Basic Information

Insect: Drosophila oshimai
Gene Symbol: WDFY3
Assembly: GCA_018150695.1
Location: JAECWM010000061.1:271692-323226[-]

Transcription Factor Domain

TF Family: RXR-like
Domain: zf-C4|RXR-like
PFAM: AnimalTFDB
TF Group: Zinc-Coordinating Group
Description: DNA-binding domain of retinoid X receptor (RXR) is composed of two C4-type zinc fingers. Each zinc finger contains a group of four Cys residues which co-ordinates a single zinc atom. RXR functions as a DNA binding partner by forming heterodimers with other nuclear receptors including CAR, FXR, LXR, PPAR, PXR, RAR, TR, and VDR. All RXR heterodimers preferentially bind response elements composed of direct repeats of two AGGTCA sites with a 1-5 bp spacer. RXRs can play different roles in these heterodimers. RXR acts either as a structural component of the heterodimer complex, required for DNA binding but not acting as a receptor, or as both a structural and a functional component of the heterodimer, allowing 9-cis RA to signal through the corresponding heterodimer. In addition, RXR can also form homodimers, functioning as a receptor for 9-cis RA, independently of other nuclear receptors. Like other members of the nuclear receptor (NR) superfamily of ligand-activated transcription factors, RXR has a central well conserved DNA binding domain (DBD), a variable N-terminal domain, a flexible hinge and a C-terminal ligand binding domain (LBD). [cite:PUB00121610], [cite:PUB00121611], [cite:PUB00121612], [cite:PUB00025660], [cite:PUB00121613], [cite:PUB00092048], [cite:PUB00092725], [cite:PUB00092726], [cite:PUB00016724], [cite:PUB00059514PMID:18971932
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 1 5.4e-55 1.3e-51 175.2 2.4 2 199 3720 3909 3719 3911 0.92

#	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	1	5.4e-55	1.3e-51	175.2	2.4	2	199	3720	3909	3719	3911	0.92

Sequence Information

Coding Sequence: ATGACTGCCGCTTCGGTTCCCTCGACTCTGGTGAAGTGCTTGTATTTGTTCTTTGACCTGCCCATAGTTGAGGACGATGAGCCGGCAGCCGACGGAGGGACAGCAAGTGAATTTAACGCCCACGAGCGGCGCACGCTCCTTCAAAAAGTGTTTGTACAACTACTGGTGAAGCTGTGCTCGTACCCTTATCCCGCCGAGGAGCTTGCTCGTATGGACGACCTGACGTTGCTCTTCTCCGCCATCACGTCGCCTTGTCCCATTCACAATATTATGTGGCGCAAGAACGCGGCCGAGATCCTGACCACAATATCGAGAAACGGCCTGACCGATTCTGTCGTTAGCTACATACATTCCAAGGGTTGCATGGCGCTCTGCGTGGACAACATGCAACGCCTTACTTTTGGGAATCCGCTGGAAATCGTCGAAATGTTCGTAACCGTGTTCTGCTTTCTCAAGGACTCTAGTCAGGTATCCCAGATACTAATGGACGACTTCCGCGCCTCCCAGGGTTACGTCTTTCTCAGTGACTTTCTATTAAAGTTTGACAACAACCGTAGCCAATCGTTGGAGATTCAAGCGGCAATCCGCAACCTGGTACTCATGATCTCTTCGTTGTGCATGTGCGGCTTCTATGAACTGCGACCGCCAGCTTCGCAGTTCAATACGGCGTTCAAGCTGCAGAACTTCCAGCTGCCTCAGGCCACCTCCCGAGAGACGTGCGTGAGAAATGTTTACGCCTTTCAGGTGTTGCAGAACGTGTTCCTTAAGTCCACAACGCCAGCGCTGTGCTGCACCATACTGGACGCGATTTCAAGGGTGTACCACTCCGAGAACGCCAACTACTTCATCCTAGAGTCGGAGCACACGCTTAGTTTGTTCGCAGAGCGCATCCACCTTAAAGGTCCTCAGATACAGGAAAAGTTCTTCGACCTCTTGGAATTTATTGTCTTTCAGCTGAACTTCGTGCCCTGCAAGGAGCTAATCAGTCTGTCGCTTCTGCTCAAGCACAACCAGTCTACGCCTTGCAGCATCCTCTGCCTGAAAACGCTGCTAAACATTCTACGGCACAACGCTGTTTTTAAAGACGTCTACCGCGAAGTGGGTATCCTGGAAATCTTCGTCGGATGCCTAACGCGCTACGCATCCCATGTGCTACAGATAACCGAGGGCGATGAATCGCTGGTGGTGGATATAAAGGACGACAAGGATGAAGATCTGCTTGACACGCTGGGCAAACACGTCTTGGAGGCGCTTACGATGCTTCTGGGCGGTGGTGCCAGCAACAATGCTCAGCTCTTTCGTGAGTACAGTGGCGCCAAGTGCGTGCATGAGCTGGTAAAGTTCAAGCACTGTCGGCCTCAGGCTCTTGGTATCGTGCGGGAACTTATTCTGTCTGCCGGGGGAGACGACGACATGCTGCACATACTCTCACTTATGCACAGCGTCAGCCCGTCACAGGTGGAATTCAAGATTCAGATACTCAACATGCTTCTCGGCTGCCTAAAGGACTCTCACCGCACACGGACCGTTTTCCGCAAAGTGGGCGGCTTTGTTTACGTCACCAGCGTCTTCGTTTCCCTGGACGGCAGCATGGCAAACCCGCAACCGGGGATTCCACAACAGGATCTCATACTTCTGCTGCAAATAGTCTTCCAAACCCTGGCCACAGCCATGAGATTTGAACCGGCCAACGCCAAGTTTTTTCACCAAGAAATCAGTAGCAGCTCACTGTGCGACACTCTACGTCTGCTGGGATGCTTTGGGGGATCCTCTGCTCTGCAGGACTTTACCGGAGTCTACGACCCGCAGCAGTCGCTGCTTAAGTATTACCATGAGATTTTCAGCGGGGACATTCTGAGCGTCAGTTTTTCTGAGGACATCCCCTACCCGTTGTCCTACGTTTGCGTCGTTTTTCGGCTGCTCTACAGTATTGCGCTGGACAACTTTGAGGCTCCAAACCTGAGTGGCATCATCACGCTTGTCAGCGATCCACCGACACTTTCGCGATCGCCAAGCAAGGAGCTTGCGGCGCCTGTGCATCCCAGTCAGTTGAATCTCACGCAGCCCAGTCCCGAACCGCGGATCGTTCATCCTGGAGTGGTATTGTGCATGCTTCAGCTTCTACCCGCCGTAGAGTGTGATTCAGCTCCTCTACACGCGGTGCAGCTGCAGGTATACCTCAGCGAAGTCATCAAGTCATTAGTGCGGAGCGAGCGAAACCAGCAAATCATGTGCGACCACGGACTGGCGGAGAAACTACTAAAGCTGACACGGCAAGCGCTGGCGGAGGAGTCACATCCACTGCACGTGCCCATGCAGTACATTCTGGAGCGTCTGGCCGCGCAGGCTTTGCAGCCTACTGAGCTGCGCCAGTTCCTGCGCTTGGGCGAGCCACTCTCATGTGCGGATATAAATCTCCAGCAGCCATACAGGTTGGGCGGACCCGTTCCGTTAACTCGTATCAAGACATTGGTGTCCATGACAACGCCGCGCGACTTCCGTGCTCACGGCTCAAGCACGTTGCCTCCGTTCGTTGAGCTGGACATGTCTGCCGAGGGTTTCGGCTGCCTCTACCTGCCCTCCCTGGCGCCCCAGGCGACGGCCACGGCCGGCGGAACCATCGATGCAAACACCATCGGCGGCATCGGAGCCGGAGATCGCATCTTTCCGCCACCGACAGGCCTTACATACTCGACTTGGTTCTGTGTTGAGAAGTTCTCAGATCCCAAAACGGACCCACACTGTGTCCGGCTTCTTACCTTGGTGCGGACTATTCACAATCCGCGTGAGGAAAACCTGGCATGTTTATCTATTTTGCTTTCCGCGAGGGACAAGGCCATCGTCGTGTCCACTCAGGAAACTCTGGTCACGCCTAGAAAAAGTATTGGTGATTGGGAACCAGAGGGATCGGACGATGGCATTGCTCGCATCTGGTGTCCCGATCTTTTGCACGAGGGTCAGTGGCATAACCTGGTCGTTGTGCTTAACCGGGCCGTGCTTAAAAATTCCAGCTTGTTTCTCTATTTGGACGGGGTGCCCATGCACACTCAGAAGCTTCACTACATTGCCCAGCATCCGGCAGCAGGTAACACAAGCTTGACGTCAGCCACTCAAGTTTTTGGATATATCGGTACGCCACCAATTTGGCGTCGCTATTCTCGTCTGTGTTGGAAGCAAGGCGTGTGCCATCTCATCGAAGATGTACTTACCCAACAGACTGTTCAGACCATCTACCAACTGGGACCCCACTACATGGGCTCGCTGCAGGCTCCACAGTTGGGTAAGCAGACGGATTCGTTAGCGCCGTTGGTGCCCGAAGACCGTGTCCTCCTGGGCCTAAACGCTAAAGCGGTGTCCAAATTGACACTGGTAAAAATACGCAAAGTCTACAGCCGTGCGGACAACAAAAGCATTGCAAAGCAGCTGAATATGAACTCGCATGAGAATGCCACTCCTATCAAAATTTTGCACAACTCCGCAGGACATCTGGCGGGGGCAGGACGCTCCCTTGGCGGAGTGGTCGTCGGATATCTTGGAGTAAGAGTGTTCAGTCCCCATCCTGTATCGGCAATGATCGATACTGTGGGCGGCTGCAACGTGCTCCTTGGCATCATCGCCATGGCGCAAGACGTAGAGTCTTTATACGCAGGAGTCAAGGCTCTAACATGCGTGGTAAGAAGCAATCGTGCCGCCCAGGCCGAGATGGACAGAAAACGCTGCTACCAGACTTTGGGAATGTTTTTTAAGAAAAAAAAACACCTGCTGAACTCACACATCCTGCACTTGACCTTCGGTCTGGTGGGCACTGTGAATAGCGGTCAGGACACGTCAGCCATTCCAAACGTGACGGCTTTTCAGGATCTGCTGTGTGACCTGGAGATCTGGCACAATGCTCCGAACGGCCTACTGCGATCCTTGCTGGAGCACTTGCTGGAGTTGGTGGTGGAGTCCAGTGACAAGAAGCAGAACGTGAAGATCATGCGGGATCTGCAGTTGCTCGTCAAACTGCTGCACATTATAACCCAAATTCAAGACCATTCCACGCGTGAGATCCTTTTCAGTCTGCTGGAGACATTGCTAGGTGGACAGCCGCGGCACACAGATCTTTTGTTGTACGGCCAGTATGTAGCGGCCAAGCTTCCACAGGCTCATAACGGAGGCTTGGAGCGGGCCGTACTCCTACCCAGCATGAAGAATCCTGGCGAAGACCAGGATGGCGGCGTGGCCCAGAACATCTACCTGCGCAACCGGTGCCTCTCGCTTCTCCACGGACTACTCTTCACGCCCCGTAACACCGTGAATTACGTTATCTGCGACGACATTTCGAAGACCCTAGGCATGGACTGGCTGCTTCTCTTCATGCAGCCGCACGTCCACTTCACCACTGTCATCATTGCGGTGCGAATTATGGTCGTCGTCTGTGCCAACGAAAGTTTTCTTGTTCGCTTCCGGGATGCCACCCACAATGGCGGTTACCTGCGTTTTACGGAGATGGTGTCACAGCGGAAGATGCTGGGCCTTGGTGCCCAGCAGCTTAACCAGCGTCCGACCAACGGCACTGGCACAGTCATTGTAGCTACCCCACAGAACACTATACAGCATCTGCCCACCCAGATCGCAGGCGAGGTGCGCGCAGCGGCATTGAATATACCGGGTTTCCAGCTCCTTGAATGGCTGATGTACCACCACCTGGACGTACCGGAGCTGTATTTCTTGGTGACCGCCCTAATAATGGGACAGCCCGTTAAGGTGCTGGCTACTGAGCACACCAAGTTCGACCTTGATCGTGTCTGGTCGTTCCTCTGGGGCGCCCCAGTCTCTGCTAACACGCAGCTGCCCAAGCTAAATGTTTGCCCCGAAGGCGTGTGCGTCCTTCTGGCTATGGTGCGGGGAATCGTTCACGGCGGCGAATGCGCCCCCTGGCTGCACAACCATCCGGAGACAATCATCCAGCTCCTGTTCAGCCTGTACCAAAATCTCAGTGACTTTGCGCCAGTAATGATGGCCGGCGATGTGATCAACTCACTAGTGGCCGTACTGTTTCCTTTGGCGGCGCGCCCTGTCGACTCTGAGCCGAACAGTGGTGCCTCCACACCCACAGACTGCACGGGGAGCAGTTTTGCTTTGCCGCCACCGGAGACGCTGCACGAAGCCCCTCAGCCCAAGCTTACCACTCATCCGGTGTGCAACTGCATTATCGACTTCCTCCGCGTCATCGTCGTAGACTCTCTCGGCCTTAACATGCAGGGCAAGCTCACATCTGTGGTCGATCTCGTGCTGGACGCAGCACCCGACTCGGCGGAGCTACCGCTTCAGGTGCAGTACCAGACACAAATCATTATCGCCCTCATGGATCACCTGCTGGCCGCTGACGTGCTTGTCGGCGAGCAGGCGGCCCTGCCTCTGGTGCCCCTACTGCAGAGCCAAATGCAGCACATCGCCCCGAACGTTTTCTACCTTACCGCCCGCATCGTGGATAAGCTGTGGCAGGGTTGCCTCGCCCGTAATCCGCATGACATTTTCGACTTTGTCATTAAGCTGATCGTACAGGCCAAAAGGCGTCCCTCGTCGCTGTCGCTGGAACACCTGCACCACTCGCTGAACCGCAGCATCCTCTTTCTGCTCTCCCGCCCCACCGACGACTCGCGGGCTGACCAGATGAGTGTGCTGGAGGCTCTGCACAAGATCATCCAGCACCGCCTGTTGATCTTCGGAGCGGGCAACCACGAGCTGGAGTTCATCGGATGCCTTACCTATTGCCTCCTGCAACTGACTGCCGACATGAAAATAATCCTGGAGCCGGCCACCAGTCGTAATACAACTTGGCACGTAAATCCCCAAACGGAGACGGTAGAGCCAAAGGACGAAGATTTAAACCAGTTGCAGGGTCGAAACCTGATCGTTGGCGCAGCTTTCCGCGTTTGGGAGGAGCTGTATGTGTGCAAGAAGCCCGCCATCGAGGAGGTGTTCAAAATATCACTGACACCCCCACCGCCCAACGCCAAGGCACCAGATCTTCAGACCACGCGTGAGCAGGTAATGGAGCTGGCCTCTAAGCTGTGGTTCAACTACGTGGAAGCGGAACGCAAGGCTTCCTACCGCGCGCCGTGGGAGCTGCACACCCAGATACAGTCAAAAATTCAGAAGGTCACAGGTGGACTTTCGCGCTTGACAAGTCGCACGAAGGTCAAGAAGGAGGAGCTGGTTCGCACCAAGTCGACCTTAAGCCGCGAGGCTGCCTACGAGTCCACCGGCATCCATGTGCAGCTCATTAAGGACCTCCTGGACCTGCGCGCCAAGCAGTACCAGCAGATGCTGCAACACACCCAACGATACGTCTATCAGGACTGGGTGCAGTCGGAGACGGAGCTTACCCGGGAGCGGGGGCTGTGGGGCCCCGCCGGCAGCTGCTCACTGGACAAGTGGATTCTGGACACGACCGAGGGACCCCACCGTATGCGAAAGAAGACGATGCGCAACGATCTATTTTACCTGCATTATCCGTATCGACCGGAGCTGGAGTTGGCCGACAACCGCCAGCTGAAGTACAAAGTGGCCTCCAGTCTTGACAGCAAGACTTACGCGCTGCATGGCCCGCAGCAGCCGCGCATCCTGGCCGAGGCGGCGGAGCAGCATGCGATGCAGCAGCAGAGCTCGCTGGAAGCAGTGCATTCCCACCGTTTGGAGGCCAGTTGCTCCACATCCACGCCACCGCCTCTTGTGTTACCAAAGCTGGTGGGCCACGGATCGGCGCCGTACCCCCAAGAGTCAGTTGATGGCAATGCCCCTGAGGATGATGAGGAAGAGGAGGACACCTCGATGACCAGCGATAACGAGACCTTCTTGCGCTTACTAGAGGAGCAAGAGAAAATAAGCTTCATGTTTCGGTGTGCAAGGGTTCAGGGACTGGACACCTTCGAAGGCCTGTTGTTGTTCGGCAAGGAGCATTGCTACATTGTGGATGGGTTTACGTTGCTGAAGAACCGTGAGATCCGTGACATTGACACCTTACCGCCGGGAGCCTATGAGCCGATTATTCCCAACTCCGGAGGAACCTCTTCGACCACTTCGCGAGCAGTAAGCCACAAGCTAAGGCAGTGCTCCAAGTTCGCCTACGAGGAAATCCGCGAAGTGCACAAGCGTCGCTACTTGCTTCAGCCCATTGCACTAGAGGTGTTCTCCGAGGATGGACGCAACTATCTGCTAAGCTTTCCGCGCAAGGTGCGCAACAAGGTGAACCAGCGGTTCTTGGCTCTGGCTACTGCGCTTAACGACAACGCGCAGCAGTCGGTGGCGGGACAAAAGCGCACGGCCAGTGTAGAGCAGACAGCGGGCATCTTCAGCGGCCTGATCGGCGAGACCTCGGTAACCCAACGGTGGGTGCGCGGCGAGATTTCCAACTTCCAGTACCTTATGCACTTAAACACGCTGGCCGGGCGCAGCTACAACGACCTGATGCAGTACCCTGTTTTCCCCTGGATCCTGGCCGACTACGACTCCGAGGAGCTGGACCTAACCAGCCCTAAGACGTTTCGAGACTTCTCGCGGCCCATGGGCGCCCAAGCCGACGAACGTCTGGAGCAGTTCCAGAAACGCTTTAAAGAGTGGGACGATCCACACGGCGAGACGCCGCCCTATCACTACGGCACTCACTATAGTTCCGCAATGATCGTGTGCTCTTATCTAGTACGGCTGGAGCCCTTTTCGCAGCCATTCCTCAAGCTGCAGGGCGGACACTTCGACCTTGCGGATCGCATGTTCCACAGTATAAAGGAGGCCTGGCTCTCTGCCTCTAAGCTAAACATGGCCGATGTCAAAGAGCTCATCCCTGAGTTTTTCTACCTGCCTGAATTTCTCAGCAACTTTAACAGCTTTGATCTGGGTTCAAAGCAGAACGGGGAGACACTCAATCACGTCATCCTGCCGCCGTGGGCCAAGCACGATCCAAGAGAGTTCATCCGGCTGCACAGGAGTGCCCTAGAGTGCGATTATGTCAGCCAGCATTTACACCTGTGGATTGACCTAATTTTTGGCTGCAAGCAACAGGGACCTGCCGCTGTTGATGCCGTTAATGTTTTTCACCATCTCTTCTACGAGGGAAACGTGGATATTTACAACATCGATGATCCGCTCAAAAAGAATGCCACCATTGGTTTTATTAACAACTTTGGCCAGATTCCAAAACAACTGTTTAAAAAGGCACATCCTGCAAAAAAAATGGGCAGCTCTCGTCACTCGGCGCTTATCGATCCTACTTCTTTGATTCAGGGCAACAGCACGGTGCTCCAAACCGACCGCCTGTTTTTTCACAACTTGGACAACCTTAAGCCAAGTCTGCAGCCCATCAAGGAGCTTAAAGGTCCAGTGGGCCAAATCTTACAGCCCGACAAGACGGTGTTTGCCGTCGAGCAGAACAAGGTGATGATGCCTCCCTCGTATACAAAGTATATAGCCTGGGGATTTGCCGACCACTCCCTTCGTGTGGGACTATACGACACAGATCGGGCGTCCTTTGTATCCGAGGCATCGGCCCAAAACTCGGGAGAGATCCTGACTTGCGCATGCCCCAATGCCAAGATGATTGTCACGGCCGGCACCAGCTCGGTGGTAACCATCTGGAAGTTCGACGCGAATCGTAAGAGTCTCACGGTTAAGCACTCGTTGCACGGCCACACTGATGCTGTGACCTGTCTGGCGGCCAGCGCTGCCTACAACGTGATCGTATCTGGTTCGCGGGACGGAACTGCCATCGTATGGGACATGACGCGGTTTACCTTTGTGCGCCAGCTGCGCGGACATGCGGGTGTAGTGGCTGCCGTGGCAATTAATGAGCTGACAGGGGATATTGCAACTTGCTCGGCCACCTGGCTGCATGTTTGGTCAATCAATGGCGATGCCTTGGCCATGGTAAACACGTGCGTGGGCAGTGCGGACCGCATGCAGCAGATCTTATGCGTGGCTTTCTCCCAGATTCGTGAGTGGGACCAGCAGAACGTGATCATAACTGGCTCCACCGACGGTGTGGTGAGGATGTGGTCTCTGGAGCACACACAGGTGCCCATCGACCGCAAGTTAAAGCGAGGCATGGAGGTCTCCTCGCAAGACAAACCCGATTCCGCATCTTTGGATAGCAAGGACAATAAGGACGACAAAATAAGCCTTATTAGGCAAATAAAAAGTCTTTCGCAGCCAGAGGAAGAGTTGGAGATTGTAAAGTCTGCCTCAGAAAGTAGCATTTCAGAAGCCTCGCAGCACAGTCATGAGTCGAGTAAGTCAGCTGAGCCATGTGGCAAAGCAGAGTTGCAATCTGAGCGTAGGAAAAGCTCCATTTCGGGAGCAAAATCCCTTCATGAAATGAAATCAGCCACTGTGGAAGCGCCTGGAGACAGCTCTGATCCCAAATCCAATGAAGGCGATGCACGCGGTCGCATCTTTTCGTGGAGCGTTACAGAACAGCCGGGTCGTGGAGTGGCCGATCATTGGCTGAAGGATGAGGGGGCCGATCAGTGTGTCAAATGCCACGTCAAATTGCGCCAGCTCTTTTATCCTAGTGTCCAAGATTCCGCCAGTCTGGATTGCAGCGGGCACATCGTCCACCGGGACAACACTTGCCGCCAGGGCAACCCAGTTGGCCCATACTGCCTATCGCCTGCATTCGGGGGCAGTTGCCACCAGAGCATTTCTGGCGATCGCCTGCTGGATATTCCCTGCAAGGTGTGCGGCGATCGCAGCTCCGGCAAGCACTACGGCATATACAGCTGTGATGGTTGCTCGGGGTTTTTTAAGCGTAGCATCCATAGAAGTCGCATTTACACGTGTAAAGCCACTGGTGATCTGAAGGGTCGATGTCCTGTGGACAAGACCCACCGCAATCAGTGCCGCGCGTGTCGCCTAGCCAAGTGTTTTCAGTCGGCCATGAACAAGGATGCTGTGCAGCACGAGCGTGGTCCAAGAAAACCAAAACTGCATCCGCAGCTGCACCACCACCATCACCATGCTGCGGCCGCCGCTGCCGCTGCTCATCACGCAGCCGCCCATCACCACCACCACCATCACCATCACGCCCACGCCCATGCGGCGGCCGCCCATCATGCGGCGGCGGCTGCAGCAGCCGCTGCTGGACTGCACCACCACCACCACACTGGCCACCTGCCCGTCTCGCTGGTGACGAATGTTTCGGCCTCGTTCAACTACACGCAGCACATCTCCACCCACCAGCCCACGCCGGCGGCGGCTCCAGGTAGCTTTCACCTAACAGCCGGGGTCCAGCAGCAGGGGCCAGGGTCCACAGGTCACCACCACCATGGGTCTGCCGGACACCAGCAGCAGCCTCATGCGACTGCCTTCCACCATCCGGGCCATCCTGGACACTCTCTGGCGGCACCACATGGAAGTCTGGTCAGCAATCCTGGCGGCAACTCAAGCTCGATCTCGAGCAGCGGCTCCACTGCCGGTGGTTCCTCGCTGCCCTTCCCCTCGCACCTGCTGCACCACAACCTAATCGCGGAGGCGGCTAGCAAGCTGCCTGGTATTACTGCCACCGCTGTGGCGGCCGTGGTATCATCCACCACAACGCCCTACGCCTCGGCGGCACAGGCGGTTTCGCCCAACAACAACAACTACTCCTCTCCCTCCCCTAGCAACTCCATTCAGTCCATTTCGAGCATAGGATCGCGAAGCGGTGGTGGGGAGGAGGGCCTGAGCCTGGGCAGCGAGAGTCCACGGGTCAACGTGGACACGGAGACGCCCTCACCGTCGGCGTCTCCGCCCTTGAGTGCCGGCAGCATTTCGCCGGCGCCCACGCTGACCACCACATCAGGATCCCCGCAACCCCGCCAGACGTCCCGGCACAGTCTCAGCGAGGCCACAACACCACCCAGTCACGCCTCCCTGCTGATCCGCACTAACAACAACAACAATGGGGAGAACAAACAGGCGAGCTATACGTCCGGATCACCCACGCCTACCACGCCCACACCGCCGCCCCCGCGATCGGGTGGAGCTACCTGCCCGACGGCTACGACCTCTAACGGGTTTCTGGAGCTGCTGCTGAGTCCGGACAAGTGTCAGGAGCTCATCCAGTACCAGGTGCAGCATAACACGCTACTCTTCCCGCAGCAGCTCCTGGACTCGAGGCTGCTCTCCTGGGAGATGCTGCAGGAGACAACGGCACGGCTGCTCTTCATGGCGGTGCGCTGGGTTAAGTGCCTCATGCCATTCCAGACTCTTTCCAAAAACGACCAGCACTTGCTCCTGCAGGAATCTTGGAAGGAGCTTTTCCTGCTTAACCTTGCACAGTGGACTATTCCCCTGGACCTTACACCTATCCTAGAATCGCCACTAATCCGGGAGCGAGTACTGCAAGACGAGGCCACTCAAACGGAGATGAAAACGATCCAGGAGATCTTGTGCCGCTTCCGCCAGATCACTCCTGATGGTAGCGAGGTGGGCTGCATGAAAGCCATCGCCTTGTTCGCCCCGGAGACTGCAGGCCTGTGCGACGTGCAGCCGGTGGAGATGCTGCAGGATCAGGCGCAGTGCATCCTCTCTGACCATGTTCGTCTGCGTTACCCCCGCCAGGCAACTCGCTTTGGGAGGCTGCTCCTCCTGTTGCCGTCGCTCCGAACCATCCGGGCCGCCACTATCGAGGCGCTCTTCTTCAAGGAGACCATCGGCAACGTGCCCATTGCCCGGCTTCTGCGCGACATGTACACGATGGAGCCGGCCCAGGTGGACAAGTGA
Protein Sequence: MTAASVPSTLVKCLYLFFDLPIVEDDEPAADGGTASEFNAHERRTLLQKVFVQLLVKLCSYPYPAEELARMDDLTLLFSAITSPCPIHNIMWRKNAAEILTTISRNGLTDSVVSYIHSKGCMALCVDNMQRLTFGNPLEIVEMFVTVFCFLKDSSQVSQILMDDFRASQGYVFLSDFLLKFDNNRSQSLEIQAAIRNLVLMISSLCMCGFYELRPPASQFNTAFKLQNFQLPQATSRETCVRNVYAFQVLQNVFLKSTTPALCCTILDAISRVYHSENANYFILESEHTLSLFAERIHLKGPQIQEKFFDLLEFIVFQLNFVPCKELISLSLLLKHNQSTPCSILCLKTLLNILRHNAVFKDVYREVGILEIFVGCLTRYASHVLQITEGDESLVVDIKDDKDEDLLDTLGKHVLEALTMLLGGGASNNAQLFREYSGAKCVHELVKFKHCRPQALGIVRELILSAGGDDDMLHILSLMHSVSPSQVEFKIQILNMLLGCLKDSHRTRTVFRKVGGFVYVTSVFVSLDGSMANPQPGIPQQDLILLLQIVFQTLATAMRFEPANAKFFHQEISSSSLCDTLRLLGCFGGSSALQDFTGVYDPQQSLLKYYHEIFSGDILSVSFSEDIPYPLSYVCVVFRLLYSIALDNFEAPNLSGIITLVSDPPTLSRSPSKELAAPVHPSQLNLTQPSPEPRIVHPGVVLCMLQLLPAVECDSAPLHAVQLQVYLSEVIKSLVRSERNQQIMCDHGLAEKLLKLTRQALAEESHPLHVPMQYILERLAAQALQPTELRQFLRLGEPLSCADINLQQPYRLGGPVPLTRIKTLVSMTTPRDFRAHGSSTLPPFVELDMSAEGFGCLYLPSLAPQATATAGGTIDANTIGGIGAGDRIFPPPTGLTYSTWFCVEKFSDPKTDPHCVRLLTLVRTIHNPREENLACLSILLSARDKAIVVSTQETLVTPRKSIGDWEPEGSDDGIARIWCPDLLHEGQWHNLVVVLNRAVLKNSSLFLYLDGVPMHTQKLHYIAQHPAAGNTSLTSATQVFGYIGTPPIWRRYSRLCWKQGVCHLIEDVLTQQTVQTIYQLGPHYMGSLQAPQLGKQTDSLAPLVPEDRVLLGLNAKAVSKLTLVKIRKVYSRADNKSIAKQLNMNSHENATPIKILHNSAGHLAGAGRSLGGVVVGYLGVRVFSPHPVSAMIDTVGGCNVLLGIIAMAQDVESLYAGVKALTCVVRSNRAAQAEMDRKRCYQTLGMFFKKKKHLLNSHILHLTFGLVGTVNSGQDTSAIPNVTAFQDLLCDLEIWHNAPNGLLRSLLEHLLELVVESSDKKQNVKIMRDLQLLVKLLHIITQIQDHSTREILFSLLETLLGGQPRHTDLLLYGQYVAAKLPQAHNGGLERAVLLPSMKNPGEDQDGGVAQNIYLRNRCLSLLHGLLFTPRNTVNYVICDDISKTLGMDWLLLFMQPHVHFTTVIIAVRIMVVVCANESFLVRFRDATHNGGYLRFTEMVSQRKMLGLGAQQLNQRPTNGTGTVIVATPQNTIQHLPTQIAGEVRAAALNIPGFQLLEWLMYHHLDVPELYFLVTALIMGQPVKVLATEHTKFDLDRVWSFLWGAPVSANTQLPKLNVCPEGVCVLLAMVRGIVHGGECAPWLHNHPETIIQLLFSLYQNLSDFAPVMMAGDVINSLVAVLFPLAARPVDSEPNSGASTPTDCTGSSFALPPPETLHEAPQPKLTTHPVCNCIIDFLRVIVVDSLGLNMQGKLTSVVDLVLDAAPDSAELPLQVQYQTQIIIALMDHLLAADVLVGEQAALPLVPLLQSQMQHIAPNVFYLTARIVDKLWQGCLARNPHDIFDFVIKLIVQAKRRPSSLSLEHLHHSLNRSILFLLSRPTDDSRADQMSVLEALHKIIQHRLLIFGAGNHELEFIGCLTYCLLQLTADMKIILEPATSRNTTWHVNPQTETVEPKDEDLNQLQGRNLIVGAAFRVWEELYVCKKPAIEEVFKISLTPPPPNAKAPDLQTTREQVMELASKLWFNYVEAERKASYRAPWELHTQIQSKIQKVTGGLSRLTSRTKVKKEELVRTKSTLSREAAYESTGIHVQLIKDLLDLRAKQYQQMLQHTQRYVYQDWVQSETELTRERGLWGPAGSCSLDKWILDTTEGPHRMRKKTMRNDLFYLHYPYRPELELADNRQLKYKVASSLDSKTYALHGPQQPRILAEAAEQHAMQQQSSLEAVHSHRLEASCSTSTPPPLVLPKLVGHGSAPYPQESVDGNAPEDDEEEEDTSMTSDNETFLRLLEEQEKISFMFRCARVQGLDTFEGLLLFGKEHCYIVDGFTLLKNREIRDIDTLPPGAYEPIIPNSGGTSSTTSRAVSHKLRQCSKFAYEEIREVHKRRYLLQPIALEVFSEDGRNYLLSFPRKVRNKVNQRFLALATALNDNAQQSVAGQKRTASVEQTAGIFSGLIGETSVTQRWVRGEISNFQYLMHLNTLAGRSYNDLMQYPVFPWILADYDSEELDLTSPKTFRDFSRPMGAQADERLEQFQKRFKEWDDPHGETPPYHYGTHYSSAMIVCSYLVRLEPFSQPFLKLQGGHFDLADRMFHSIKEAWLSASKLNMADVKELIPEFFYLPEFLSNFNSFDLGSKQNGETLNHVILPPWAKHDPREFIRLHRSALECDYVSQHLHLWIDLIFGCKQQGPAAVDAVNVFHHLFYEGNVDIYNIDDPLKKNATIGFINNFGQIPKQLFKKAHPAKKMGSSRHSALIDPTSLIQGNSTVLQTDRLFFHNLDNLKPSLQPIKELKGPVGQILQPDKTVFAVEQNKVMMPPSYTKYIAWGFADHSLRVGLYDTDRASFVSEASAQNSGEILTCACPNAKMIVTAGTSSVVTIWKFDANRKSLTVKHSLHGHTDAVTCLAASAAYNVIVSGSRDGTAIVWDMTRFTFVRQLRGHAGVVAAVAINELTGDIATCSATWLHVWSINGDALAMVNTCVGSADRMQQILCVAFSQIREWDQQNVIITGSTDGVVRMWSLEHTQVPIDRKLKRGMEVSSQDKPDSASLDSKDNKDDKISLIRQIKSLSQPEEELEIVKSASESSISEASQHSHESSKSAEPCGKAELQSERRKSSISGAKSLHEMKSATVEAPGDSSDPKSNEGDARGRIFSWSVTEQPGRGVADHWLKDEGADQCVKCHVKLRQLFYPSVQDSASLDCSGHIVHRDNTCRQGNPVGPYCLSPAFGGSCHQSISGDRLLDIPCKVCGDRSSGKHYGIYSCDGCSGFFKRSIHRSRIYTCKATGDLKGRCPVDKTHRNQCRACRLAKCFQSAMNKDAVQHERGPRKPKLHPQLHHHHHHAAAAAAAAHHAAAHHHHHHHHHAHAHAAAAHHAAAAAAAAAGLHHHHHTGHLPVSLVTNVSASFNYTQHISTHQPTPAAAPGSFHLTAGVQQQGPGSTGHHHHGSAGHQQQPHATAFHHPGHPGHSLAAPHGSLVSNPGGNSSSISSSGSTAGGSSLPFPSHLLHHNLIAEAASKLPGITATAVAAVVSSTTTPYASAAQAVSPNNNNYSSPSPSNSIQSISSIGSRSGGGEEGLSLGSESPRVNVDTETPSPSASPPLSAGSISPAPTLTTTSGSPQPRQTSRHSLSEATTPPSHASLLIRTNNNNNGENKQASYTSGSPTPTTPTPPPPRSGGATCPTATTSNGFLELLLSPDKCQELIQYQVQHNTLLFPQQLLDSRLLSWEMLQETTARLLFMAVRWVKCLMPFQTLSKNDQHLLLQESWKELFLLNLAQWTIPLDLTPILESPLIRERVLQDEATQTEMKTIQEILCRFRQITPDGSEVGCMKAIALFAPETAGLCDVQPVEMLQDQAQCILSDHVRLRYPRQATRFGRLLLLLPSLRTIRAATIEALFFKETIGNVPIARLLRDMYTMEPAQVDK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00565429;
90% Identity: iTF_00565429;
80% Identity: iTF_00565429;