CoexViewer
Coexpression detail for AT1G21050 and BUD2
Both axes are relative gene expression values in base-2 logarithm against the averaged expression levels of each gene.
Note: Samples whose contribution is more than 10 are outputted.
| Species | Symbol | Function* | Entrez Gene ID* | Other ID | Selected probe | Expression level (percentile) | coex z ath-u.c4-0 | coex z ath-r.c6-0 | coex z ath-m.c9-0 | coex z ath-m.c4-1_notissue | coex z ath-m.c4-2_tis | coex z ath-m.c4-2_str | coex z ath-m.c4-2_hor | coex z ath-m.c4-2_bio | coex z ath-m.c4-2_lig | coex z ath-e.c1-0 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| ath | AT1G21050 | MIZU-KUSSEI-like protein (Protein of unknown function, DUF617) | 838699 | At1g21050 | 0.64 | 5.03 | 4.77 | 3.94 | 102.20 | 1.08 | 2.52 | 1.69 | 0.27 | -0.13 | 3.82 | |
| ath | BUD2 | Adenosylmethionine decarboxylase family protein | 832011 | At5g18930 | 0.64 |
|
coex z = 4.7658 |
|
Both axes are relative gene expression values in base-2 logarithm against the averaged expression levels of each gene.
| Sample contribution score* | 838699 (z-scored expression) |
832011 (z-scored expression) |
Experiment ID | Sample ID | Source Name in annotation |
|---|---|---|---|---|---|
| 29.3 | 6.5 | 4.5 | ERP123539 | ERR4471740 | EVOREPRO: RNA- seq of Arabidopsis thaliana pollen developmental stages for Ler and Col ecotypes |
| 25.4 | 5.9 | 4.3 | ERP123539 | ERR4471742 | EVOREPRO: RNA- seq of Arabidopsis thaliana pollen developmental stages for Ler and Col ecotypes |
| 23.8 | -4.2 | -5.6 | SRP073485 | SRR3401786 | Time course RNA-seq analysis of expression changes upon MLACC expression in Arabidopsis using a dexamethasone-inducible system which mirrors NLR activation |
| 20.4 | -4.2 | -4.9 | SRP102178 | SRR5360842 | A high temperature RNA-seq dataset for studies of gene expression variation in the MAGIC line resource of Arabidopsis thaliana |
| 18.5 | -4.2 | -4.4 | SRP126574 | SRR6369364 | Transcriptional Regulation of Nitrogen and Nitrogen-Related Metabolism in Arabidopsis |
| 15.1 | -3.1 | -4.8 | SRP091641 | SRR4426632 | Time-resolved transcriptome analysis with genetic perturbations reveals a critical time window for effective plant immunity |
| 14.4 | -4.3 | -3.4 | ERP115370 | ERR3333443 | Arabidopsis tissue atlas |
| 14.3 | -4.1 | -3.5 | SRP100933 | SRR5304255 | Gene expression profiling of the Arabidopsis Mediator MED5 mutant ref4-3 and suppressors thereof |
| 12.6 | -1.9 | -6.7 | SRP214585 | SRR9681290 | Transcriptome and binding data indicate that citral inhibits single strand DNA-binding proteins |
| 12.3 | -3.4 | -3.6 | ERP106738 | ERR2286776 | Effects of FT on FD during the transition to flowering at the SAM in Arabidopsis thaliana |
| 12.2 | -3.6 | -3.4 | SRP150217 | SRR7289571 | Widespread inter-individual gene expression variability in Arabidopsis thaliana |
| 12.1 | -4.9 | -2.5 | SRP345854 | SRR16934641 | Phytochrome B regulates reactive oxygen signaling during stress in plants. |
| 11.7 | -4.9 | -2.4 | SRP266133 | SRR11934452 | Two unequally redundant 'helper' immune receptor families mediate Arabidopsis intracellular 'sensor' immune receptor functions |
| 11.7 | -4.9 | -2.4 | SRP266133 | SRR11934496 | Two unequally redundant 'helper' immune receptor families mediate Arabidopsis intracellular 'sensor' immune receptor functions |
| 11.7 | 3.8 | 3.1 | SRP277946 | SRR12470192 | RNA-seq of Arabidopsis thaliana roots exposed to the MAMP flg22 in the presence of individual commensal bacteria [MAE] |
| 11.5 | -3.2 | -3.6 | ERP106238 | ERR2245583 | PORCUPINE (PCP) regulates development in response to temperature variations through alternative splicing in Arabidopsis |
| 11.4 | -3.0 | -3.8 | SRP285380 | SRR12712238 | Plant roots employ cell-layer specific programs to respond to pathogenic and beneficial microbes |
| 11.2 | -2.6 | -4.3 | SRP337622 | SRR15931267 | Hydropriming: the plant endophyte Pseudomonas argenenensis SA190 induces drought tolerance in plants via reprograming aquaporin expression and water use efficiency |
| 11.2 | -1.7 | -6.7 | SRP214585 | SRR9681276 | Transcriptome and binding data indicate that citral inhibits single strand DNA-binding proteins |
| 11.0 | -2.9 | -3.8 | SRP238608 | SRR10760446 | Gene expression profiling (RNA-seq) in wild-type Arabidopsis seedlings in response to heat acclimation and heat shock |
| 11.0 | -2.5 | -4.4 | SRP126574 | SRR6369535 | Transcriptional Regulation of Nitrogen and Nitrogen-Related Metabolism in Arabidopsis |
| 11.0 | -3.7 | -3.0 | SRP361288 | SRR18124836 | Specific CBF transcription factors and cold-responsive genes fine-tune the early triggering response after acquisition of cold priming and memory |
| 11.0 | -3.3 | -3.3 | SRP150217 | SRR7289601 | Widespread inter-individual gene expression variability in Arabidopsis thaliana |
| 10.9 | -2.1 | -5.2 | SRP220476 | SRR10072784 | Comparison of apical leaf halves of Arabidopsis thaliana PP2A-B´-mutants and wild type plants |
| 10.8 | -3.2 | -3.4 | SRP018034 | SRR2079784 | Time-course transcriptome of wild-type Arabidopsis leaf |
| 10.5 | 3.2 | 3.3 | SRP310860 | SRR13977116 | Spider mite egg extract modifies Arabidopsis response to future infestations |
| 10.5 | -3.6 | -2.9 | SRP165731 | SRR8054398 | The embryonic transcriptome of Arabidopsis thaliana |
| 10.4 | 3.6 | 2.9 | SRP277946 | SRR12470208 | RNA-seq of Arabidopsis thaliana roots exposed to the MAMP flg22 in the presence of individual commensal bacteria [MAE] |
| 10.2 | 3.5 | 2.9 | SRP017386 | SRR627642 | Transcriptome-wide analysis of gene expression in dark-grown WT and pif mutant seedlings |
| 10.2 | -3.5 | -2.9 | SRP132955 | SRR6739821 | Salicylic acid inhibits transcriptional repression activities of its receptors to promote defense gene expression |
| 10.1 | -3.8 | -2.7 | SRP126574 | SRR6369394 | Transcriptional Regulation of Nitrogen and Nitrogen-Related Metabolism in Arabidopsis |
| 10.1 | -2.4 | -4.2 | SRP150217 | SRR7289570 | Widespread inter-individual gene expression variability in Arabidopsis thaliana |
| 10.1 | -2.1 | -4.8 | SRP091641 | SRR4426408 | Time-resolved transcriptome analysis with genetic perturbations reveals a critical time window for effective plant immunity |
The preparation time of this page was 0.7 [sec].
