Matrix_224 | ERF1 | Not available | Upstream | -160 |
Matrix_277 | RAP2.6 | Not available | Upstream | -160 |
Matrix_295 | ERF1 | Not available | Upstream | -161 |
Matrix_360 | ORA59 | Not available | Upstream | -161 |
Matrix_406 | ATERF-7 | Not available | Upstream | -161 |
Matrix_462 | ATERF-8 | Not available | Upstream | -161 |
Matrix_484 | ATERF13 | Not available | Upstream | -161 |
Matrix_488 | ABF1 | Not available | Upstream | -215 |
Matrix_50 | ATERF14;AT5G43410 | Not available | Upstream | -160 |
Motif_145 | MYCATERD1 | MYC recognition sequence (from -466 to -461) necessary for expression of erd1 (early responsive to dehydration) in dehydrated Arabidopsis; NAC protein bound specifically to the CATGTG motif; NAC protein bound specifically to the CATGTG motif | Upstream | -167 |
Motif_194 | EBOXBNNAPA | E-box of napA storage-protein gene of Brassica napus;This sequence is also known as RRE (R response element); MYC recognition site found in the promoters of the dehydration-responsive gene rd22 and many other genes in Arabidopsis; Binding site of ATMYC2 (previously known as rd22BP1); see E-box and MYCATRD22; MYC recognition sequence in CBF3 promoter; Binding site of ICE1 (inducer of CBF expression 1) that regulates the transcription of CBF/DREB1 genes in the cold in Arabidopsis; ICE1 | Upstream | -167 |
Motif_313 | ERF1 BS in AtCHI-B | Core of GCC-box found in many pathogen-responsive genes such as PDF1.2, Thi2.1, and PR4; Has been shown to function as ethylene-responsive element; Appears to play important roles in regulating jasmonate-responsive gene expression; Tomato Pti4 (ERF) regulates defence-related gene expression via GCC box and non-GCC box cis elements (Myb1 (GTTAGTT) and G-box(CACGTG)); Nuclear events in ethylene signaling: a transcriptional cascade mediated by ETHYLENE-INSENSITIVE3 and ETHYLENE-RESPONSE-FACTOR1;Molecular responses to dehydration and low temperature | Upstream | -162 |
Motif_320 | AGCBOXNPGLB | AGC box repeated twice in a 61 bp enhancer element in tobacco class I beta-1,3-glucanase (GLB) gene;GCC-box; Binding sequence of Arabidopsis AtERFs; AtERF1,2 and 5 functioned as activators of GCC box-dependent transcription; AtERF3 and 4 acted as repressors; AtERF proteins are stress signal-response factors; EREBP2 binding site; Conserved in most PR-protein genes; Rice MAPK (BWMK1) phosphorylates OS EREBP1, which enhance DNA-binding activity of the factor to the GCC box | Upstream | -161 |
Motif_447 | AtMYC2 BS in RD22;PIF4 | Binding site for MYC (rd22BP1) in Arabidopsis dehydration-resposive gene, rd22; MYC binding site in rd22 gene of Arabidopsis thaliana; ABA-induction; Located at ca. -200 of rd22 gene; Also MYB at ca. -141 of rd22 gene; See also MYBATRD22; Role of Arabidopsis MYC and MYB homologs in drought- and abscisic acid-regulated gene expression. Interaction between BZR1 and PIF4 integrates brassinosteroid and environmental responses | Upstream | -167 |
Motif_457 | AtERF-4;AtERF-3;AtERF-1;AtERF-2;AtERF-5 | Arabidopsis ethylene-responsive element binding factors act as transcriptional activators or repressors of GCC box-mediated gene expression | Upstream | -160 |
Motif_503 | EECCRCAH1 | EEC; Consensus motif of the two enhancer elements, EE-1 and EE-2, both found in the promoter region of the Chlamydomonas Cah1 (encoding a periplasmic carbonic anhydrase); Binding site of Myb transcription factor LCR1 | Upstream | -152 |
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 | -240 |
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 | -240 |