This pathways features carbohydrates metabolism in proximal tubules, and is ment to be used to visualize RNA chip expression data. fb3 a38 aa6 ea5 Make sure to differentiate between M1 and M2 isoform 2 Isoforms: L Liver and R red cells 2 Isoforms: L Liver and R red cells Make sure to differentiate between M1 and M2 isoform f6f classic metabolic pathway PW:0000002 Pathway Ontology carbohydrate metabolic pathway PW:0000005 Pathway Ontology disease of metabolism DOID:0014667 Human Disease Ontology acquired metabolic disease DOID:0060158 Human Disease Ontology inherited metabolic disorder DOID:655 Human Disease Ontology glycolysis/gluconeogenesis pathway PW:0000025 Pathway Ontology epithelial cell of proximal tubule CL:0002306 Cell Ontology 23451068 PubMed SGLT5 reabsorbs fructose in the kidney but its deficiency paradoxically exacerbates hepatic steatosis induced by fructose. PLoS One 2013 Fukuzawa T Fukazawa M Ueda O Shimada H Kito A Kakefuda M Kawase Y Wada NA Goto C Fukushima N Jishage K Honda K King GL Kawabe Y 22212718 PubMed Functional characterisation of human SGLT-5 as a novel kidney-specific sodium-dependent sugar transporter FEBS Lett. 2012 Grempler R Augustin R Froehner S Hildebrandt T Simon E Mark M Eickelmann P 15607332 PubMed SLC5A9/SGLT4, a new Na+-dependent glucose transporter, is an essential transporter for mannose, 1,5-anhydro-D-glucitol, and fructose. Life Sci. 2005 Tazawa S Yamato T Fujikura H Hiratochi M Itoh F Tomae M Takemura Y Maruyama H Sugiyama T Wakamatsu A Isogai T Isaji M 30067804 PubMed Transcriptome signature for dietary fructose-specific changes in rat renal cortex: A quantitative approach to physiological relevance. PLoS One 2018 Gonzalez-Vicente A Garvin JL Hopfer U 30565998 PubMed Fructose reabsorption by rat proximal tubules: role of Na⁺-linked cotransporters and the effect of dietary fructose. Am J Physiol Renal Physiol 2019 Gonzalez-Vicente A Cabral PD Hong NJ Asirwatham J Saez F Garvin JL