PlantTFDB - Plant Transcription Factor Database @ CBI, PKU

PlantRegMap/PlantTFDB v5.0

Plant Transcription Factor Database

Transcription Factor Information

Basic Information | Signature Domain | Sequence |

Basic Information? help Back to Top

TF ID

Sof018935

Organism

Saccharum officinarum

Taxonomic ID

4547

Taxonomic Lineage

cellular organisms; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Embryophyta; Tracheophyta; Euphyllophyta; Spermatophyta; Magnoliophyta; Mesangiospermae; Liliopsida; Petrosaviidae; commelinids; Poales; Poaceae; PACMAD clade; Panicoideae; Andropogonodae; Andropogoneae; Saccharinae; Saccharum; Saccharum officinarum complex

Family

ERF

Protein Properties

Length: 149aa MW: 16178.1 Da PI: 10.7643

Description

ERF family protein

Gene Model

Gene Model ID	Type	Source	Coding Sequence
PUT-157a-Saccharum_officinarum-45357	PU_ref	plantGDB	View CDS

Signature Domain? help Back to Top

No.	Domain	Score	E-value	Start	End	HMM Start	HMM End
1	AP2	57.7	2.9e-18	54	106	1	55
AP2 1 sgykGVrwdkkrgrWvAeIrdpseng.krkrfslgkfgtaeeAakaaiaarkkleg 55 + ++GVr++ + grWv+e+r+p g + r +lg+f+tae Aa+a++aa++++ g Sof018935 54 PVFRGVRRRGNAGRWVCEVRVP---GrRGCRLWLGTFDTAEAAARAHDAAMLAIAG 106 579****************9...6445********************98765 PP

Protein Features ? help Back to Top

Database	Entry ID	E-value	Start	End	InterPro ID	Description
Pfam	PF00847	4.8E-14	54	106	IPR001471	AP2/ERF domain
SuperFamily	SSF54171	3.33E-19	55	116	IPR016177	DNA-binding domain
Gene3D	G3DSA:3.30.730.10	1.9E-28	55	116	IPR001471	AP2/ERF domain
SMART	SM00380	1.2E-18	55	120	IPR001471	AP2/ERF domain
PROSITE profile	PS51032	20.982	55	114	IPR001471	AP2/ERF domain
PRINTS	PR00367	2.0E-5	56	67	IPR001471	AP2/ERF domain
PRINTS	PR00367	2.0E-5	80	96	IPR001471	AP2/ERF domain

Gene Ontology ? help Back to Top
GO Term	GO Category	GO Description
GO:0006355	Biological Process	regulation of transcription, DNA-templated
GO:0003677	Molecular Function	DNA binding
GO:0003700	Molecular Function	transcription factor activity, sequence-specific DNA binding

Sequence ? help Back to Top
Protein Sequence Length: 149 aa Download sequence Send to blast
MCPIKKEMSA ESSASASSWP LSSPSTSSEH HQTVWTSPPK RPAGRTKFRE TRHPVFRGVR 60 RRGNAGRWVC EVRVPGRRGC RLWLGTFDTA EAAARAHDAA MLAIAGAGAC LNFADSAWLL 120 TVPASYASLA EVRHAVAEAV GDFFQRHGX

Expression -- UniGene ? help Back to Top
UniGene ID	E-value	Expressed in
Sof.6771	1e-144	crown\| leaf\| meristem\| stem

Functional Description ? help Back to Top
Source	Description
UniProt	Transcriptional activator that binds specifically to the DNA sequence 5'-[AG]CCGAC-3'. Binding to the C-repeat/DRE element mediates high salinity- and dehydration-inducible transcription. Confers resistance to high salt, cold and drought stress (By similarity). {ECO:0000250}.
UniProt	Transcriptional activator that binds specifically to the DNA sequence 5'-[AG]CCGAC-3'. Binding to the C-repeat/DRE element mediates high salinity- and dehydration-inducible transcription. Confers resistance to high salt, cold and drought stress. {ECO:0000269\|PubMed:12609047, ECO:0000269\|PubMed:16284406}.

Regulation -- Description ? help Back to Top
Source	Description
UniProt	INDUCTION: By high-salt and cold stress. {ECO:0000269\|PubMed:12609047}.

Annotation -- Protein ? help Back to Top
Source	Hit ID	E-value	Description
Refseq	XP_025799274.1	9e-86	dehydration-responsive element-binding protein 1A-like
Swissprot	A2Z389	9e-72	DRE1A_ORYSI; Dehydration-responsive element-binding protein 1A
Swissprot	Q64MA1	9e-72	DRE1A_ORYSJ; Dehydration-responsive element-binding protein 1A
TrEMBL	A0A3L6QRI4	5e-86	A0A3L6QRI4_PANMI; Dehydration-responsive element-binding protein 1A-like
STRING	Pavir.Ba01280.1.p	1e-85	(Panicum virgatum)

Best hit in Arabidopsis thaliana ? help Back to Top
Hit ID	E-value	Description
AT4G25470.1	6e-30	C-repeat/DRE binding factor 2

Publications ? help Back to Top
Kikuchi S, et al. Collection, mapping, and annotation of over 28,000 cDNA clones from japonica rice. Science, 2003. 301(5631): p. 376-9 [PMID:12869764] Oh SJ,Kwon CW,Choi DW,Song SI,Kim JK Expression of barley HvCBF4 enhances tolerance to abiotic stress in transgenic rice. Plant Biotechnol. J., 2007. 5(5): p. 646-56 [PMID:17614953] Xiao BZ, et al. Evaluation of seven function-known candidate genes for their effects on improving drought resistance of transgenic rice under field conditions. Mol Plant, 2009. 2(1): p. 73-83 [PMID:19529831] Mito T,Seki M,Shinozaki K,Ohme-Takagi M,Matsui K Generation of chimeric repressors that confer salt tolerance in Arabidopsis and rice. Plant Biotechnol. J., 2011. 9(7): p. 736-46 [PMID:21114612] Sun H, et al. ENAC1, a NAC transcription factor, is an early and transient response regulator induced by abiotic stress in rice (Oryza sativa L.). Mol. Biotechnol., 2012. 52(2): p. 101-10 [PMID:22161313] Huang J, et al. A TFIIIA-type zinc finger protein confers multiple abiotic stress tolerances in transgenic rice (Oryza sativa L.). Plant Mol. Biol., 2012. 80(3): p. 337-50 [PMID:22930448] Lourenço T, et al. Isolation and characterization of rice (Oryza sativa L.) E3-ubiquitin ligase OsHOS1 gene in the modulation of cold stress response. Plant Mol. Biol., 2013. 83(4-5): p. 351-63 [PMID:23780733] Chen X, et al. The NAC family transcription factor OsNAP confers abiotic stress response through the ABA pathway. Plant Cell Physiol., 2014. 55(3): p. 604-19 [PMID:24399239] Wang ST, et al. MicroRNA319 positively regulates cold tolerance by targeting OsPCF6 and OsTCP21 in rice (Oryza sativa L.). PLoS ONE, 2014. 9(3): p. e91357 [PMID:24667308] Chen M,Zhao Y,Zhuo C,Lu S,Guo Z Overexpression of a NF-YC transcription factor from bermudagrass confers tolerance to drought and salinity in transgenic rice. Plant Biotechnol. J., 2015. 13(4): p. 482-91 [PMID:25283804] Paul S,Gayen D,Datta SK,Datta K Dissecting root proteome of transgenic rice cultivars unravels metabolic alterations and accumulation of novel stress responsive proteins under drought stress. Plant Sci., 2015. 234: p. 133-43 [PMID:25804816] Challam C,Ghosh T,Rai M,Tyagi W Allele mining across DREB1A and DREB1B in diverse rice genotypes suggest a highly conserved pathway inducible by low temperature. J. Genet., 2015. 94(2): p. 231-8 [PMID:26174670] Kan CC,Chung TY,Juo YA,Hsieh MH Glutamine rapidly induces the expression of key transcription factor genes involved in nitrogen and stress responses in rice roots. BMC Genomics, 2015. 16(1): p. 731 [PMID:26407850] Min HJ,Jung YJ,Kang BG,Kim WT CaPUB1, a Hot Pepper U-box E3 Ubiquitin Ligase, Confers Enhanced Cold Stress Tolerance and Decreased Drought Stress Tolerance in Transgenic Rice (Oryza sativa L.). Mol. Cells, 2016. 39(3): p. 250-7 [PMID:26674966] Kakar KU, et al. A consortium of rhizobacterial strains and biochemical growth elicitors improve cold and drought stress tolerance in rice (Oryza sativa L.). Plant Biol (Stuttg), 2016. 18(3): p. 471-83 [PMID:26681628] Huo C, et al. Comparative Study of Early Cold-Regulated Proteins by Two-Dimensional Difference Gel Electrophoresis Reveals a Key Role for Phospholipase Dα1 in Mediating Cold Acclimation Signaling Pathway in Rice. Mol. Cell Proteomics, 2016. 15(4): p. 1397-411 [PMID:26747563] Dou M,Cheng S,Zhao B,Xuan Y,Shao M The Indeterminate Domain Protein ROC1 Regulates Chilling Tolerance via Activation of DREB1B/CBF1 in Rice. Int J Mol Sci, 2016. 17(3): p. 233 [PMID:26927068] Kudo M, et al. Double overexpression of DREB and PIF transcription factors improves drought stress tolerance and cell elongation in transgenic plants. Plant Biotechnol. J., 2017. 15(4): p. 458-471 [PMID:27683092] He X, et al. A rice jacalin-related mannose-binding lectin gene, OsJRL, enhances Escherichia coli viability under high salinity stress and improves salinity tolerance of rice. Plant Biol (Stuttg), 2017. 19(2): p. 257-267 [PMID:27718311]