Basic Information
Gene Structure
Domain
Regulation&
Interaction
Annotation
Orthologus Group
Expresssion
Pathway
Basic Information
Gene ID
CSS0032800.g
View in Genome Browser
Position
Chr10:12559133-12562580 (-)
3447bp
Gene Type
gene
Gene Description (Protein Product)
Belongs to the glucose-6-phosphate 1-epimerase family
Organism
Camellia sinensis
Also AS AT3G01590

Gene Structure

upstream:
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Domain
Database EntryID E-Value Start end InterPro ID Description

Regulation&Interaction
Protein-protein interaction (PPI)
CSS0040662.g phosphoglucomutase
CSS0046658.g Belongs to the hexokinase family
CSS0034187.g Catalyzes the rate-limiting step of the oxidative pentose-phosphate pathway, which represents a route for the dissimilation of carbohydrates besides glycolysis
Regulatory gene
CSS0004712.g GAGA binding protein-like family
CSS0007067.g Protein BASIC PENTACYSTEINE6-like
CSS0008658.g Protein BASIC PENTACYSTEINE2-like

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Annotation

Orthologous Group
Orthologous ID Species Number All hits in PereRegDB Hits of this species Orthologous Detail

Expression Profile
DataSet Number of Samples expressed(TPM>1) Mean Min Max Standard deviation(SD) Coeffcient variation(CV)


Pathway
KEGG Pathway
KEGG Term Name Description
map01110 Biosynthesis of secondary metabolites -
map01100 Metabolic pathways -
map00010 Glycolysis / Gluconeogenesis Glycolysis is the process of converting glucose into pyruvate and generating small amounts of ATP (energy) and NADH (reducing power). It is a central pathway that produces important precursor metabolites: six-carbon compounds of glucose-6P and fructose-6P and three-carbon compounds of glycerone-P, glyceraldehyde-3P, glycerate-3P, phosphoenolpyruvate, and pyruvate [MD:M00001]. Acetyl-CoA, another important precursor metabolite, is produced by oxidative decarboxylation of pyruvate [MD:M00307]. When the enzyme genes of this pathway are examined in completely sequenced genomes, the reaction steps of three-carbon compounds from glycerone-P to pyruvate form a conserved core module [MD:M00002], which is found in almost all organisms and which often corresponds to operon structures in bacterial genomes. Gluconeogenesis is a synthesis pathway of glucose from noncarbohydrate precursors. It is essentially a reversal of glycolysis with minor variations of alternative paths [MD:M00003].