Co-expression analysis

Gene ID At3g25250
Gene name AGC2-1 (OXIDATIVE SIGNAL-INDUCIBLE1)
Module size 22 genes
NF 0.66
%ile 86.2



Co-expression network

pink confeito: Transcription factor, green bicone: Binding protein, red cone: Enzyme protein, blue sphere: Other protein
large node: VF over 0.50, middle node: over 0.25, small node: below 0.25



Co-expressed genes

Click gene/probe ID to show a list of genes that are co-expressed with the gene.

VF %ile CC Gene ID Repr. ID Gene name Func. O.I. H.G. S.X. Other DB
0.4963.51.00At3g25250822119AGC2-1 (OXIDATIVE SIGNAL-INDUCIBLE1)Arabidopsis protein kinaseO.I.H.G.S.X.
0.8391.40.84At2g37430818319zinc finger (C2H2 type) family protein (ZAT11)F:transcription factor activity, zinc ion binding, nucleic acid binding;P:response to chitin, regulation of transcription;C:intracellular;MPOFO.I.H.G.S.X.
0.8290.90.79At1g14540838016anionic peroxidase, putativeF:electron carrier activity, peroxidase activity, heme binding;P:response to oxidative stress;C:endomembrane system;PFOBMO.I.H.G.S.X.
0.8190.40.82At1g69930843329ATGSTU11 (GLUTATHIONE S-TRANSFERASE TAU 11)Encodes glutathione transferase belonging to the tau class of GSTs. Naming convention according to Wagner et al. (2002).O.I.H.G.S.X.
0.7687.40.85At1g30370839917lipase class 3 family proteinF:triacylglycerol lipase activity;P:lipid metabolic process;C:unknown;PBOFMVO.I.H.G.S.X.
0.7687.40.83At4g28460828963unknown proteinF:molecular_function unknown;P:biological_process unknown;C:endomembrane system;PO.I.H.G.S.X.
0.7486.10.84At3g53600824528zinc finger (C2H2 type) family proteinF:transcription factor activity, zinc ion binding, nucleic acid binding;P:response to chitin, regulation of transcription;C:intracellular;PMFO.I.H.G.S.X.
0.7184.20.78At5g24110832476WRKY30member of WRKY Transcription Factor; Group IIIO.I.H.G.S.X.
0.7083.50.82At1g68765843208IDA (INFLORESCENCE DEFICIENT IN ABSCISSION)Encodes a small protein of 77 amino acids. Loss of function mutations are defective in the process of ethylene independent floral organ abscission. Although the mutants have a normal appearing abscission zone, the floral organs do not abscisce. The peptide appears to be secreted and may function as a ligand. Arabidopsis 35S:IDA lines constitutively overexpressing IDA exhibit earlier abscission of floral organs, showing that the abscission zones are responsive to IDA soon after the opening of the flowers. In addition, ectopic abscission was observed at the bases of the pedicel, branches of the inflorescence, and cauline leaves. The silique valves also dehisced prematurely.O.I.H.G.S.X.
0.7083.50.77At3g23220821900DNA binding / transcription factorencodes a member of the ERF (ethylene response factor) subfamily B-3 of ERF/AP2 transcription factor family. The protein contains one AP2 domain. There are 18 members in this subfamily including ATERF-1, ATERF-2, AND ATERF-5.O.I.H.G.S.X.
0.6781.60.81At5g12340831109unknown proteinF:molecular_function unknown;P:biological_process unknown;C:unknown;PO.I.H.G.S.X.
0.6680.10.81At2g27310817274F-box family proteinF:molecular_function unknown;P:biological_process unknown;C:cellular_component unknown;PO.I.H.G.S.X.
0.6680.10.77At2g32140817773transmembrane receptorF:transmembrane receptor activity;P:signal transduction, defense response, innate immune response;C:intrinsic to membrane, chloroplast;PBOO.I.H.G.S.X.
0.6579.60.78At2g23270816859unknown proteinF:molecular_function unknown;P:biological_process unknown;C:endomembrane system;PO.I.H.G.S.X.
0.6579.60.87At5g42380834244CML37 (CALMODULIN LIKE 37)F:calcium ion binding;P:response to ozone;C:chloroplast;MPOFBVO.I.H.G.S.X.
0.6478.90.81At1g22810838887AP2 domain-containing transcription factor, putativeencodes a member of the DREB subfamily A-5 of ERF/AP2 transcription factor family. The protein contains one AP2 domain. There are 16 members in this subfamily including RAP2.1, RAP2.9 and RAP2.10.O.I.H.G.S.X.
0.6378.10.77At1g56060842057unknown proteinF:molecular_function unknown;P:biological_process unknown;C:cellular_component unknown;PFO.I.H.G.S.X.
0.6277.30.75At2g22760816806basic helix-loop-helix (bHLH) family proteinF:transcription factor activity, DNA binding;P:regulation of transcription;C:nucleus;PFOMAO.I.H.G.S.X.
0.5773.80.82At2g32030817763GCN5-related N-acetyltransferase (GNAT) family proteinF:N-acetyltransferase activity;P:metabolic process;C:cellular_component unknown;BOFPAVMO.I.H.G.S.X.
0.5469.50.80At1g35210840410unknown proteinF:molecular_function unknown;P:biological_process unknown;C:chloroplast;POO.I.H.G.S.X.
0.5368.60.80At2g44840819093ERF13 (ETHYLENE-RESPONSIVE ELEMENT BINDING FACTOR 13)encodes a member of the ERF (ethylene response factor) subfamily B-3 of ERF/AP2 transcription factor family. The protein contains one AP2 domain. There are 18 members in this subfamily including ATERF-1, ATERF-2, AND ATERF-5.O.I.H.G.S.X.
0.5166.30.76At5g52050835280MATE efflux protein-relatedF:drug transporter activity, antiporter activity;P:multidrug transport;C:membrane;BOPFAMO.I.H.G.S.X.

Click More genes

Link to AtGenExpress Visualization Tool



Specific experiments for the module

Std2 GX %ile GSM ID Assay name GSE ID Experiment title Link to GEO
136.499.9GSM205364met1-3_leaf_second-selfed generation_rep01GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
136.099.9GSM205426met1-3_leaf_second-selfed generation_rep02GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
123.099.9GSM205430met1-3_leaf_fourth-selfed generation_rep02GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
120.399.9GSM205428met1-3_leaf_fourth-selfed generation_rep01GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
59.399.8GSM205435Col_ leaf_ wildtype_rep02GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
54.599.8GSM205432Col_ leaf_ wildtype_rep01GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
42.099.8GSM253647Col-0 3GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
41.799.8GSM253649Col-0-2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
41.299.8GSM143306High_Na_seg_pool_tsu_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
37.099.7GSM143300Ts_genomic_hyb_3GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
36.999.7GSM143298Low_Na_seg_pool_ts_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
36.999.7GSM311289Laser capture microdissected (LCM) cellularized endosperm at the linear-cotyledon stage, biological replicate 1GSE12403Expression data from Arabidopsis seed compartments at the linear-cotyledon stageLink to GEO
36.599.7GSM143301Ts_genomic_hyb_2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
35.299.7GSM143309Tsu_genomic_hyb_2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
35.199.7GSM253645High_Mo_seg_pool_Ler_col_F2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
34.399.7GSM143307Low_Na_seg_pool_tsu_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
34.399.7GSM143308Tsu_genomic_hyb_3GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
34.399.7GSM253648Col-0-1GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
33.199.7GSM253652Ler 2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
32.299.7GSM311290Laser capture microdissected (LCM) cellularized endosperm at the linear-cotyledon stage, biological replicate 2GSE12403Expression data from Arabidopsis seed compartments at the linear-cotyledon stageLink to GEO
32.199.7GSM253650Ler 3GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
31.899.7GSM143302Ts_genomic_hyb_1GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
31.199.7GSM143299High_Na_seg_pool_ts_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
30.599.7GSM253646Low_Mo_seg_pool_Ler_col_F2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
30.499.7GSM143310Tsu_genomic_hyb_1GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
29.899.7GSM184556Whole roots 2hr KNO3 treated then incubated in protoplast-generating solution minus enzymes, biological rep2GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
26.999.7GSM184551Whole roots 2hr KCl control treated then incubated in protoplast-generating solution minus enzymes, biological rep1GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
26.899.7GSM253651Ler 1GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
19.299.6GSM142624MC002_ATH1_A1.2-dubos-wtxGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
18.999.5GSM142625MC002_ATH1_A1.3-dubos-wtxGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
17.299.5GSM184539Whole roots 2hr KCl control treated then frozen, biological rep3GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
16.199.5GSM142641MC002_ATH1_A7.1-dubos-wLhGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
15.599.5GSM218590Protoplasted root cells 2hr transitory KNO3 treated, biological rep3GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
13.999.4GSM184537Whole roots 2hr KCl control treated then frozen, biological rep1GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
13.899.4GSM142643MC002_ATH1_A7.3-dubos-wLhGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
12.899.3E-MEXP-849-raw-cel-1181980982
12.799.3GSM142631MC002_ATH1_A3.3-dubos-6kxGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
12.599.3GSM142642MC002_ATH1_A7.2-dubos-wLhGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
12.499.3GSM133303RIKEN-NAKABAYASHI1AGSE5700AtGenExpress: Effect of ABA during seed imbibitionLink to GEO
11.999.3GSM142644MC002_ATH1_A8.1-dubos-aihGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
11.399.3GSM134206Murray_3-3_D5-GROWTH_Rep1_ATH1GSE5750Growth of suspension-cultured cellsLink to GEO
11.299.2GSM133762Lindsey_1-14_torpedo-root_Rep1_ATH1GSE5730Transcriptional profiling of laser-capture micro-dissected embryonic tissuesLink to GEO
10.999.2GSM284387Arabidopsis GSUS4bGSE11262Expression data from Arabidopsis Seed Compartments at the Globular Embryo Stage.Link to GEO
10.799.2GSM131705ATGE_83_CGSE5634AtGenExpress: Developmental series (siliques and seeds)Link to GEO
10.599.2GSM131706ATGE_84_AGSE5634AtGenExpress: Developmental series (siliques and seeds)Link to GEO
10.399.2GSM131703ATGE_83_AGSE5634AtGenExpress: Developmental series (siliques and seeds)Link to GEO
10.299.2GSM142633MC002_ATH1_A4.2-dubos-6kcGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
10.099.2GSM142634MC002_ATH1_A4.3-dubos-6kcGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
9.999.1GSM133119RIKEN-YAMAUCHI2AGSE5687AtGenExpress: Different temperature treatment of seedsLink to GEO
9.599.1GSM142648MC002_ATH1_A9.2-dubos-aahGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
9.599.1GSM184533Protoplasted root cells 2hr KCl control treated, biological rep3GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
9.499.1GSM142627MC002_ATH1_A2.2-dubos-wtcGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
9.199.1GSM184517Pericycle root cells 2hr continuous KCl and MSX control treated, biological rep2GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
9.099.1GSM131707ATGE_84_BGSE5634AtGenExpress: Developmental series (siliques and seeds)Link to GEO
9.099.1GSM142649MC002_ATH1_A9.3-dubos-aahGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
9.099.1GSM131701ATGE_82_BGSE5634AtGenExpress: Developmental series (siliques and seeds)Link to GEO
8.999.0GSM133814Diamond_A-3-Diamo-met_SLDGSE5735Identification of Core Genes Regulating Plant Programmed Cell Death (PCD)Link to GEO
8.999.0GSM142646MC002_ATH1_A8.3-dubos-aihGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
8.899.0GSM142630MC002_ATH1_A3.2-dubos-6kxGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
8.699.0GSM133815Diamond_A-4-Diamo-met_SLDGSE5735Identification of Core Genes Regulating Plant Programmed Cell Death (PCD)Link to GEO
8.699.0GSM142628MC002_ATH1_A2.3-dubos-wtcGSE6151The mechanisms involved in the interplay between dormancy and secondary growth in ArabidopsisLink to GEO
8.699.0GSM131702ATGE_82_CGSE5634AtGenExpress: Developmental series (siliques and seeds)Link to GEO

Biological processes inferred to relate to the module

SFGenesGO IDProcess NameLink to AmiGO
0.0871GO:0009838The controlled shedding of a body part.Link to AmiGO
0.0632GO:0009873A series of molecular signals mediated by ethylene (ethene).Link to AmiGO
0.0541GO:0010227The controlled shedding of floral organs.Link to AmiGO

KEGG PATHWAY inferred to related to the module

SFGenesKEGG IDPathway nameLink to KEGG
0.020100360Phenylalanine metabolismLink to KEGG PATHWAY
0.019100680Methane metabolismLink to KEGG PATHWAY
0.016100940Phenylpropanoid biosynthesisLink to KEGG PATHWAY

Inter-species module comparison

Select a plant to compare co-expressed genes between species.
Glycine_max
Hordeum_vulgare
Oryza_sativa
Populus_trichocarpa
Triticum_aestivum
Vitis_vinifera
Zea_mays



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