PlantTFDB
PlantRegMap/PlantTFDB v5.0
Plant Transcription Factor Database
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(e.g., LFY)
Transcription Factor Information
Basic Information | Signature Domain | Sequence | 
Basic Information? help Back to Top
TF ID EMT08088
Organism
Aegilops tauschii
Taxonomic ID
Taxonomic Lineage
cellular organisms; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Embryophyta; Tracheophyta; Euphyllophyta; Spermatophyta; Magnoliophyta; Mesangiospermae; Liliopsida; Petrosaviidae; commelinids; Poales; Poaceae; BOP clade; Pooideae; Triticodae; Triticeae; Triticinae; Aegilops
Family bHLH
Protein Properties Length: 118aa    MW: 13495.6 Da    PI: 6.3847
Description bHLH family protein
Gene Model
Gene Model ID Type Source Coding Sequence
EMT08088genomeBGIView CDS
Signature Domain? help Back to Top
Signature Domain
No. Domain Score E-value Start End HMM Start HMM End
1HLH37.25.2e-12249454
              HHHHHHHHHHHHHHHHHHHHHCTSCCC...TTS-STCHHHHHHHHHHHHHH CS
       HLH  4 ahnerErrRRdriNsafeeLrellPkaskapskKlsKaeiLekAveYIksL 54
              +h ++Er+RR+++N+ +  Lr l P     + k+ + a+i   A+e+I++L
  EMT08088  2 SHIAVERNRRRQMNDHLKVLRALTPAF---YIKRCDQASIIGGAIEFIREL 49
              89************************9...9******************99 PP
Protein Features ? help Back to Top
3D Structure
Database Entry ID E-value Start End InterPro ID Description
CDDcd000832.15E-10154No hitNo description
PROSITE profilePS5088814.583149IPR011598Myc-type, basic helix-loop-helix (bHLH) domain
SuperFamilySSF474591.83E-13156IPR011598Myc-type, basic helix-loop-helix (bHLH) domain
PfamPF000102.8E-9249IPR011598Myc-type, basic helix-loop-helix (bHLH) domain
Gene3DG3DSA:4.10.280.101.3E-11251IPR011598Myc-type, basic helix-loop-helix (bHLH) domain
SMARTSM003536.3E-8455IPR011598Myc-type, basic helix-loop-helix (bHLH) domain
Gene Ontology ? help Back to Top
GO Term GO Category GO Description
GO:0006355Biological Processregulation of transcription, DNA-templated
GO:0010374Biological Processstomatal complex development
GO:0005634Cellular Componentnucleus
GO:0003700Molecular Functiontranscription factor activity, sequence-specific DNA binding
GO:0046983Molecular Functionprotein dimerization activity
Sequence ? help Back to Top
Protein Sequence    Length: 118 aa     Download sequence    Send to blast
MSHIAVERNR RRQMNDHLKV LRALTPAFYI KRCDQASIIG GAIEFIRELH TAARIVALLE  60
SLHLEVLHVN ISTMDDTALH SFVLKIGLEC QLSVEDVAFE VQQTFCYHQE LDYSSMAI
Functional Description ? help Back to Top
Source Description
UniProtTranscription factor. Together with FMA and SPCH, regulates the stomata formation. Required for the differentiation of stomatal guard cells, by promoting successive asymmetric cell divisions and the formation of guard mother cells. Promotes the conversion of the leaf epidermis into stomata. {ECO:0000269|PubMed:17183265, ECO:0000269|PubMed:17183267}.
Regulation -- Description ? help Back to Top
Source Description
UniProtINDUCTION: By UV, flagellin, and jasmonic acid (JA) treatments. {ECO:0000269|PubMed:12679534}.
Regulation -- PlantRegMap ? help Back to Top
Source Upstream Regulator Target Gene
PlantRegMapRetrieve-
Annotation -- Protein ? help Back to Top
Source Hit ID E-value Description
RefseqXP_020201103.11e-40transcription factor MUTE-like
SwissprotQ9M8K62e-24MUTE_ARATH; Transcription factor MUTE
TrEMBLM8BYR34e-81M8BYR3_AEGTA; Transcription factor MUTE
STRINGEMT080886e-82(Aegilops tauschii)
Orthologous Group ? help Back to Top
LineageOrthologous Group IDTaxa NumberGene Number
MonocotsOGMP111443441
Best hit in Arabidopsis thaliana ? help Back to Top
Hit ID E-value Description
AT3G06120.13e-26bHLH family protein
Publications ? help Back to Top
  1. Casson S,Gray JE
    Influence of environmental factors on stomatal development.
    New Phytol., 2008. 178(1): p. 9-23
    [PMID:18266617]
  2. Skinner MK,Rawls A,Wilson-Rawls J,Roalson EH
    Basic helix-loop-helix transcription factor gene family phylogenetics and nomenclature.
    Differentiation, 2010. 80(1): p. 1-8
    [PMID:20219281]
  3. Balcerowicz M,Ranjan A,Rupprecht L,Fiene G,Hoecker U
    Auxin represses stomatal development in dark-grown seedlings via Aux/IAA proteins.
    Development, 2014. 141(16): p. 3165-76
    [PMID:25063454]
  4. de Marcos A, et al.
    Transcriptional profiles of Arabidopsis stomataless mutants reveal developmental and physiological features of life in the absence of stomata.
    Front Plant Sci, 2015. 6: p. 456
    [PMID:26157447]
  5. Mahoney AK, et al.
    Functional analysis of the Arabidopsis thaliana MUTE promoter reveals a regulatory region sufficient for stomatal-lineage expression.
    Planta, 2016. 243(4): p. 987-98
    [PMID:26748914]
  6. Klermund C, et al.
    LLM-Domain B-GATA Transcription Factors Promote Stomatal Development Downstream of Light Signaling Pathways in Arabidopsis thaliana Hypocotyls.
    Plant Cell, 2016. 28(3): p. 646-60
    [PMID:26917680]
  7. Fu ZW,Wang YL,Lu YT,Yuan TT
    Nitric oxide is involved in stomatal development by modulating the expression of stomatal regulator genes in Arabidopsis.
    Plant Sci., 2016. 252: p. 282-289
    [PMID:27717464]
  8. Qi X, et al.
    Autocrine regulation of stomatal differentiation potential by EPF1 and ERECTA-LIKE1 ligand-receptor signaling.
    Elife, 2018.
    [PMID:28266915]
  9. Raissig MT, et al.
    Mobile MUTE specifies subsidiary cells to build physiologically improved grass stomata.
    Science, 2017. 355(6330): p. 1215-1218
    [PMID:28302860]
  10. Lee JH,Jung JH,Park CM
    Light Inhibits COP1-Mediated Degradation of ICE Transcription Factors to Induce Stomatal Development in Arabidopsis.
    Plant Cell, 2017. 29(11): p. 2817-2830
    [PMID:29070509]
  11. Han SK, et al.
    MUTE Directly Orchestrates Cell-State Switch and the Single Symmetric Division to Create Stomata.
    Dev. Cell, 2018. 45(3): p. 303-315.e5
    [PMID:29738710]