Co-expression analysis

Gene ID At4g19030
Gene name NLM1
Module size 11 genes
NF 0.61
%ile 82.5



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
0.3235.71.00At4g19030827641NLM1an aquaporin whose expression level is reduced by ABA, NaCl, dark, and dessication. is expressed at relatively low levels under normal conditions. Also functions in arsenite transport and tolerance.O.I.H.G.S.X.
0.8994.60.76At5g57090835813EIR1 (ETHYLENE INSENSITIVE ROOT 1)Encodes an auxin efflux carrier that is similar to bacterial membrane transporters. Root-specific role in the transport of auxin. Acts downstream of CTR1 and ethylene biosynthesis, in the same pathway as EIN2 and AUX1, and independent from EIN3 and EIN5/AIN1 pathway. In the root, the protein localizes apically in epidermal and lateral root cap cells and predominantly basally in cortical cells. Functions may be regulated by phosphorylation status. EIR1 expression is induced by brassinolide treatment in the brassinosteroid-insensitive br1 mutant. Gravistimulation resulted in asymmetric PIN2 distribution, with more protein degraded at the upper side of the gravistimulated root. Protein turnover is affected by the proteasome and by endosomal cycling. Plasma membrane-localized PIN proteins mediate a saturable efflux of auxin. PINs mediate auxin efflux from mammalian and yeast cells without needing additional plant-specific factors. The action of PINs in auxin efflux is distinct from PGPs, rate-limiting, specific to auxins and sensitive to auxin transport inhibitors. Membrane sterol composition is essential for the acquisition of PIN2 polarity.O.I.H.G.S.X.
0.8290.90.73At1g73160843647glycosyl transferase family 1 proteinF:transferase activity, transferring glycosyl groups;P:biosynthetic process;C:unknown;BOAFPMO.I.H.G.S.X.
0.7586.90.72At4g37400829894CYP81F3member of CYP81FO.I.H.G.S.X.
0.7486.10.73At2g30340817584LBD13 (LOB DOMAIN-CONTAINING PROTEIN 13)F:molecular_function unknown;P:biological_process unknown;C:membrane;PMOFVBAO.I.H.G.S.X.
0.7184.20.78At2g24610816997ATCNGC14member of Cyclic nucleotide gated channel familyO.I.H.G.S.X.
0.6378.10.75At2g24300816966calmodulin-binding proteinF:calmodulin binding;P:biological_process unknown;C:unknown;PBO.I.H.G.S.X.
0.6176.70.72At2g25980817139jacalin lectin family proteinF:molecular_function unknown;P:biological_process unknown;C:cellular_component unknown;PBOO.I.H.G.S.X.
0.5974.70.70At5g10720830938AHK5 (ARABIDOPSIS HISTIDINE KINASE 5)member of Histidine KinaseO.I.H.G.S.X.
0.5773.80.70At1g31950840085terpene synthase/cyclase family proteinF:lyase activity, magnesium ion binding;P:metabolic process;C:membrane;POO.I.H.G.S.X.
0.3846.70.78At5g14150831265unknown proteinF:molecular_function unknown;P:biological_process unknown;C:anchored to membrane;PBOO.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
173.5100.0GSM205430met1-3_leaf_fourth-selfed generation_rep02GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
138.099.9GSM205364met1-3_leaf_second-selfed generation_rep01GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
121.399.9GSM205428met1-3_leaf_fourth-selfed generation_rep01GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
107.799.9GSM205426met1-3_leaf_second-selfed generation_rep02GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
90.499.9GSM143309Tsu_genomic_hyb_2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
86.799.9GSM253645High_Mo_seg_pool_Ler_col_F2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
86.399.9GSM253649Col-0-2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
78.699.9GSM143310Tsu_genomic_hyb_1GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
77.799.9GSM253648Col-0-1GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
74.899.9GSM143307Low_Na_seg_pool_tsu_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
73.199.9GSM133762Lindsey_1-14_torpedo-root_Rep1_ATH1GSE5730Transcriptional profiling of laser-capture micro-dissected embryonic tissuesLink to GEO
69.299.9GSM253647Col-0 3GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
64.399.8GSM143298Low_Na_seg_pool_ts_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
64.299.8GSM205432Col_ leaf_ wildtype_rep01GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
64.099.8GSM143306High_Na_seg_pool_tsu_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
60.399.8GSM143308Tsu_genomic_hyb_3GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
58.899.8GSM253646Low_Mo_seg_pool_Ler_col_F2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
48.299.8GSM143299High_Na_seg_pool_ts_col_F2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
42.099.8E-ATMX-35-raw-cel-1574334816
35.599.7GSM253650Ler 3GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
35.499.7GSM143300Ts_genomic_hyb_3GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
34.599.7GSM143301Ts_genomic_hyb_2GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
33.999.7E-ATMX-35-raw-cel-1574334832
30.499.7GSM205435Col_ leaf_ wildtype_rep02GSE8279Transgenerational Stability of the Arabidopsis Epigenome Is Coordinated by CG MethylationLink to GEO
29.599.7GSM143302Ts_genomic_hyb_1GSE6203Rus_etal_High_Na_Arabidopsis_accessions_mapping_HKT1Link to GEO
28.399.7GSM253652Ler 2GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
27.499.7GSM184537Whole roots 2hr KCl control treated then frozen, biological rep1GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
27.099.7E-ATMX-35-raw-cel-1574334800
23.399.6GSM253651Ler 1GSE10039Low_Mo_Arabidopsis_mapping_MOT1Link to GEO
15.199.4GSM189112HSP90_Reduced_RNAi-A3_Biological_Replicate_2_Technical_Replicate_1GSE7796Phenotypic Diversity and Altered Environmental Plasticity in Arabidopsis thaliana with Reduced HSP90 LevelsLink to GEO
12.299.3GSM176876AWP_AL_Txed_1GSE7334Microarray Analysis of Arabidopsis Genome Response to Aluminum StressLink to GEO
11.299.2GSM184556Whole roots 2hr KNO3 treated then incubated in protoplast-generating solution minus enzymes, biological rep2GSE7631Cell-specific nitrogen responses in the Arabidopsis rootLink to GEO
10.999.2GSM133766Lindsey_1-18_torpedo-root_Rep3_ATH1GSE5730Transcriptional profiling of laser-capture micro-dissected embryonic tissuesLink to GEO

Biological processes inferred to relate to the module

SFGenesGO IDProcess NameLink to AmiGO
0.1431GO:0015700The directed movement of arsenite into, out of, within or between cells.Link to AmiGO
0.0951GO:0046685A change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of an arsenic stimulus from compounds containing arsenic, including arsenates, arsenites, and arsenides.Link to AmiGO
0.0831GO:0006811The directed movement of charged atoms or small charged molecules into, out of, within or between cells.Link to AmiGO

KEGG PATHWAY inferred to related to the module

SFGenesKEGG IDPathway nameLink to KEGG
0.026100945Stilbenoid, diarylheptanoid and gingerol biosynthesisLink to KEGG PATHWAY
0.025100903Limonene and pinene degradationLink 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



Back to the CoP portal site

Back to the KAGIANA project homepage