Co-expression analysis

Gene ID At1g04970
Gene name lipid-binding serum glycoprotein family protein
Module size 5 genes
NF 0.53
%ile 73.8

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
0.7385.51.00At1g04970839357lipid-binding serum glycoprotein family proteinF:lipid binding;P:biological_process unknown;C:plasma membrane, vacuole;MPOO.I.H.G.S.X.
0.5065.30.93At4g36400829792FAD linked oxidase family proteinF:electron carrier activity, oxidoreductase activity, FAD binding, catalytic activity;P:biological_process unknown;C:mitochondrion;BOFMAPO.I.H.G.S.X.
0.4457.20.94At5g56180835717ATARP8 (ACTIN-RELATED PROTEIN 8)encodes a protein whose sequence is similar to actin-related proteins (ARPs) in other organisms. Member of nuclear ARP family of genes.O.I.H.G.S.X.
0.4050.80.93At3g59950825165autophagy 4b (APG4b)F:peptidase activity;P:autophagy;C:chloroplast;MOFPO.I.H.G.S.X.
0.4050.80.93At4g051608258644-coumarate--CoA ligase, putative / 4-coumaroyl-CoA synthase, putativeEncodes a peroxisomal protein involved in the activation of fatty acids through esterification with CoA. At4g05160 preferentially activates fatty acids with medium chain length (C6:0 and C7:0) as well as even-numbered long-chain fatty acids (C14:0, C16:0 and C18:0). At4g05160 was also able to catalyze the conversion of OPC-6:0 to its CoA ester and is therefore thought to be involved in the peroxisomal β-oxidation steps of jasmonic acid biosynthesis.O.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
102.899.9GSM143300Ts_genomic_hyb_3GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
101.999.9GSM253648Col-0-1GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
89.599.9GSM143302Ts_genomic_hyb_1GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
88.699.9GSM253649Col-0-2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
86.999.9GSM143308Tsu_genomic_hyb_3GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
81.999.9GSM253647Col-0 3GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
80.699.9GSM143307Low_Na_seg_pool_tsu_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
76.599.9GSM143310Tsu_genomic_hyb_1GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
76.499.9GSM143301Ts_genomic_hyb_2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
75.199.9GSM143306High_Na_seg_pool_tsu_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
75.199.9GSM143298Low_Na_seg_pool_ts_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
69.499.9GSM143309Tsu_genomic_hyb_2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
69.199.9GSM143299High_Na_seg_pool_ts_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
53.699.8GSM253650Ler 3GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
51.199.8GSM253651Ler 1GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
49.099.8GSM253646Low_Mo_seg_pool_Ler_col_F2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
40.499.8GSM253645High_Mo_seg_pool_Ler_col_F2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
38.799.8GSM253652Ler 2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
27.199.7GSM205432Col_ leaf_ wildtype_rep01GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
25.699.7GSM205435Col_ leaf_ wildtype_rep02GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
15.699.5GSM205426met1-3_leaf_second-selfed generation_rep02GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
13.399.4GSM133762Lindsey_1-14_torpedo-root_Rep1_ATH1GSE5730Transcriptional profiling of laser-capture micro-dissected embryonic tissuesLink to GEO
10.799.2GSM142754MJ001_ATH1_A5-jones-WT-Rep3GSE6165The effect of mutations in AtrbohC on the pattern of gene expression in primary root tissue.Link to GEO
9.399.1GSM184539Whole roots 2hr KCl control treated then frozen, biological rep3GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
8.999.0GSM179958Arabidopsis roots, air treatment, replica 1GSE7432Ethylene and auxin interactions in the roots of Arabidopsis seedlingsLink to GEO
8.999.0GSM218596Whole roots 3.5hr KNO3 treated then frozen, biological rep3GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
8.899.0GSM265431Arabidopsis, root, longitudinal zone 3, -Fe conditions, rep 2GSE10497Expression analysis of root developmental zones after iron deficiency (-Fe) treatmentLink to GEO

Biological processes inferred to relate to the module

SFGenesGO IDProcess NameLink to AmiGO
0.2221GO:0030029Any cellular process that depends upon or alters the actin cytoskeleton, that part of the cytoskeleton comprising actin filaments and their associated proteins.Link to AmiGO
0.1251GO:0009851The chemical reactions and pathways resulting in the formation of auxins, plant hormones that regulate aspects of plant growth.Link to AmiGO
0.1051GO:0009850The chemical reactions and pathways involving auxins, a group of plant hormones that regulate aspects of plant growth.Link to AmiGO

KEGG PATHWAY inferred to related to the module

SFGenesKEGG IDPathway nameLink to KEGG
0.067100130Ubiquinone and other terpenoid-quinone biosynthesisLink to KEGG PATHWAY
0.019100940Phenylpropanoid biosynthesisLink to KEGG PATHWAY
0.011101063Biosynthesis of alkaloids derived from shikimate pathwayLink to KEGG PATHWAY

Inter-species module comparison

Select a plant to compare co-expressed genes between species.

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