| Matrix_116 | ANAC55 | Not available | Upstream | -1385 |
| Matrix_134 | ABF1 | Not available | Upstream | -392 |
| Matrix_175 | Dof5.7 | Not available | Upstream | -419 |
| | | Upstream | -421 |
| Matrix_25 | AP3 | Not available | Upstream | -1254 |
| Matrix_278 | AtbZIP44 | Not available | Upstream | -422 |
| | | Upstream | -423 |
| Matrix_290 | AP2 | Not available | Upstream | -485 |
| | | Upstream | -486 |
| Matrix_301 | PIL5 | Not available | Upstream | -392 |
| Matrix_333 | GATA3 | Not available | Upstream | -296 |
| Matrix_356 | PRR5 | Not available | Upstream | -302 |
| | | Upstream | -303 |
| Matrix_369 | AT2G18300 | Not available | Upstream | -391 |
| Matrix_389 | ILR3 | Not available | Upstream | -391 |
| Matrix_476 | bHLH115;bHLH34 | Not available | Upstream | -392 |
| Matrix_488 | ABF1 | Not available | Upstream | -422 |
| | | Upstream | -423 |
| Matrix_507 | TCP3 | Not available | Upstream | -487 |
| | | Upstream | -488 |
| Matrix_53 | MYC3 | Not available | Upstream | -393 |
| Matrix_60 | AT1G01260;AT5G57150 | Not available | Upstream | -392 |
| Matrix_7 | PIF4 | Not available | Upstream | -393 |
| Matrix_77 | PRR5 | Not available | Upstream | -390 |
| Matrix_80 | BIM1 | Not available | Upstream | -392 |
| Matrix_84 | AtGRF6 | Not available | Upstream | -246 |
| | | Upstream | -293 |
| | | Upstream | -294 |
| 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 | -485 |
| 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 | -392 |
| 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 | -290 |
| | | Upstream | -420 |
| Motif_189 | CMSRE1IBSPOA | CMSRE-1 (Carbohydrate Metabolite Signal Responsive Element 1) found in the promoter of sweet potato sporamin A gene | Upstream | -360 |
| Motif_193 | GLK1 | GLK transcription factors coordinate expression of the photosynthetic apparatus in Arabidopsis | Upstream | -433 |
| 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 | -485 |
| 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 | -391 |
| | | Upstream | -392 |
| | | Upstream | -425 |
| 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 | -290 |
| | | Upstream | -420 |
| Motif_244 | ABRE-like binding site motif | Not available | Upstream | -232 |
| | | Upstream | -305 |
| | | Upstream | -390 |
| | | Upstream | -1386 |
| Motif_250 | ACGTOSGLUB1 | ACGT motif found in GluB-1 gene in rice; Required for endosperm-specific expression; Conserved in the 5'-flanking region of glutelin genes; Combination of GCN4, AACA and ACGT motifs was found sufficient to confer a detectable level of endosperm expression | Upstream | -307 |
| 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 | -315 |
| 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 | -522 |
| Motif_336 | MYBMOUSE | Binding site for mouse c-myb protein | Upstream | -290 |
| | | Upstream | -420 |
| Motif_339 | ABRE-like binding site motif | Molecular responses to dehydration and low temperature | Upstream | -234 |
| | | Upstream | -307 |
| | | Upstream | -392 |
| | | Upstream | -1386 |
| 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 | -521 |
| 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 | -302 |
| 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 | -360 |
| Motif_419 | MYB4 binding site motif | Not available | Upstream | -315 |
| 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 | -485 |
| Motif_453 | HEXMOTIFTAH3H4 | hexamer motif found in promoter of wheat histone genes H3 and H4; CaMV35S; NOS; Binding with HBP-1A and HBP-1B; Binding site of wheat nuclear protein HBP-1 (histone DNA binding protein-1); HBP-1 has a leucine zipper motif; hexamer motif in type 1 element may play important roles in regulation of replication- dependent but not of replication-independent expression of the wheat histone H3 gene;Rice OBF1-homodimer-binding site | Upstream | -323 |
| Motif_48 | BES1 | A brassinosteroid transcriptional network revealed by genome-wide identification of BESI target genes in Arabidopsis thaliana | Upstream | -1960 |
| Motif_483 | ABREMOTIFAOSOSEM | motif A ABRE-like sequence found in rice Osem gene promoter; Essential for activation by VP1; Important for regulation by ABA;TRAB1, bZIP transcription factor, interacts with VP1 and mediates abscisic acid-induced transcritption;ABRE motif A found in the promoter of the rice Osem gene; ACGT-containing ABRE; Required for ABA-responsiveness and VP1 activation; Binding site of TRAB1; Motif A and CE3 are functionally equivalent; TRAB1, bZIP transcription factor, interacts with VP1 and mediates abscisic acid-induced transcritption | Upstream | -305 |
| Motif_51 | MYB46 | Identification of a cis-acting regulatory motif recognized by MYB46, a master transcriptional regulator of secondary wall biosynthesis | Upstream | -315 |
| Motif_558 | BOXIIPCCHS | Core of Box II/G box found in the parsley chs genes; Essential for light regulation | Upstream | -426 |
| 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 | -425 |
| Motif_57 | ABREOSRAB21 | ABA responsive element (ABRE) of wheat Em and rice rab21 genes; Proposed consensus sequence for the repeated motif (Em1a and Em1b) of wheat Em gene | Upstream | -393 |
| | | Upstream | -426 |
| Motif_576 | TGACGTVMAMY | TGACGT motif found in the Vigna mungo alpha-Amylase (Amy) gene promoter; Located between -128 and -123; Required for high level expression of alpha-Amylase in the cotyledons of the germinated seeds | Upstream | -323 |
| Motif_603 | SITEIIATCYTC | Site II element found in the promoter regions of cytochrome genes (Cytc-1, Cytc-2) in Arabidopsis; Located between -147 and -156 from the translational starts sites;Overrepresented in the promoters of nuclear genes encoding components of the oxidative phosphorylation (OxPhos) machinery from both Arabidopsis and rice | Upstream | -430 |
| Motif_609 | AP2 | The floral homeotic protein APETALA2 recognizes and acts through an AT-rich sequence element | Upstream | -505 |
| Motif_627 | ACGTABREMOTIFA2OSEM | Experimentally determined sequence requirement of ACGT-core of motif A in ABRE of the rice gene, OSEM; DRE and ABRE are interdependent in the ABA-responsive expression of the rd29A in Arabidopsis | Upstream | -305 |
| | | Upstream | -426 |
| 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 | -412 |
| 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 | -276 |
| Motif_65 | BS1EGCCR | BS1 (binding site 1) found in E. gunnii Cinnamoyl-CoA reductase (CCR) gene promoter; nuclear protein binding site; Required for vascular expression | Upstream | -963 |
| 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 | -514 |
| Motif_666 | MYB binding site promoter | A flower-specific Myb protein activates transcription of phenylpropanoid biosynthetic genes | Upstream | -315 |
| Motif_672 | AP2 | The floral homeotic protein APETALA2 recognizes and acts through an AT-rich sequence element | Upstream | -505 |
| 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 | -514 |
| 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 | -85 |
| | | Upstream | -87 |
| | | Upstream | -89 |
| Motif_72 | GADOWNAT | Sequence present in 24 genes in the GA-down regulated d1 cluster (106 genes) found in Arabidopsis seed germination; This motif is similar to ABRE | Upstream | -305 |
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