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- Table of Contents
Information about C4-dicarboxylate Transport: characteristics, related genes and pathways, plus antibodies you can use for research. This page is being enriched constantly, if you see some information you would like this page to include please send your suggestions to us.
Most recent studies have shown that C4-dicarboxylate Transport shares some biological mechanisms with ammonia-oxidation, anaerobic-respiration, antiport, carbohydrate-transport, cell-growth, colony-morphology, conjugation, excretion, gluconeogenesis, glycolysis, nitrate-assimilation, nitrogen-fixation, response-to-osmotic-stress, succinate-transport, symport, transport, tricarboxylic-acid-cycle.
Among the many pathways, these few ones have gauged particular interests from scientists studying C4-dicarboxylate Transport, and have been seen in publications frequently: ammonia-oxidation, anaerobic-respiration, antiport, carbohydrate-transport, cell-growth, colony-morphology, conjugation, excretion, gluconeogenesis, glycolysis, nitrate-assimilation, nitrogen-fixation, response-to-osmotic-stress, succinate-transport, symport, transport, tricarboxylic-acid-cycle
Quite a number of genes have been found to play important roles in C4-dicarboxylate Transport, such as ABCB6, ASPA, Abcb5, C4A, CD40LG, CRP, DCT, DCTD, ESR1, FH, GAPDH, GLB1, MBL2, MBP, Negr1, PHB, S100A9, SCYL1, TDRD7. See what Boster has to offer for the research of these genes by clicking the gene name links below and view a more detailed info card/product listing for that gene.
In a later update, we will include information such as current drugs and therapy solutions as well as on-going and past clinical trials for this pathway. Plesae stay updated.
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