CoP: Co-expressed Biological Processes

Gene omics information

Query gene ID At4g14090

Gene name UDP-glucoronosyl/UDP-glucosyl transferase family protein

Organism Arabidopsis thaliana

Co-expressed genes

As this page just shows up to 10 genes to the query, if you wish to have the complete list of co-expressed genes, click Gene/Probe ID.

VF %ile Gene/Probe ID Repr.ID Gene Name Functional Description S.X. H.G. Other DB
1.00 100.0 At4g14090 827046 UDP-glucoronosyl/UDP-glucosyl transferase family protein The At4g14090 encodes a anthocyanidin 5-O-glucosyltransferase specifically glucosylating the 5-position of the flavonoid A-ring. S.X. H.G.
1.00 100.0 At1g03495 3766646 transferase/ transferase, transferring acyl groups other than amino-acyl groups F:transferase activity, transferring acyl groups other than amino-acyl groups, transferase activity;P:biological_process unknown;C:unknown;PF S.X. H.G.
1.00 100.0 At5g17220 831586 ATGSTF12 (ARABIDOPSIS THALIANA GLUTATHIONE S-TRANSFERASE PHI 12) Encodes glutathione transferase belonging to the phi class of GSTs. Naming convention according to Wagner et al. (2002). Mutants display no pigments on leaves and stems. S.X. H.G.
0.92 96.0 At1g56650 842120 PAP1 (PRODUCTION OF ANTHOCYANIN PIGMENT 1) Encodes a putative MYB domain containing transcription factor involved in anthocyanin metabolism and radical scavenging. Essential for the sucrose-mediated expression of the dihydroflavonol reductase gene. S.X. H.G.
0.92 96.0 At3g29590 822623 AT5MAT At3g29590 (At5MAT) encodes a malonyl-CoA:anthocyanidin 5-O-glucoside-6"-O-malonyltransferase that is coordinately expressed with a epistatic 5-O-anthocyanidin glucosyltransferase (At4g14090). The enzyme is involved in the malonylation of anthocyanins in Arabidopsis. S.X. H.G.
0.92 96.0 At4g22870 828386 leucoanthocyanidin dioxygenase, putative / anthocyanidin synthase, putative F:oxidoreductase activity;P:unknown;C:cellular_component unknown;POBFM S.X. H.G.
0.83 91.4 At5g54060 835489 UF3GT (udp-glucose:flavonoid 3-O-glucosyltransferase) F:transferase activity, transferring glycosyl groups;P:N-terminal protein myristoylation, response to sucrose stimulus;C:cellular_component unknown;PMBVFO S.X. H.G.
0.80 89.8 At5g42800 834291 DFR (DIHYDROFLAVONOL 4-REDUCTASE) dihydroflavonol reductase. Catalyzes the conversion of dihydroquercetin to leucocyanidin in the biosynthesis of anthocyanins. S.X. H.G.
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Specifically expressed experiments

As this page just shows up to 10 assays to the query, if you wish to have the complete list of assays that the query gene/probe was specifically expressed, click here.
Std2 GX %ile GSM ID Assay Name GSE ID Experiment Title
231.4 100.0 E-MEXP-449-raw-cel-676423253
180.5 100.0 E-ATMX-32-raw-cel-1562974409
158.5 99.9 E-ATMX-32-raw-cel-1562974621
148.3 99.9 E-TABM-52-raw-cel-1583682926
133.9 99.9 GSM131537 ATGE_25_A GSE5630 AtGenExpress: Developmental series (leaves)
126.7 99.9 GSM269813 WT leaf-drought-rep1 GSE10670 Global expression profiling of wild type and transgenic Arabidopsis plants in response to water stress
117.0 99.9 GSM131539 ATGE_25_C GSE5630 AtGenExpress: Developmental series (leaves)
115.9 99.9 GSM131538 ATGE_25_B GSE5630 AtGenExpress: Developmental series (leaves)
103.6 99.9 E-TABM-52-raw-cel-1583683182
99.3 99.9 E-ATMX-32-raw-cel-1562974595
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Homologous genes

Paralogous genes

Click Gene ID to show a list of homologous genes.

HF Ev BS Gene ID Repr. ID Gene Name Functional description C.G. S.X. Other DB
0.05 2e-7 57 At1g78270 844162 AtUGT85A4 (UDP-glucosyl transferase 85A4) F:transferase activity, transferring hexosyl groups, UDP-glycosyltransferase activity, glucuronosyltransferase activity;P:metabolic process;C:cellular_component unknown;PMVBFO C.G. S.X.
0.03 7e-7 56 At1g05560 837058 UGT75B1 (UDP-GLUCOSYLTRANSFERASE 75B1) A UDP-glucose transferase localized in the phragmoplast. It has been co-purified with the callose synthase complex and may transfer UDP-glucose from sucrose synthase to the callose synthase and thus help form a substrate channel for the synthesis of callose at the forming cell plate. Induced by salicylic acid. Independent of NPR1 for their induction by salicylic acid. UGT1 encodes a protein with glucosyltransferase activity with high sequence homology to UGT2 (AT1G05530). It belongs to an UGT subfamily that binds UDP-glucose but not UDP-glucuronate, UDP-galactose, or UDP-rhamnose as the glycosyl donor. UGT1 was shown to be able to use abscisic acid as glycosylation substrate in the presence of UDP-glucose. UGT1/UGT75B1 catalyzes the formation of the p-aminobenzoate-glucose ester in vitro and in vivo. It appears to be the enzyme predominantly responsible for pABA-Glc formation in Arabidopsis based on assays in leaves, flowers, and siliques. C.G. S.X.
0.05 2e-4 48 At4g15550 827229 IAGLU (INDOLE-3-ACETATE BETA-D-GLUCOSYLTRANSFERASE) UDP-glucose:indole-3-acetate beta-D-glucosyltransferase C.G. S.X.
0.03 2e-4 48 At3g22250 821795 UDP-glucoronosyl/UDP-glucosyl transferase family protein F:UDP-glycosyltransferase activity, transferase activity, transferring glycosyl groups;P:metabolic process;C:unknown;PMVBOF C.G. S.X.
0.02 7e-4 46 At3g21780 821732 UGT71B6 (UDP-glucosyl transferase 71B6) Encodes a protein with UDP-glucosyl transferase activity that was shown to preferentially glucosylates abscisic acid (ABA), and not its catabolites. Moreover, UGT71B6 was shown to have a strict preference for the naturally-occurring ABA enantiomer, (+)-ABA, and not its 'unnatural' relative, (-)-ABA. This is in contrast to the other identified UGT genes catalyzing the glucosylation of ABA which were shown to accept both stereoisomers as substrates. C.G. S.X.
0.02 7e-4 46 At1g24100 839022 UGT74B1 (UDP-glucosyl transferase 74B1) Encodes a UDP-glucose:thiohydroximate S-glucosyltransferase, involved in glucosinolate biosynthesis C.G. S.X.
0.02 3e-3 44 At2g29750 817525 UGT71C1 (UDP-GLUCOSYL TRANSFERASE 71C1) F:quercetin 3'-O-glucosyltransferase activity, quercetin 7-O-glucosyltransferase activity, UDP-glycosyltransferase activity, transferase activity, transferring glycosyl groups;P:metabolic process;C:cellular_component unknown;PMBOVF C.G. S.X.
0.01 2e-1 38 At4g16745 827378 exostosin family protein F:molecular_function unknown;P:biological_process unknown;C:membrane;PMOBF C.G. S.X.
0.02 2e-1 38 At4g15500 827222 UGT84A4 Encodes a protein that might have sinapic acid:UDP-glucose glucosyltransferase activity. C.G. S.X.
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Orthologous genes

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HF Ev BS Species Gene ID Repr. ID Gene Name Functional description Ev AGI code Arabidopsis gene name C.G. S.X. Other DB
0.04 1e-6 56 Glycine max GmaAffx.50447.1.S1_at BI699630 - - 2e-7 At4g14090 UDP-glucoronosyl/UDP-glucosyl transferase family protein C.G. S.X.
0.02 1e+0 34 Hordeum vulgare Contig2424_at Contig2424 - - 2e-1 At5g02380 MT2B (METALLOTHIONEIN 2B) C.G. S.X.
0.02 3e-1 38 Oryza sativa OsAffx.15232.1.S1_x_at - - - 0 C.G. S.X.
0.06 6e-5 50 Populus trichocarpa PtpAffx.31211.1.A1_at CV243415 hypothetical protein - 3e-5 At4g14090 UDP-glucoronosyl/UDP-glucosyl transferase family protein C.G. S.X.
0.04 1e-5 52 Triticum aestivum TaAffx.105344.1.S1_at CA735840 - - 4e-6 At4g14090 UDP-glucoronosyl/UDP-glucosyl transferase family protein C.G. S.X.
0.02 5e-2 38 Vitis vinifera 1617599_at CF373544 hypothetical protein LOC100265390 - 2e-42 At4g23400 PIP1 C.G. S.X.
0.02 1e+0 34 Zea mays Zm.3106.1.S1_s_at CD944097 - - 1e-1 At4g24960 ATHVA22D C.G. S.X.
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Biological processes

Click GO ID to show a list of genes that are associated with the GO ID.

ECC GO ID Process Name
L GO:0008152 The chemical reactions and pathways, including anabolism and catabolism, by which living organisms transform chemical substances. Metabolic processes typically transform small molecules, but also include macromolecular processes such as DNA repair and replication, and protein synthesis and degradation.
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Metabolic pathways

Click KaPPA-View ID to show a list of genes that are assigned to the KaPPA-View ID.

KaPPA-View ID Link to Kappa-View Pathway Name
00359 Glucosyltransferase

Click KEGG PATHWAY ID to show a list of genes that are assigned to the KEGG PATHWAY ID.

KEGG PATHWAY ID Link to KEGG PATHWAY Pathway Name
00942 Anthocyanin biosynthesis
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