| Matrix_173 | ZAP1 | Not available | Upstream | -1047 |
| Matrix_183 | BES1 | A brassinosteroid transcriptional network revealed by genome-wide identification of BESI target genes in Arabidopsis thaliana | Upstream | -497 |
| | | Upstream | -602 |
| | | Upstream | -616 |
| | | Upstream | -636 |
| | | Upstream | -637 |
| Matrix_186 | FHY3 | Not available | Upstream | -497 |
| | | Upstream | -601 |
| | | Upstream | -635 |
| | | Upstream | -636 |
| Matrix_362 | DEAR3 | Not available | Upstream | -928 |
| Matrix_77 | PRR5 | Not available | Upstream | -496 |
| | | Upstream | -635 |
| | | Upstream | -636 |
| 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 | -202 |
| Motif_171 | TCP binding consensus | found enriched in peaks in chip-seq data for SEP3 | Upstream | -924 |
| | | Upstream | -1056 |
| Motif_182 | MYB2CONSENSUSAT | MYB recognition site found in the promoters of the dehydration-responsive gene rd22 and many other genes in Arabidopsis; see MYB2 and MYBATRD22 | Upstream | -717 |
| Motif_190 | WUSATAg | Target sequence of WUS in the intron of AGAMOUS gene in Arabidopsis | Upstream | -1062 |
| 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 | -705 |
| | | Upstream | -717 |
| Motif_199 | GCN4OSGLUB1 | GCN4 motif found in GluB-1 gene in rice; Required for endosperm-specific expression; AACA and ACGT motifs was found sufficient to confer a detectable level of endosperm expression; This motif is the recognition site for a basic leucine zipper transcription factor that belongs to the group of maize Opaque-2 (O2)-like proteins; Although all the RISBZ proteins are able to interact with the GCN4 motif, only RISBZ1 is capable of activating the gene expression | Upstream | -709 |
| 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 | -498 |
| | | Upstream | -603 |
| | | Upstream | -609 |
| | | Upstream | -638 |
| | | Upstream | -953 |
| Motif_221 | MYBCORE | Binding site for all animal MYB and at least two plant MYB proteins ATMYB1 and ATMYB2, both isolated from Arabidopsis; ATMYB2 is involved in regulation of genes that are responsive to water stress in Arabidopsis; A petunia MYB protein (MYB.Ph3) is involved in regulation of flavonoid biosynthesis | Upstream | -714 |
| | | Upstream | -717 |
| Motif_249 | DPBF1&2 binding site motif | A novel class of bZIP transcription factors, DPBF-1 and 2 (Dc3 promoter-binding factor-1 and 2) binding core sequence; Found in the carrot Dc3 gene promoter; Dc3 expression is normally embryo-specific, and also can be induced by ABA; The Arabidopsis abscisic acid response gene ABI5 encodes a bZIP transcription factor; abi5 mutant have a pleiotropic defects in ABA response; ABI5 regulates a subset of late embryogenesis-abundant genes; GIA1 (growth-insensitivity to ABA) is identical to ABI5; Isolation of a novel class of bZIP transcription factors that interact with ABA-responsive and embryo-specification elements in the Dc3 promoter using a modified yeast one-hybrid system | Upstream | -952 |
| Motif_279 | POLASIG3 | Plant polyA signal; Consensus sequence for plant polyadenylation signal | Upstream | -212 |
| Motif_318 | CGCGBOXAT | CGCG box recognized by AtSR1-6 (Arabidopsis thaliana signal-responsive genes); Multiple CGCG elements are found in promoters of many genes; Ca2+/calmodulin binds to all AtSRs | Upstream | -499 |
| | | Upstream | -603 |
| | | Upstream | -609 |
| | | Upstream | -615 |
| | | Upstream | -617 |
| | | Upstream | -638 |
| | | Upstream | -668 |
| | | Upstream | -954 |
| Motif_321 | TATABOX5 | TATA box; TATA box found in the 5'upstream region of pea (Pisum sativum) glutamine synthetase gene; a functional TATA element by in vivo analysis | Upstream | -206 |
| | | Upstream | -211 |
| Motif_336 | MYBMOUSE | Binding site for mouse c-myb protein | Upstream | -717 |
| Motif_342 | POLASIG1 | PolyA signal; poly A signal found in legA gene of pea, rice alpha-amylase; -10 to -30 in the case of animal genes. Near upstream elements (NUE) in Arabidopsis | Upstream | -207 |
| Motif_346 | SND1;VND6;VND7;NST1;NST2 | Global analysis of direct targets of secondary wall NAC master switches in Arabidopsis | Upstream | -193 |
| Motif_353 | HEXAMERATH4 | hexamer motif of Arabidopsis thaliana histone H4 promoter;Identification of cis-elements regulating the expression of an Arabidopsis histone H4 gene | Upstream | -946 |
| Motif_371 | DRE-like promoter motif | The Expression Profile Matrix of Arabidopsis Transcription Factor Genes Suggests Their Putative Functions in Response to Environmental Stresses | Upstream | -928 |
| Motif_392 | PALBOXAPC | Box A; Consensus; One of three putative cis-acting elements (boxes P, A, and L) of phenylalanine ammonia-lyase (PAL; EC 4.3.1.5) genes in parsley (P.c.); None of these elements (boxes P, A, and L) alone, or the promoter region containing all of them together, conferred elicitor or light responsiveness. These elements appear to be necessary but not sufficient for elicitor- or light-mediated PAL gene activation; See also Box P, Box L | Upstream | -938 |
| Motif_441 | GAGA8HVBKN3 | GA octodinucleotide repeat found in intron IV of the barley gene Bkn3; Binding site for GAGA-binding factor BBR | Upstream | -154 |
| Motif_454 | DRECRTCOREAT | Core motif of DRE/CRT (dehydration-responsive element/C-repeat) cis-acting element found in many genes in Arabidopsis and in rice; Os DREB1A bound to GCCGAC more preferentially than to ACCGAC whereas At DREB1A bound to both GCCGAC and ACCGAC efficiently; Maize ZmDREB1A bound to DRE; HaDREB2 in Helianthus annuus (sunflower) | Upstream | -929 |
| Motif_476 | XYLAT | cis-element identified among the promoters of the core xylem gene set | Upstream | -194 |
| 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 | -880 |
| 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 | -738 |
| Motif_591 | CBFHV | Binding site of barley CBF1, and also of barley CBF2; CBF = C-repeat (CRT) binding factors; CBFs are also known as dehydration-responsive element (DRE) binding proteins (DREBs) | Upstream | -929 |
| Motif_609 | AP2 | The floral homeotic protein APETALA2 recognizes and acts through an AT-rich sequence element | Upstream | -197 |
| Motif_615 | MARTBOX | T-Box; Motif found in SAR (scaffold attachment region; or matrix attachment region, MAR) | Downstream | 2167 |
| | | Downstream | 2166 |
| | | Downstream | 2165 |
| | | Upstream | -204 |
| | | Upstream | -207 |
| Motif_630 | WBOXNTCHN48 | W box identified in the region between -125 and -69 of a tobacco class I basic chitinase gene CHN48; NtWRKY1, NtWRKY2 and NtWRKY4 bound to W box; NtWRKYs possibly involved in elicitor-respsonsive transcription of defense genes in tobacco | Upstream | -708 |
| Motif_643 | DRE2COREZMRAB17 | DRE2 core found in maize rab17 gene promoter; DBF1 and DBF2 bound to DRE2; rab17 is expressed during late embryogenesis, and is induced by ABA | Upstream | -929 |
| 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 | -203 |
| Motif_672 | AP2 | The floral homeotic protein APETALA2 recognizes and acts through an AT-rich sequence element | Upstream | -197 |
| 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 | -203 |
| Motif_69 | CTRMCAMV35S | CT-rich motif (inverted GAGA) found in a 60-nucleotide region (S1) downstream of the transcription start site of the CaMV 35S RNA; Can enhance gene expression; Inverted GAGA | Upstream | -7 |
| | | Upstream | -9 |
| | | Upstream | -11 |
| | | Upstream | -13 |
| | | Upstream | -39 |
| | | Upstream | -41 |
| | | Upstream | -43 |
| | | Upstream | -155 |
| | | Upstream | -157 |
| | | Upstream | -159 |
| | | Upstream | -161 |
| Motif_80 | AP1SV40 | AP-1 binding site in enhancer regions of SV40 and human metallothionein IIA (hMT IIA) | Upstream | -709 |
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