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| AGICode | AT3G48700 |
| Description | carboxyesterase 13 |
Gene information
| Gene Code | Description / Information | Gene name | Correlation | link | ||||
|---|---|---|---|---|---|---|---|---|
| pcc | 2.5% | 97.5% | PPI | |||||
| 1 | AT3G48700 | carboxyesterase 13 | carboxyesterase 13, carboxyesterase 13 |
1 | 0.32 | -0.31 |
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| 2 | AT5G42620 | metalloendopeptidases;zinc ion binding | -0.63 | 0.31 | -0.31 |
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| 3 | AT2G04070 | MATE efflux family protein | 0.6 | 0.32 | -0.33 |
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| 4 | AT1G03920 | Protein kinase family protein | -0.6 | 0.31 | -0.3 |
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| 5 | AT3G16750 | unknown protein; Has 4708 Blast hits to 1416 proteins in 195 species: Archae - 36; Bacteria - 1240; Metazoa - 1232; Fungi - 406; Plants - 191; Viruses - 23; Other Eukaryotes - 1580 (source: NCBI BLink). |
-0.6 | 0.33 | -0.32 |
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| 6 | AT4G28460 | unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: endomembrane system; EXPRESSED IN: 10 plant structures; EXPRESSED DURING: LP.04 four leaves visible, 4 anthesis, petal differentiation and expansion stage; Has 8 Blast hits to 8 proteins in 3 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 8; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). |
0.55 | 0.32 | -0.32 |
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| 7 | AT3G43660 | Vacuolar iron transporter (VIT) family protein | 0.53 | 0.32 | -0.34 |
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| 8 | AT2G14300 | transposable element gene | -0.52 | 0.32 | -0.32 |
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| 9 | AT4G39830 | Cupredoxin superfamily protein | 0.52 | 0.32 | -0.35 |
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| 10 | AT1G09030 | nuclear factor Y, subunit B4 | nuclear factor Y, subunit B4 | 0.51 | 0.33 | -0.32 |
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| 11 | AT1G21980 | phosphatidylinositol-4-phosphate 5-kinase 1 | phosphatidylinositol-4-phosphate 5-kinase 1, ATPIPK1, phosphatidylinositol-4-phosphate 5-kinase 1 |
0.51 | 0.31 | -0.32 |
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| 12 | AT5G41150 | Restriction endonuclease, type II-like superfamily protein | ATRAD1, RAD1, ULTRAVIOLET HYPERSENSITIVE 1 |
-0.5 | 0.31 | -0.3 |
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| 13 | AT1G70000 | myb-like transcription factor family protein | 0.5 | 0.3 | -0.34 |
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| 14 | AT4G39380 | BEST Arabidopsis thaliana protein match is: TSL-kinase interacting protein 1 (TAIR:AT2G36960.3); Has 80 Blast hits to 74 proteins in 15 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 78; Viruses - 0; Other Eukaryotes - 2 (source: NCBI BLink). |
0.49 | 0.32 | -0.32 |
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| 15 | AT5G60120 | target of early activation tagged (EAT) 2 | target of early activation tagged (EAT) 2 |
0.49 | 0.31 | -0.31 |
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| 16 | AT3G57320 | unknown protein; Has 30 Blast hits to 30 proteins in 13 species: Archae - 0; Bacteria - 0; Metazoa - 2; Fungi - 0; Plants - 28; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). |
-0.49 | 0.32 | -0.31 |
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| 17 | AT1G35612 | transposable element gene | -0.46 | 0.32 | -0.34 |
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| 18 | AT1G58160 | Mannose-binding lectin superfamily protein | -0.46 | 0.29 | -0.31 |
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| 19 | AT5G03980 | SGNH hydrolase-type esterase superfamily protein | -0.46 | 0.33 | -0.31 |
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Metabolite information
| CID | Metabolite name | Pathway Information | Correlation | link | ||||||
|---|---|---|---|---|---|---|---|---|---|---|
| Compound name | Stereochemistry | Aracyc name | pcc | 2.5% | 97.5% | PPI | ||||
| 20 | C0030 | 3-Methylsulfinyl-n-propylglucosinolate | - | 3-Methylsulfinylpropyl-glucosinolate | glucosinolate biosynthesis from homomethionine | -0.69 | 0.46 | -0.45 |
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| 21 | C0149 | Mevalonolactone | D,L-Mevalonolactone | - | terpenoid biosynthesis | -0.68 | 0.43 | -0.43 | ||
| 22 | C0075 | dGDP | - | dGDP | purine nucleotide metabolism (phosphotransfer and nucleotide modification) | -0.66 | 0.41 | -0.45 |
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| 23 | C0006 | β-Homothreonine | L-β-Homothreonine | - | - | -0.64 | 0.45 | -0.45 | ||
| 24 | C0262 | UDP-glucuronic acid | - | UDP-D-glucuronate | xylan biosynthesis, UDP-D-glucuronate biosynthesis (from myo-inositol), UDP-D-galacturonate biosynthesis I (from UDP-D-glucuronate), UDP-D-apiose biosynthesis (from UDP-D-glucuronate), galactose degradation III, UDP-D-xylose and UDP-D-glucuronate biosynthesis |
-0.63 | 0.45 | -0.44 |
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| 25 | C0261 | UDP-glucose | - | UDP-D-glucose | quercetin glucoside biosynthesis (Arabidopsis), abscisic acid glucose ester biosynthesis, anthocyanin biosynthesis (delphinidin 3-O-glucoside), UDP-glucose biosynthesis (from sucrose), 2,4,6-trinitrotoluene degradation, galactose degradation I (Leloir pathway), cytokinins-O-glucoside biosynthesis, trehalose biosynthesis I, dolichyl-diphosphooligosaccharide biosynthesis, phenolic malonylglucosides biosynthesis, callose biosynthesis, superpathway of anthocyanin biosynthesis (from cyanidin and cyanidin 3-O-glucoside), glucosinolate biosynthesis from hexahomomethionine, coniferin metabolism, glucosinolate biosynthesis from phenylalanine, xyloglucan biosynthesis, glucosinolate biosynthesis from pentahomomethionine, anthocyanin biosynthesis (pelargonidin 3-O-glucoside, cyanidin 3-O-glucoside), glucosinolate biosynthesis from dihomomethionine, cellulose biosynthesis, sinapate ester biosynthesis, superpathway of IAA conjugate biosynthesis, salicylate glucosides biosynthesis IV, sucrose biosynthesis I, glucosinolate biosynthesis from trihomomethionine, tetrahydrofolate biosynthesis II, sucrose degradation III, UDP-D-xylose and UDP-D-glucuronate biosynthesis, coumarin biosynthesis (via 2-coumarate), superpathway of sucrose and starch metabolism I (non-photosynthetic tissue), monolignol glucosides biosynthesis, glucosinolate biosynthesis from homomethionine, kaempferol glucoside biosynthesis (Arabidopsis), salicylate glucosides biosynthesis III, cytokinins 7-N-glucoside biosynthesis, galactose degradation III, cytokinins 9-N-glucoside biosynthesis, glucosinolate biosynthesis from tryptophan, UDP-galactose biosynthesis, salicylate glucosides biosynthesis II, stachyose degradation, superpathway of sucrose and starch metabolism II (photosynthetic tissue), UDP-glucose biosynthesis (from glucose 6-phosphate), sphingolipid biosynthesis (plants), glucosinolate biosynthesis from tetrahomomethionine, galactose degradation II, UDP-L-rhamnose biosynthesis |
-0.63 | 0.43 | -0.44 |
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| 26 | C0091 | Fructose-1,6-bisphosphate | D-Fructose-1,6-bisphosphate | Fructose-1,6-bisphosphate | gluconeogenesis I, Calvin-Benson-Bassham cycle, glycolysis IV (plant cytosol), glycolysis I, CA1P biosynthesis, sucrose biosynthesis I |
-0.6 | 0.43 | -0.44 |
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| 27 | C0027 | 2-Oxoglutaric acid | - | α-Ketoglutarate | gibberellin biosynthesis III (early C-13 hydroxylation), leucopelargonidin and leucocyanidin biosynthesis, aspartate degradation II, ornithine biosynthesis, isoleucine biosynthesis I (from threonine), pantothenate biosynthesis, phenylalanine degradation III, flavonol biosynthesis, lysine biosynthesis VI, luteolin biosynthesis, ammonia assimilation cycle II, serine biosynthesis, flavonoid biosynthesis, glutamate biosynthesis V, aspartate biosynthesis, glutamate degradation I, gibberellin inactivation I (2beta-hydroxylation), alanine degradation III, photorespiration, valine biosynthesis, glycine biosynthesis, arginine biosynthesis II (acetyl cycle), arginine degradation I (arginase pathway), gibberellin biosynthesis II (early C-3 hydroxylation), leucine biosynthesis, glutamate biosynthesis IV, tyrosine biosynthesis II, proline biosynthesis III, citrulline biosynthesis, anthocyanin biosynthesis (pelargonidin 3-O-glucoside, cyanidin 3-O-glucoside), L-Ndelta-acetylornithine biosynthesis, isoleucine degradation I, alanine biosynthesis II, tyrosine biosynthesis I, TCA cycle variation III (eukaryotic), leucine degradation I, alanine degradation II (to D-lactate), TCA cycle variation V (plant), arginine degradation VI (arginase 2 pathway), valine degradation I, gibberellin biosynthesis I (non C-3, non C-13 hydroxylation), 1,4-dihydroxy-2-naphthoate biosynthesis II (plants), 2-ketoglutarate dehydrogenase complex, glutamate degradation IV, tyrosine degradation I, anthocyanin biosynthesis (delphinidin 3-O-glucoside), IAA biosynthesis I, phenylalanine biosynthesis II, lysine degradation II, scopoletin biosynthesis, 4-hydroxyphenylpyruvate biosynthesis, histidine biosynthesis, glutamine biosynthesis III, leucodelphinidin biosynthesis |
-0.59 | 0.45 | -0.44 |
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| 28 | C0088 | FAD | - | FAD | cytokinins degradation, lysine degradation II, valine degradation I, isoleucine degradation I, flavin biosynthesis I (bacteria and plants) |
-0.58 | 0.44 | -0.43 |
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| 29 | C0005 | β-Fructose-6-phosphate | β-D-Fructose-6-phosphate | D-Fructose-6-phosphate | starch biosynthesis, Rubisco shunt, Calvin-Benson-Bassham cycle, mannitol degradation II, ascorbate biosynthesis I (L-galactose pathway), UDP-N-acetyl-D-glucosamine biosynthesis II, GDP-mannose biosynthesis, mannose degradation, sucrose biosynthesis I, sucrose degradation III, glycolysis IV (plant cytosol), pentose phosphate pathway (non-oxidative branch), glycolysis I, superpathway of sucrose and starch metabolism II (photosynthetic tissue), D-mannose degradation, gluconeogenesis I |
-0.54 | 0.3 | -0.33 |
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| 30 | C0066 | Choline | - | Choline | choline biosynthesis III, phosphatidylcholine biosynthesis I, choline biosynthesis I, glycine betaine biosynthesis III (plants), choline biosynthesis II, sinapate ester biosynthesis, phospholipases |
-0.53 | 0.34 | -0.31 |
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| 31 | C0218 | Pyridoxamine phosphate | Pyridoxamine-5'-phosphate | Pyridoxamine-5'-phosphate | pyridoxal 5'-phosphate salvage pathway | -0.52 | 0.32 | -0.33 |
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| 32 | C0061 | Aspartic acid | L-Aspartic acid | L-Aspartate | purine nucleotide metabolism (phosphotransfer and nucleotide modification), tRNA charging, indole-3-acetyl-amino acid biosynthesis, citrulline-nitric oxide cycle, asparagine degradation I, cyanide detoxification II, asparagine biosynthesis I, asparagine biosynthesis III (tRNA-dependent), arginine biosynthesis I, inosine-5'-phosphate biosynthesis II, uridine-5'-phosphate biosynthesis, aspartate biosynthesis, homoserine biosynthesis, lysine biosynthesis VI, aspartate degradation II, urea cycle, purine nucleotides de novo biosynthesis II, NAD biosynthesis I (from aspartate), IAA degradation IV, arginine biosynthesis II (acetyl cycle) |
-0.52 | 0.32 | -0.32 |
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