| Matrix_233 | MYC3 | Not available | Upstream | -969 |
| Matrix_320 | MYC4 | Not available | Upstream | -969 |
| Matrix_437 | MYC2 | Not available | Upstream | -969 |
| Matrix_80 | BIM1 | Not available | Upstream | -971 |
| Matrix_90 | BEE1;BEE3;AT3G07340;AT5G48560;AT5G50915 | Not available | Upstream | -969 |
| Motif_116 | INRNTPSADB | Inr (initiator) elements found in the tobacco psaDb gene promoter without TATA boxes; Light-responsive transcription of psaDb depends on Inr, but not TATA box | Upstream | -741 |
| Motif_139 | RHERPATEXPA7 | Right part of RHEs (Root Hair-specific cis-Elements) conserved among the Arabidopsis thaliana A7 (AtEXPA7) orthologous (and paralogous) genes from diverse angiosperm species with different hair distribution patterns | Upstream | -969 |
| | | Upstream | -967 |
| | | Upstream | -353 |
| Motif_141 | BP5OSWX | OsBP-5 (a MYC protein) binding site in Wx promoter | Upstream | -352 |
| 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 | -694 |
| Motif_155 | NODCON1GM | One of two putative nodulin consensus sequences; See also NODCON2GM; One of the consensus sequence motifs of organ-specific elements (OSE) characteristic of the promoters activated in infected cells of root nodules | Upstream | -747 |
| Motif_16 | -300ELEMENT | Present upstream of the promoter from the B-hordein gene of barley and the alpha-gliadin, gamma-gliadin, and low molecular weight glutenin genes of wheat; See S000001 -300CORE; See S000002 -300MOTIF | Upstream | -732 |
| Motif_179 | CACGTGMOTIF;BES1;PIF4;PIF5 | Phytochrome interacting factors 4 and 5 control seedling growth in changing light conditions by directly controlling auxin signaling;A brassinosteroid transcriptional network revealed by genome-wide identification of BESI target genes in Arabidopsis thaliana; CACGTG motif; G-box; Binding site of Arabidopsis GBF4; C. roseus G-box binding factor 1 (CrGBF1) and 1 (CrGBF2) can act as transcriptional repressors of the Str promoter via direct interaction with the G-box; Essential for expression of beta-phaseolin gene during embryogenesis in bean, tobacco, Arabidopsis; Tomato Pti4 (ERF) regulates defense-related gene expression via GCC box and non-GCC box cis-element (Myb1 (GTTAGTT) and G-box (CACGTG)); Isolation and characterization of a fourth Arabidopsis thaliana G-box-binding factor, which has similarities to Fos oncoprotein; Interaction between BZR1 and PIF4 integrates brassinosteroid and environmental responses | Upstream | -968 |
| Motif_192 | BOXLCOREDCPAL | Consensus of the putative core sequences of box-L-like sequences in carrot; PAL1 promoter region; DCMYB1 bound to these sequences in vitro | Upstream | -904 |
| 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 | -968 |
| | | Upstream | -694 |
| Motif_218 | ABRERATCAL | ABRE-related sequence or Repeated sequence motifs identified in the upstream regions of 162 Ca(2+)-responsive upregulated genes; see also ABRE | Upstream | -969 |
| | | Upstream | -968 |
| | | Upstream | -353 |
| Motif_235 | C8GCARGAT | Binding site of plant MADS-domain protein AGL15; CArG motif with a longer A/T-rich core;A variant of CArG motif, with a longer A/T-rich core; Binding site for AGL15 (AGAMOUS-like 15) | Upstream | -745 |
| Motif_254 | MYB46;MYB83 | MYB46 and MYB83 bind to the SMRE sites and directly activate a suite of transcription factors and secondary wall biosynthetic genes | Upstream | -635 |
| Motif_270 | ELRECOREPCRP1 | ElRE (Elicitor Responsive Element) core of parsley PR1 genes; consensus sequence of elements W1 and W2 of parsley PR1-1 and PR1-2 promoters; Box W1 and W2 are the binding site of WRKY1 and WRKY2, respectively; ERE; WA box; One of the W boxes found in the Parsley WRKY1 gene promoter; Required for elicitor responsiveness; WC box WB box and WC box constitute a palindrome; WRKY1 protein binding site; W-box found in thioredoxin h5 gene in Arabidopsis | Upstream | -706 |
| Motif_286 | SEBFCONSSTPR10A | Binding site of the potato silencing element binding factor (SEBF) gene found in promoter of pathogenesis-related gene (PR-10a); Located between -45 and -39; Similar to the auxin response element | Upstream | -205 |
| Motif_310 | ANAERO3CONSENSUS | One of 16 motifs found in silico in promoters of 13 anaerobic genes involved in the fermentative pathway (anaerobic set 1); Arbitrary named ANAERO3CONSENSUS by the PLACEdb curator | Upstream | -680 |
| Motif_339 | ABRE-like binding site motif | Molecular responses to dehydration and low temperature | Upstream | -968 |
| Motif_348 | WBBOXPCWRKY1 | WB box; WRKY proteins bind specifically to the DNA sequence motif (T)(T)TGAC(C/T), which is known as the W box; Found in amylase gene in sweet potato, alpha-Amy2 genes in wheat, barley, and wild oat, PR1 gene in parsley, and a transcription factor gene in Arabidopsis | Upstream | -707 |
| Motif_365 | ARF1 binding site motif | ARF (auxin response factor) binding site found in the promoters of primary/early auxin response genes of Arabidopsis thaliana; AuxRE;Binding site of Arabidopsis ARF1 (Auxin response factor1); Sequence found in NDE element in Soybean SAUR (Small Auxin-Up RNA) 15A gene promoter;Found in D1 or D4 element in Soybean GH3 promoter; This element was enriched in the 5'-flanking region of genes up-regulated by both IAA and BL;Dimerization and DNA binding of auxin response factors | Upstream | -205 |
| 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 | -694 |
| Motif_51 | MYB46 | Identification of a cis-acting regulatory motif recognized by MYB46, a master transcriptional regulator of secondary wall biosynthesis | Upstream | -636 |
| Motif_517 | LEAFYATAG | Target sequence of LEAFY in the intron of AGAMOUS gene in Arabidopsis | Upstream | -916 |
| Motif_567 | T/GBOXATPIN2 | T/G-box found in tomato proteinase inhibitor II (pin2) and leucine aminopeptidase (LAP) genes; Involved in jasmonate (JA) induction of these genes; bHLH-Leu zipper JAMYC2 and JAMYC10 proteins specifically recognize this motif | Upstream | -352 |
| 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 | -738 |
| Motif_618 | MYB1AT | MYB recognition site found in the promoters of the dehydration-responsive gene rd22 and many other genes in Arabidopsis | Upstream | -183 |
| 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 | -638 |
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