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) | | 91.67% |
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) | | 83.33% |
Motif_54 | LTREATLTI78 | Putative low temperature responsive element (LTRE); Found in Arabidopsis thaliana low-temperature-induced (lti) genes, lti78 and lti65; Repeated four times in lti78 which is also known as cor78 and rd29A; Found also in barley low temperature responsive genes, blt4.2, blt4.6, blt4.9 (lipid transfer genes); cold inducible; See LTRECORE; Also present in rab18, kin1, and kin2; Differential expression of two related, low-temperature-induced genes in Arabidopsis thaliana | | 83.33% |
Motif_510 | LTRECOREATCOR15 | Core of low temperature responsive element (LTRE) of cor15a gene in Arabidopsis; A portion of repeat-C (C-repeat), TGGCCGAC, which is repeated twice in cor15a promoter; ABA responsiveness; Involved in cold induction of BN115 gene from winter Brassica napus; LTRE; Light signaling mediated by phytochrome is necessary for cold- or drought- induced gene expression through the C/DRE in Arabidopsis | | 83.33% |
Motif_452 | MYB4 binding site motif | Expression profile matrix of Arabidopsis transcription factor genes suggests their putative functions in response to environmental stresses | | 75.00% |
Motif_371 | DRE-like promoter motif | The Expression Profile Matrix of Arabidopsis Transcription Factor Genes Suggests Their Putative Functions in Response to Environmental Stresses | | 73.71% |
Motif_459 | SORLIP1 | Identification of key promoter motifs involved in the network of light-regulated gene expression by combined analysis of genomic sequence and microarray data | | 66.67% |
Motif_426 | MYB58; MYB63 | MYB58 and MYB63 are transcriptional activators of the lignin biosynthetic pathway during secondary cell wall formation in Arabidopsis | | 66.67% |
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 | | 66.67% |
Motif_545 | SORLIP1AT | one of Sequences Over-Represented in Light-Induced Promoters (SORLIPs) in Arabidopsis; Computationally identified phyA-induced motifs; SORLIP 1 is most over-represented, and most statistically singnificant; Over-represented in light-induced cotyledon and root common genes and root-specific genes | | 66.67% |
Motif_233 | DRE1COREZMRAB17 | DRE1 core found in maize rab17 gene promoter; DRE1 was protected, in in vivo footprinting, by a protein in embryos specifically, but in leaves, was protected when was treated with ABA and drought; rab17 is expressed during late embryogenesis, and is induced by ABA | | 66.67% |
Motif_525 | CRTDREHVCBF2 | Preferred sequence for AP2 transcriptional activator HvCBF2 of barley; Core CRT/DRE motif; HvCBF2 bound to a (G/a)(T/c)CGAC core motif; DNA binding is regulated by temperature | | 66.67% |
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 | | 66.67% |
Matrix_478 | AT1G01250 | Not Available | | 63.23% |
Matrix_73 | DEAR3; RAP2.9; RAP2.10 | Not Available | | 62.95% |
Matrix_242 | AT2G25820; AT3G16280; AT4G32800; TINY2; tny | Not Available | | 62.36% |
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 | | 60.57% |
Matrix_400 | MYB46 | MYB46 and MYB83 bind to the SMRE sites and directly activate a suite of transcription factors and secondary wall biosynthetic genes | | 60.57% |
Motif_419 | MYB4 binding site motif | Not Available | | 60.57% |
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 | | 60.57% |
Matrix_486 | MYB83 | MYB46 and MYB83 bind to the SMRE sites and directly activate a suite of transcription factors and secondary wall biosynthetic genes | | 60.57% |
Matrix_292 | FTQ4 | Not Available | | 57.66% |
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 | | 52.23% |
Motif_666 | MYB binding site promoter | A flower-specific Myb protein activates transcription of phenylpropanoid biosynthetic genes | | 52.23% |
Motif_292 | MYBPZM | Core of consensus maize P (myb homolog) binding site; 6 bp core; Maize P gene specifies red pigmentation of kernel pericarp, cob, and other floral organs; P binds to A1 gene, but not Bz1 gene; Maize C1 (myb homolog) activates both A1 and Bz1 genes | | 52.23% |
Motif_353 | HEXAMERATH4 | hexamer motif of Arabidopsis thaliana histone H4 promoter;Identification of cis-elements regulating the expression of an Arabidopsis histone H4 gene | | 50.00% |
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 | | 50.00% |
Motif_368 | CBF1 BS in cor15a | Determinants in the sequence specific binding of two plant transcription factors, CBF1 and NtERF2, to the DRE and GCC motifs | | 50.00% |
Motif_223 | LTRE1HVBLT49 | LTRE-1 (low-temperature-responsive element) in barley (H.v.) blt4.9 gene promoter; A new LTRE; A previously known LTRE is CCGAC | | 50.00% |
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 | | 50.00% |
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 | | 50.00% |
Motif_98 | SEF3MOTIFGM | SEF3 binding site; Soybean consensus sequence found in the 5' upstream region of beta-conglycinin (7S globulin) gene; AACCCA(-27bp-)AACCCA; SEF=soybean embryo factor; SEF2; SEF3; SEF4 | | 50.00% |
Motif_193 | GLK1 | GLK transcription factors coordinate expression of the photosynthetic apparatus in Arabidopsis | | 50.00% |
Motif_513 | WRKY71OS | A core of TGAC-containing W-box of, e.g., Amy32b promoter; Binding site of rice WRKY71, a transcriptional repressor of the gibberellin signaling pathway; Parsley WRKY proteins bind specifically to TGAC-containing W box elements within the Pathogenesis-Related Class10 (PR-10) genes | | 50.00% |
Motif_369 | SURECOREATSULTR11 | Core of sulfur-responsive element (SURE) found in the promoter of SULTR1;1 high-affinity sulfate transporter gene in Arabidopsis; SURE contains auxin response factor (ARF) binding sequence (GAGACA)(see S000270 ARF:TGTCTC; its complementary seq is GAGACA), and this core sequence is a part of it; this core seq is involved in -S response; Beware of other SURE (sucrose responsive element) | | 50.00% |
Motif_404 | AACACOREOSGLUB1 | Core of AACA motifs found in rice glutelin genes, involved in controlling the endosperm-specific expression; AACA is also closely associated with the GCN4 motif in all rice glutelin genes and together have been shown to confer endosperm-specific enhancement to the truncated -90 CaMV 35S promoter | | 50.00% |
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 | | 50.00% |
Motif_437 | ANAERO2CONSENSUS | One of 16 motifs found in silico in promoters of 13 anaerobic genes involved in the fermentative pathway (anaerobic set 1) | | 50.00% |
Motif_271 | ACGTATERD1 | ACGT sequence (from -155 to -152) required for etiolation-induced expression of erd1 (early responsive to dehydration) in Arabidopsis | | 50.00% |
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 | | 50.00% |
Motif_391 | REALPHALGLHCB21 | REalpha found in Lemna gibba Lhcb21 gene promoter; Located at -134 to -129; Binding site of proteins of whole-cell extracts; The DNA binding activity is high in etiolated plants but much lower in green plants; Required for phytochrome regulation | | 50.00% |
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 | | 50.00% |
Motif_63 | ABRELATERD1 | ABRE-like sequence (from -199 to -195) required for etiolation-induced expression of erd1 (early responsive to dehydration) in Arabidopsis | | 50.00% |
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 | | 50.00% |
Motif_558 | BOXIIPCCHS | Core of Box II/G box found in the parsley chs genes; Essential for light regulation | | 50.00% |
Motif_33 | ACGTCBOX | C-box according to the nomenclature of ACGT elements; One of ACGT elements; Factors groups 1, 2 and 3 have affinity for C-box;RITA-1 binding site | | 50.00% |
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 | | 50.00% |
Motif_623 | MYBCOREATCYCB1 | Myb core in the 18 bp sequence which is able to activate reporter gene without leading to M-phase-specific expression, found in the promoter of Arabidopsis thaliana cyclin B1:1 gene; the 18 bp sequence share homology with a sequence found in the N. sylvestris cyclin B1 promoter | | 50.00% |
Motif_626 | ACGTTBOX | T-box according to the nomenclature of ACGT elements; One of ACGT elements; See also ACGTABOX,ACGTCBOX, and CACGTGMOTIF | | 50.00% |
Motif_146 | CCAATBOX1 | Common sequence found in the 5'-non-coding regions of eukaryotic genes; CCAAT box found in the promoter of heat shock protein genes; Located immediately upstream from the most distal HSE of the promoter; CCAAT box act cooperatively with HSEs to increase the hs promoter activity | | 50.00% |
Motif_661 | WBOXATNPR1 | W-box found in promoter of Arabidopsis thaliana NPR1 gene; Located between +70 and +79 in tandem; They were recognized specifically by salicylic acid (SA)-induced WRKY DNA binding proteins; A cluster of WRKY binding sites act as negative regulatory elements for the inducible expression of AtWRKY18; Evidence for an important role of WRKY DNA binding proteins in the regulation of NPR1 gene expression | | 50.00% |
Motif_657 | CGACGOSAMY3 | CGACG element found in the GC-rich regions of the rice Amy3D and Amy3E amylase genes, but not in Amy3E gene; May function as a coupling element for the G box element | | 50.00% |
Motif_125 | BOXIINTPATPB | Box II found in the tobacco plastid atpB gene promoter; Conserved in several NCII (nonconsensus type II) promoters of plastid genes; Important for the activity of this NCII promoter | | 50.00% |
Motif_163 | BOXCPSAS1 | Box C in pea (P.s.) asparagine synthetase (AS1) gene; Found at -45; AS1 is negatively regulated by light; Box C binds with nuclear proteins, which was competed by a putative repressor element RE1 | | 50.00% |
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 | | 50.00% |
Motif_609 | AP2 | The floral homeotic protein APETALA2 recognizes and acts through an AT-rich sequence element | | 50.00% |
Motif_620 | DREB1&2 BS in rd29a | Related to responsiveness to drought, low-temperature or high-salt stress; Binding site of DREB1 and DREB2: Binding site of Arabidopsis CBF1(C-repeat/DRE binding factor); Overexpression of DREB1A activated the expression of stress tolerance genes; CBF1 overexpression induces COR genes and enhances freezing tolerance; Heterologous CBF1 expression enhances oxidative stresses tolerance; DRE and ABRE are interdependent in the ABA-responsive expression of the rd29A in Arabidopsis;Improving plant drought, salt, and freezing tolerance by gene transfer of a single stress-inducible transcription factor | | 50.00% |