalez-Vicente AGarvin JLHopfer U30565998PubMedFructose reabsorption by rat proximal tubules: role of Na<sup>+</sup>-linked cotransporters and the effect of dietary fructose.Am J Physiol Renal Physiol2019Gonzalez-Vicente ACabral PDHong NJAsirwatham JSaez FGarvin JL