View conserved binding sites


Gene
GM17G05860
Description
Protein ELF4-LIKE
Alias
Glyma17g05860;Glyma17g05860.1;PAC:26312577;Glyma17g05860.1
Binding siteNameDescriptionLocationPosition
Matrix_181Dof5.7Not availableUpstream-1263
Matrix_184AGL15Not availableDownstream1228
Matrix_2SEP4Not availableUpstream-457
Matrix_215ARF1ARF1, a transcription factor that binds to auxin response elementsUpstream-1271
Matrix_222AGL2DNA binding properties of two Arabidopsis MADS domain proteins: binding consensus and dimer formationUpstream-457
Matrix_250ADAP;AT1G79700;WRI1;ANTNot availableUpstream-1429
Matrix_301PIL5Not availableUpstream-1272
Matrix_310AGL3The Arabidopsis MADS-box gene AGL3 is widely expressed and encodes a sequence-specific DNA-binding proteinUpstream-457
Matrix_358AGL15Binding site selection for the plant MADS domain protein AGL15: an in vitro and in vivo studyUpstream-456
Matrix_407AP1Not availableUpstream-114
Matrix_417SEP4Not availableUpstream-457
Matrix_423AT3G04030Not availableUpstream-1280
Matrix_488ABF1Not availableUpstream-1789
Matrix_491AT1G68670;AT3G25790Not availableUpstream-1280
Matrix_508APL;AT3G12730;AT3G24120;UNE16Not availableUpstream-1280
Matrix_69AT2G03500Not availableUpstream-1280
Motif_1GT1CORECritical for GT-1 binding to box II of rbcS; Transcriptional activation by Arabidopsis GT-1 may be through interaction with TFIIA-TBP-TATA complexUpstream-604
Motif_110AGATCONSENSUSBinding consensus sequence for the product of the Arabidopsis floral homeotic gene AGAMOUS (AG); AG protein contains a region similar to the DNA binding domain of SRF and MCM1; The consensus sequence contains a CArG box; AG protein is a putative transcription factor for floral genes; MADS domain and I region of AGAMOUS are sufficient and necessary for DNA binding; Both the K domain and C region are indispensable for AG function in flower developmentUpstream-455
Motif_115HSEs binding site motifArabidopsis and the heat stress transcription factor world: how many heat stress transcription factors do we need?Downstream467
Motif_116INRNTPSADBInr (initiator) elements found in the tobacco psaDb gene promoter without TATA boxes; Light-responsive transcription of psaDb depends on Inr, but not TATA boxUpstream-1479
Upstream-1257
Upstream-301
Downstream993
Motif_12CEREGLUBOX2PSLEGAcereal glutenin box in pea legumin gene (legA); sequence homologous to the cereal glutenin gene control element (-300 element)Downstream1127
Motif_129GAGAGMGSA1GAGA element found in the promoter of the heme and chlorophyll synthesis gene Gsa1 in soybean; GAGA binding protein (GBP) binds to (GA)n/(CT)n DNAUpstream-1373
Upstream-1371
Upstream-1369
Motif_136SEF4MOTIFGM7SSEF4 binding site; Soybean consensus sequence found in 5'upstream region (-199) of beta-conglycinin (7S globulin) gene (Gmg17.1); Binding with SEF4 (soybean embryo factor 4)Upstream-111
Downstream1024
Motif_155NODCON1GMOne 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 nodulesUpstream-1302
Motif_163BOXCPSAS1Box 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 RE1Downstream1106
Motif_165AP3SV40AP-3 binding site consensus sequence in enhancer regions of SV40, MMTV, MLV, IL2Upstream-122
Motif_168IBOXI box; I-box; Conserved sequence upstream of light-regulated genes; Sequence found in the promoter region of rbcS of tomato and Arabidopsis; I box; Binding site of LeMYB1, that is a member of a novel class of myb-like proteins; LeMYBI act as a transcriptional activator; An evolutionarily conserved protein binding sequence upstream of a plant light-regulated geneDownstream1247
Motif_194EBOXBNNAPAE-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; ICE1Upstream-256
Upstream-116
Downstream1140
Downstream1164
Motif_198CARGATCONSENSUSCArG consensus sequence found in the promoter of Arabidopsis SOC1 which is the MADS-box flowering-time gene; FLC is a component of the vernalization (low-temperature) pathway binds directly to this site and blocks transcriptional activation of SOC1 by CONSTANS (CO)Upstream-453
Motif_221MYBCOREBinding 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 biosynthesisUpstream-773
Upstream-376
Upstream-370
Motif_235C8GCARGATBinding 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-1234
Motif_254MYB46;MYB83MYB46 and MYB83 bind to the SMRE sites and directly activate a suite of transcription factors and secondary wall biosynthetic genesUpstream-488
Motif_258-10PEHVPSBD-10 promoter element found in the barley (H.v.) chloroplast psbD gene promoter; Involved in the expression of the plastid gene psbD which encodes a photosystem II reaction center chlorophyll-binding protein that is activated by blue, white or UV-A lightUpstream-1449
Upstream-1392
Downstream939
Motif_279POLASIG3Plant polyA signal; Consensus sequence for plant polyadenylation signalUpstream-384
Upstream-381
Upstream-360
Upstream-357
Upstream-354
Upstream-351
Upstream-348
Upstream-345
Upstream-342
Upstream-339
Upstream-336
Upstream-333
Motif_286SEBFCONSSTPR10ABinding 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 elementUpstream-1249
Upstream-593
Upstream-262
Motif_309GATA promoter motifArabidopsis thaliana GATA factors: organisation, expression and DNA-binding characteristicsDownstream1215
Downstream1246
Motif_321TATABOX5TATA box; TATA box found in the 5'upstream region of pea (Pisum sativum) glutamine synthetase gene; a functional TATA element by in vivo analysisUpstream-361
Motif_342POLASIG1PolyA 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 ArabidopsisDownstream937
Motif_348WBBOXPCWRKY1WB 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 ArabidopsisDownstream1267
Motif_365ARF1 binding site motifARF (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 factorsUpstream-1248
Upstream-592
Upstream-261
Motif_382CATATGGMSAURSequence found in NDE element in soybean SAUR (Small Auxin-Up RNA) 15A gene promoter; Involved in auxin responsivenessDownstream1140
Motif_383UPRE-III(bZIP60)The plant-specific transcription factor NAC103 is induced by bZIP60 through a new cis-regulatory element to modulate the unfolded protein response in ArabidopsisDownstream1253
Motif_410ANAERO1CONSENSUSOne of 16 motifs found in silico in promoters of 13 anaerobic genes involved in the fermentative pathway (anaerobic set 1); Arbitrary named ANAERO1CONSENSUS by the PLACEdb curatorUpstream-636
Motif_422SP8BFIBSP8BIBOne of SPBF binding site (SP8b); Found at -330, -220, and -200 of gSPO-B1 (sporamin) gene, and also at -80 of gB-Amy (beta-amylase) gene; SP8BF recognizes both SP8a and SP8b sequences; See also SP8BFIBSP8AIB; SP8BF activity is also found in tobacco; SP8b found in the 5' upstream region of three differnt genes coding for sporamin and beta-amylase; Binding site of SPF1; SPF1 also binds to the SP8bUpstream-1644
Downstream583
Motif_437ANAERO2CONSENSUSOne of 16 motifs found in silico in promoters of 13 anaerobic genes involved in the fermentative pathway (anaerobic set 1)Upstream-795
Downstream1176
Motif_441GAGA8HVBKN3GA octodinucleotide repeat found in intron IV of the barley gene Bkn3; Binding site for GAGA-binding factor BBRUpstream-1373
Upstream-1371
Upstream-1369
Upstream-1367
Motif_455AG binding site motifNucleotide sequences recognized by the AGAMOUS MADS domain of Arabidopsis thaliana in vitroUpstream-454
Motif_459SORLIP1Identification of key promoter motifs involved in the network of light-regulated gene expression by combined analysis of genomic sequence and microarray dataUpstream-523
Motif_502MYB98The MYB98 subcircuit of the synergid gene regulatory network includes genes directly and indirectly regulated by MYB98Upstream-768
Downstream592
Motif_503EECCRCAH1EEC; 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 LCR1Upstream-1219
Upstream-502
Motif_51MYB46Identification of a cis-acting regulatory motif recognized by MYB46, a master transcriptional regulator of secondary wall biosynthesisUpstream-488
Motif_530CPBCSPORThe sequence critical for Cytokinin-enhanced Protein Binding in vitro, found in -490 to -340 of the promoter of the cucumber POR (NADPH-protochlorophyllide reductase) geneDownstream581
Motif_563PYRIMIDINEBOXOSRAMY1APyrimidine 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 siteUpstream-461
Upstream-453
Motif_570POLASIG2PolyA signal; poly A signal found in rice alpha-amylase; -10 to -30 in the case of animal genesUpstream-761
Motif_584UPRE-III(bZIP60)The plant-specific transcription factor NAC103 is induced by bZIP60 through a new cis-regulatory element to modulate the unfolded protein response in ArabidopsisDownstream1253
Motif_585ATB2/AtbZIP53/AtbZIP44/GBF5 BS in ProDHPRE (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 ArabidopsisUpstream-294
Motif_606NAPINMOTIFBNSequence found in 5' upstream region (-6, -95, -188) of napin (2S albumin) gene in Brassica napus; Interact with a protein present in crude nuclear extracts from developing B. napus seedsUpstream-183
Motif_609AP2The floral homeotic protein APETALA2 recognizes and acts through an AT-rich sequence elementUpstream-636
Motif_624ATHB6 binding site motifConsensus binding sequence for Arabidopsis homeodomain-leucine zipper protein, ATHB6; ATHB6 is a target of the protein phosphatase ABI1 and regulates hormone responses; Homeodomain protein ATHB6 is a target of the protein phosphatase ABI1 and regulates hormone responses in ArabidopsisUpstream-334
Motif_630WBOXNTCHN48W 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 tobaccoUpstream-45
Motif_653INTRONLOWER3' intron-exon splice junctions; Plant intron lower sequence; Consensus sequence for plant intronsUpstream-193
Upstream-58
Motif_658GT1CONSENSUSConsensus 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 expressionUpstream-1218
Upstream-784
Upstream-628
Upstream-541
Upstream-481
Upstream-445
Upstream-430
Upstream-429
Upstream-303
Upstream-302
Upstream-12
Motif_668TCA1MOTIFTCA-1 (tobacco nuclear protein 1) binding site; Related to salicylic acid-inducible expression of many genes; Found in barley beta-1,3-glucanase and over 30 different plant genes which are known to be induced by one or more forms of stress; A similar sequence (TCATTTCTT) was found in tobacco Tnt1 retrotransposon promoterUpstream-79
Motif_672AP2The floral homeotic protein APETALA2 recognizes and acts through an AT-rich sequence elementUpstream-636
Motif_682GT1GMSCAM4GT-1 motif found in the promoter of soybean CaM isoform, SCaM-4; Plays a role in pathogen- and salt-induced SCaM-4 gene expressionUpstream-628
Upstream-541
Upstream-430
Upstream-12
Motif_69CTRMCAMV35SCT-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 GAGAUpstream-1373
Upstream-1371
Upstream-1369
Upstream-1367
Upstream-1365
Upstream-1363
Upstream-1361
Upstream-1359
Motif_85SORLIP5ATone of Sequences Over-Represented in Light-Induced Promoters (SORLIPs) in Arabidopsis; Computationally identified phyA-induced motifs; Over-represented in both light-induced cotyledon-specific and root-specific genes; Identification of key promoter motifs involved in the network of light-regulated gene expression by combined analysis of genomic sequence and microarray dataUpstream-1478