Basic Information

Insect: Bhutanitis thaidina
Gene Symbol: Trm1_1
Assembly: GCA_029286595.1
Location: JAGSMS010000036.1:2446700-2467171[-]

Transcription Factor Domain

TF Family: NCU-G1
Domain: NCU-G1 domain
PFAM: PF15065
TF Group: Unclassified Structure
Description: NCU-G1 is a set of highly conserved nuclear proteins rich in proline with a molecular weight of approximately 44 kDa. Especially high levels are detected in human prostate, liver and kidney. NCU-G1 is a dual-function family capable of functioning as a transcription factor as well as a nuclear receptor co-activator by stimulating the transcriptional activity of peroxisome proliferator-activated receptor-alpha (PPAR-alpha) [1].
Hmmscan Out: # of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc

1 2 8.5e-16 1.7e-11 43.9 0.0 1 72 564 630 564 637 0.90

2 2 1.2e-70 2.5e-66 224.2 0.2 140 353 632 844 629 844 0.91

#	of	c-Evalue	i-Evalue	score	bias	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	2	8.5e-16	1.7e-11	43.9	0.0	1	72	564	630	564	637	0.90
2	2	1.2e-70	2.5e-66	224.2	0.2	140	353	632	844	629	844	0.91

Sequence Information

Coding Sequence: ATGGAAAAGTCTGCAATGCATGGAAAAGCATTGAAATCAATTAAAGAAGGCCAAGCAGAAATTTGCCTGAAGacagaaaaagtattttataatccAGTACAAGAATTTAATAGAGACCTTAGTATTGCTGTTCTGAGTGTATTCACTGAAGACTACAGAACTGAGAAACTTCTCAGGGCAGCAAAGAAGTTATCACAAACTTCTAGTGTCATTGAAGGAACTAGTGATAATAACGaggTAACAGTGACCATTTTAGAGGCATTATCTGCAACAGGGTTAAGAAGCATTCGCTATGCTAAAGAGGTGCCAAATGTCACTAAAATTATTGCTAATGACCTGTCGGAACAGGCAGTGGAGACAATTAAGGCTaacataattcataataatgtaCAGAATATTATAGAAACAAATCACGATGATGCTTGTATGCTCATGTACAAACACAAGCATCCAATGAAGCGGTTCAGTGCTATAGATTTGGATCCATATGGATGTCCATCAATGTTTTTGGATTCTGCAGTTCAGAGTGTTCAAGATGGCGGCTTGTTGCTTGTCACCGCAACTGACATGGCAGTTTTGGCGGGAAACTCGCCAGAAACTTGCTATTGTAAATATGGTGCTGTTAGTTTGAAGACAAAGTGTTGCCATGAAATGGCGCTAAGAATATTGCTGCAATGCATAGAGCAACATGCCAACAGATACAGCAGGTACATAGTGCCACTGTTGAGCGTATCAGCGGATTTCTACATTCGAGTGTTCGTTAAAATCTACTCTGGCGCCATCCACTGCAAGAAAACCACAAGTAAACTATCCATGGCGTATCAGTGCGTGGGTTGCGATAACATAACCCTGCAGCCACTCGGCGGTTTTAAACCAAATCCCACGGAGAAGAATCCACGCCAGATGAAAGCATATTTACCTGCTGTCCCACCAGTTGGCGAGTTCTGTGTGCATTGTAACCAGAGACATCATCTAGGTGGTCCAATCTGGTCAGCGCCCATACACGACGAAGAGTTTGTATCACGGGTTCTAATCCACGTGCAAGACAAGCCCGAGCTGTTCGGCACTGCGAAGCGCATAGAAGGCGTTTTGTCTATGGTGAGAGAGGAGGTTCAAGATATACCACTCTATTACACCGTAGACAAACTCTTTGGAAGGGTTCATTTGGAGACCATGCCAATGCTGGTTAtgagGTCGGCGATACTAAACGCCGGCTACAAAGTATCATACTCGCACGCATCGAAGCTGTCGATCAAAACCTCTGCGCCGGCGCAGCTCATTTGGGACATAGTACGCACCTGGGAAAAAACACATCCCGTTAAAGCGGCTAAATTGGAAGCGGATCCGGCCGCGAAGCATATACTGAGTCAAGAGGTAAAGAGCGCGGTGGACTTCAGCGAGAGGGCCGACGCAAACCCAACGAGCAGACGCGACGGCCGGCTGCGCTTCCAGTTCAATCCCGCTCCGAACTGGGGGCCCGGCTCCAAGGCTGCCGTCAATGTTGGCGATGAAAAAATATCGAAAGCAataagaaatcaaaataaaaacagcaATAAAGAGCAGCGTGTCGAAAAACGTGGACATTCTCCACAGAGCGACGAGGAAACTCGCAAGAAAGTTTCTTCACAGGCTGACGACACAATCATTTCTAAGCTAAACCCCGGATGTAAGGACTGTGATACCAATAATACCTTGGTTTATGTCAAGGCAGTGGGCCAGACCGATACCATTCATCAAATATGGGATTTCACTCGAGGCATACCTACCATGATCTTTGTAGTGGCAGGACTCAATTCATCCATTGACATTAGCTGGGATGACTTTAGACCATCTGAGTATATAATGTCACAGAAACCGCATTACAGTTTTGCTACAGCTATAGATAAGtTGGACCTCCTCCCCTATAAGGACTACGCTAGCGACCTCCCCCGCCTCATTCATACAGCGAACTCCACGCTGATGGACGTGAGCCTAGTGAATCTCACGACTTCTCGCCACTTCAACTCCTCGCGCTTTGCTGTGCACCTCATCCTCGTCAGCACCGACCCGAGTAACGACACATTGCACAATATCATGAGGAAGAGTTTGGACGACGAACATACGCCGGGCGTGTTTGAGATAGTAGAGATAAAAACGCCGAAGTCCTTCTCCAACGATGACGGTGGCTTCCTTCAGTTCCGGCCCGTCGGCTACACGCAGCGGGACCGCAACGTGGGCAGTTCCACCGTGGCGCACGTCTCCAACTTCAGCTGGATATCACTACCGCAGAGGAGTACGCTGGCGAACTTCTACAGCGTGTTCGATGAAGAGAATCTCCTTGTCCAAGACATGATCGTCTCGTTCGGGGAGCCGGGCGACGGGTTCTACAAGCAGCACAACTTCACCGCCTGGTCTTACACAATCGGGTATGGGTCTCCGCCAATGGAGAGTTTCTCGCTGTTCGTGGTGACGATTATATGCGTCGGGCTCGGCGTGCCCGTGGTGCTGGCGCTGTCGGGGGTGGGGTACGTGGTTCTGAGGAGGTACAGGCAAAGGAAAGCGTCCACGAGGCTAACCAACGAAGATTGA
Protein Sequence: MEKSAMHGKALKSIKEGQAEICLKTEKVFYNPVQEFNRDLSIAVLSVFTEDYRTEKLLRAAKKLSQTSSVIEGTSDNNEVTVTILEALSATGLRSIRYAKEVPNVTKIIANDLSEQAVETIKANIIHNNVQNIIETNHDDACMLMYKHKHPMKRFSAIDLDPYGCPSMFLDSAVQSVQDGGLLLVTATDMAVLAGNSPETCYCKYGAVSLKTKCCHEMALRILLQCIEQHANRYSRYIVPLLSVSADFYIRVFVKIYSGAIHCKKTTSKLSMAYQCVGCDNITLQPLGGFKPNPTEKNPRQMKAYLPAVPPVGEFCVHCNQRHHLGGPIWSAPIHDEEFVSRVLIHVQDKPELFGTAKRIEGVLSMVREEVQDIPLYYTVDKLFGRVHLETMPMLVMRSAILNAGYKVSYSHASKLSIKTSAPAQLIWDIVRTWEKTHPVKAAKLEADPAAKHILSQEVKSAVDFSERADANPTSRRDGRLRFQFNPAPNWGPGSKAAVNVGDEKISKAIRNQNKNSNKEQRVEKRGHSPQSDEETRKKVSSQADDTIISKLNPGCKDCDTNNTLVYVKAVGQTDTIHQIWDFTRGIPTMIFVVAGLNSSIDISWDDFRPSEYIMSQKPHYSFATAIDKLDLLPYKDYASDLPRLIHTANSTLMDVSLVNLTTSRHFNSSRFAVHLILVSTDPSNDTLHNIMRKSLDDEHTPGVFEIVEIKTPKSFSNDDGGFLQFRPVGYTQRDRNVGSSTVAHVSNFSWISLPQRSTLANFYSVFDEENLLVQDMIVSFGEPGDGFYKQHNFTAWSYTIGYGSPPMESFSLFVVTIICVGLGVPVVLALSGVGYVVLRRYRQRKASTRLTNED

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: -
90% Identity: -
80% Identity: -