Matrix_414 | AGL15 | Not available | Upstream | -103 |
Matrix_6 | AT1G70000 | Not available | Upstream | -1206 |
| | | Upstream | -1285 |
| | | Upstream | -1286 |
Matrix_77 | PRR5 | Not available | Upstream | -140 |
| | | Upstream | -141 |
Motif_165 | AP3SV40 | AP-3 binding site consensus sequence in enhancer regions of SV40, MMTV, MLV, IL2 | Upstream | -113 |
| | | Upstream | -146 |
| | | Upstream | -227 |
| | | Upstream | -1204 |
Motif_168 | IBOX | I box; I-box; Conserved sequence upstream of light-regulated genes; Sequence found in the promoter region of rbcS of tomato and Arabidopsis; I box; Binding site of LeMYB1, that is a member of a novel class of myb-like proteins; LeMYBI act as a transcriptional activator; An evolutionarily conserved protein binding sequence upstream of a plant light-regulated gene | Upstream | -504 |
| | | Upstream | -1208 |
| | | Upstream | -1286 |
Motif_174 | SREATMSD | sugar-repressive element (SRE) found in 272 of the 1592 down-regulated genes after main stem decapitation in Arabidopsis | Upstream | -242 |
| | | Upstream | -1008 |
| | | Upstream | -1207 |
| | | Upstream | -1287 |
Motif_307 | TATCCAYMOTIFOSRAMY3D | TATCCAY motif found in rice RAmy3D alpha-amylase gene promoter; a GATA motif as its antisense sequence; TATCCAY motif and G motif are responsible for sugar repression | Upstream | -114 |
| | | Upstream | -1205 |
Motif_332 | SV40COREENHAN | SV40 core enhancer; Similar sequences found in rbcS genes | Upstream | -114 |
Motif_48 | BES1 | A brassinosteroid transcriptional network revealed by genome-wide identification of BESI target genes in Arabidopsis thaliana | Upstream | -144 |
Motif_536 | TBOXATGAPB | Tbox found in the Arabidopsis thaliana GAPB gene promoter; Located between -94 and -89 (T1) and also between -84 and -79 (T2); Mutations in the Tbox resulted in reductions of light-activated gene transcription; GAPB encodes the B subunit of chloroplast glyceraldehyde-3-phosphate dehydrogenase(GADPH) of A.T.; Promoter analysis of the nuclear gene encoding the chloroplast glyceraldehyde-3-phosphate dehydrogenase B subunit of Arabidopsis thaliana | Upstream | -1372 |
| | | Upstream | -1812 |
Motif_543 | TATCCACHVAL21 | TATCCAC box is a part of the conserved cis-acting response complex (GARC) that most often contain three sequence motifs, the TAACAAA box, or GA-responsive element (GARE); the pyrimidine box, CCTTTT (see S000259); and the TATCCAC box, which are necessary for a full GA response | Upstream | -114 |
| | | Upstream | -1205 |
Motif_563 | PYRIMIDINEBOXOSRAMY1A | Pyrimidine box found in rice alpha-amylase (RAmy1A) gene; Gibberellin-respons cis-element of GARE and pyrimidine box are partially involved in sugar repression; Found in the promoter of barley alpha-amylase (Amy2/32b) gene which is induced in the aleurone layers in response to GA; BPBF protein binds specifically to this site | Upstream | -138 |
Motif_585 | ATB2/AtbZIP53/AtbZIP44/GBF5 BS in ProDH | PRE (Pro- or hypoosmolarity-responsive element) found in the promoter region of proline dehydrogenase (ProDH) gene in Arabidopsis; Core of 9-bp sequence ACTCATCCT which is necessary for the efficient expression of ProDH in response to L-Pro and hypoosmolarity; ATB2-binding site; Similar to GCN4 motif (ATGA(C/G)TCAT); ATB2 subgroup of bZIP transcription factors function as transcriptional activator for hypoosmolarity-inducible ProDH; A Novel Subgroup of bZIP Proteins Functions as Transctiptional Activators in Hypsosmolarity-Responsive Expression of the ProDH gene in Arabidopsis | Upstream | -74 |
Motif_628 | TATCCAOSAMY | TATCCA element found in alpha-amylase promoters of rice at positions ca.90 to 150bp upstream of the transcription start sites; Binding sites of OsMYBS1, OsMYBS2 and OsMYBS3 which mediate sugar and hormone regulation of alpha-amylase gene expression; See also AMYBOX2 | Upstream | -115 |
| | | Upstream | -1081 |
| | | Upstream | -1206 |
| | | Upstream | -1288 |
| | | Upstream | -1572 |
Motif_658 | GT1CONSENSUS | Consensus GT-1 binding site in many light-regulated genes, e.g., RBCS from many species, PHYA from oat and rice, spinach RCA and PETA, and bean CHS15; GT-1 can stabilize the TFIIA-TBP-DNA (TATA box) complex; The activation mechanism of GT-1 may be achieved through direct interaction between TFIIA and GT-1; Binding of GT-1-like factors to the PR-1a promoter influences the level of SA-inducible gene expression | Upstream | -135 |
Motif_682 | GT1GMSCAM4 | GT-1 motif found in the promoter of soybean CaM isoform, SCaM-4; Plays a role in pathogen- and salt-induced SCaM-4 gene expression | Upstream | -135 |