Aobl021304.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Anastrepha obliqua
Gene Symbol
Myrf
Assembly
GCA_027943255.1
Location
JAPTHQ010000059.1:4016748-4025750[-]

Transcription Factor Domain

TF Family
NDT80_PhoG
Domain
NDT80_PhoG domain
PFAM
PF05224
TF Group
Unclassified Structure
Description
This family includes the DNA-binding region of NDT80 [2] as well as PhoG and its homologues. The family contains Swiss:Q05534 or VIB-1. VIB-1 is thought to be a regulator of conidiation in Neurospora crassa and shares a region of similarity to PHOG, a possible phosphate nonrepressible acid phosphatase in Aspergillus nidulans. It has been found that vib-1 is not the structural gene for nonrepressible acid phosphatase, but rather may regulate nonrepressible acid phosphatase activity [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 4 0.96 2.3e+04 -3.2 0.4 77 95 102 120 71 140 0.62
2 4 0.16 3.7e+03 -0.7 2.0 75 117 201 241 183 251 0.71
3 4 1.4e-37 3.3e-33 116.8 0.7 2 180 548 694 547 694 0.96
4 4 0.21 5e+03 -1.1 0.1 36 73 1571 1604 1537 1607 0.68

Sequence Information

Coding Sequence
ATGGTCGGTATTATTGCAGAACACAAGGTACGGGGTCAGCATATGACCACCGTTAAAATCACTGAGGACCCGATTTGCCTGTCTTGCTTAGAGAAGTCGAATAGCACGGAGCGTTTTCTCTATCGATCCGATTTCATTGGAGGCATCGACAATGAGGCAATCGATTTTGGTAATCTGGAACAGTTCATGCAGGTTGAAGCCGCCGTTGGTCAACTGGATCCACAAAATAGTTGCAATACCAACGTGAACGCAAATAATACACGTGAAAATCCGCTAGGTTGTAGCCCGAAGCTCGATTCTAACCAACACCAACAACAACAACACCAACATCACCCACACCCTCCACATCAGCAACAAATAAATGCAGCCGATGGCAATATTTCATTAGTCAGTGTATCAGCACGTGTTAGTTTGGCATCCACACCAATAGCGACACCTATTCCGAGCGCGGTTAGCCACAATACACCGCATATGCCCGATAGTCCGCCCGATTCTGGCTCAGAACCTCCCTACAGTCCGCTGCAAGACGTTCACGGGCTGACGCTGACCTCTCGCGACGTCTACAATGGGCTTTCGGCGATGCAGTCCGATATGCATTTGCAGTCACAATTTACACCACCGCACCAAACGCAAACACCACATCATCACCATCAGCAACAACATACGCAACATAACAACAGCAACAATTCAAACAATTCAAACATCTCCACTCAACACCACTACAACCACAATCACTCTCCAACTGTGCCGCCAAACGACGGAACGGGTGGAATACGTGTGAAACACGAGTCAGGCCTCATAATGGATCCAGCTACACTCACACACACACATACACAACTTCGACATGGGAATTCTATTACCGCACATCCGCATGGCAATCCTAACGGCGGCCACACTCATATAGAATTGCCACCACCGCATCAGCTGATGTTCTCAAATCACAACAACAATCAGCACAATACAAGCGATTTGTTGTCGTATGAGAGCCTGCAAAGTGGCAACTTTCCATCAGTGAATTATCCAAATGTTACTATCGTAAATGGCTTGGATGCCTTGCCTCCGCACACCACGTCCTGTGCACTCCCTTCGCCGCTGAACGATGTGCCTCGTGTGCATTTGGTTGGCACAAGTCAGGCAATCCCTCCGCAACACAGCCGTTCGTCATTGCCCACTACGCCTGTGCATTTGTCTTCGTCCCGCAAACGGAAACTTTCCACCCAACTGGATTGCCCCGAATTCTCCAGCATTAAGCCAGATCCAGGCTTGCGGATGAGTCCAACGAACGGCTCTACAGCAGTCGCGGAACCACAGAAGCTCGGCACCTCGTCACCAGTTAGCATCACACTACCCGCACATGCGGCTGATATAACCAGTACGCCCACACACTCAGCTGCCTCGCTATCTCCCGCGCTGTCAACTATCAACTCGAATCAGGACAACAGTCTCGATGGCAATAATACCACACCAAGTGGTGGTGGTGAGGGTGCTGACAGTAATGCTCTTACACCCTGCATTCGTTTCAGCCCGTTCCAGCCACAAAATTGGCACAAACTTTGCGATCAAAGCCTGCAAGAGATCGCGGTGGTGTATTACCGTGTAGACGCGGATAAAGGTTTCAATTTCTCCATCTCCGACGATGCGTTTGTTTGCCAGAAAAAAAACCACTTTCAAATAACTTGCCACGCACGTCTGCAAGGCGATGCGAAGTTCGTTAAAACACCGTCCGGTCTAGAAAAAATCAATTCCTTCCATTTACACTTTTATGGTGTGAAATTAGAAGCGCCAAATCAGACAATACGGGTTGAGCAAAGCCAATCCGATCGCTCAAAGAAACCATTCTATCCTGTGCCCATCGATCTCCAGAGCCACATTGTAAGCAAAGTCACGGTGGGCCGTTTACATTTCTCTGAAACTACGAACAACAATATGCGAAAAAAGGGGCGTCCCAATCCTGAGCAACGTTACTTCCAACTGGTAGTAGGCCTTCATGTGCACACAATTTCTGGCAACTTTCCAATCATCAGTCAAGGTAGTGAGCGCATTATCGTGCGTGCCTCCAATCCAGGTCAATTTGAATCCGACGTCGATCTTTGCTGGCAACGTGGGCTCACGCAAGATTCCATCTTCCACGCCGGACGAGTGGGCATCAACACTGATCGTCCTGACGAGAGTTTGGTTGTGCATGGCAATTTGAAAGTATCCGGTCACATAGTGCAGCCCAGTGATAGTCGTGCTAAACACGAGATCGGCGAACTCGATACTTCAGTGCAGCTACGCAACTTACAGAAAATACGCATAGTGCGCTATCGGTACGCTCCCGAATTCGCAGTTCACTCAGGTCTGAAACGTTCGTGCGAGAGCGACAGCGAGGAGATCGTCGATACCGGCGTTATTGCACAAGAGGTACGCGAAGTTATACCAGATGCGGTACAAGAGGCTGGCAGTATCGTGCTGCCGAATGGCAATGTCATCGAAAACTTTCTGCTGGTCAATAAGGATCGCATTTTAATGGAAAATATTGGTGCTGTTAAAGAGCTCTGCAAGGTCACCGGATCACTTGAGACGCGCATCGAAGATTTGGAGCGCAACAATCGACTGATAAAACAGCATGAATTTGAGCAGCGAAGCAAAAAGTATGGGATCGCAAAAGCCTGTGGCGCGCGTGGCGGCTATGAATTATGCTCGAACAAGTCTTTGCAGATAGTTATATTTTTATTGGTAATCGTTATGGCCGCATGCCTGGCTGCTGTTTCCACTCTGTACTTCGTGGAGCACAACAAACAACACTACAACTACAAGCAATTAGACCGCCTCCAATTTCATAGCAACGGCCATCTTCTCGGCCATGATTCGGTTCTCATAAATGAACAAGAAGGTTACATCGTCCAAGTGCACAACCTTCTCAGTCGAAATAAAACAACAACATCACGTCCGCCTGGGCATCGGAATTTCACGCGTATACGTCCGGAAATCAGTTACGACGAAAGCGGTGATCCATATGCACAAAATGGACGCAATGATGAGCTGACGGTGGTGATGGAAAAACCACTTGTCAGCCTTCAGCCACTGCTTCCACGAAAGGATATTTATAAAGTGACGACTACAGCACCACAGCTGCGTATCAACAAGACTATAAGCAGCAAAAATAAGTCAAAGTGGCCACAGGCTCAAGTAGTGCCCAAATTAATTGCGAGCTTCCAAAATACGCGCGGCACCAGCAGCACACAACCAGATGATAGCTCGAATCTTACACCGAACCATAAGCGTACGGAGCCATTGGGCAATAATGAAACCTCTTCGGAGAAGGTTACCGACACAGCGCCATTGGCACACGATTTCGATAACAATTCTATCGACATCGACGCGCAACATGTTACCAAAAAGGCATTGGCTGCCAGAGATTCGGCAATACGACCAGCCAGTTCACATGAGGAGACGTTGTCGGAGAATGGTGAAACCATTGGCGATTCGATTGGGTCCATTGTAAGCACATCAAGTAGTGACGTGAACAACAAACACAATGCTAATCATGATGGTAATAGCAGAAATGTCGACATCAGCAGTAACAACAACGTGCCAGATACCACTGCCCCTGCCTATAGCCACCGTTCACGCAATGTCTACAAAGCGGTCTCACCACCATCAGCACTCTTACCGCTCACCACTAACAAGGTAACGATTGACGGCATTTCCACAAATTACTCATTGGAAGTGCCCGCGATCTCAAACAAAAGTCAAACGGTGCTGAAAAGCAAAGTGGATAGTACAGATCTGTTGGACTTACAGAGTCTAAGCAACAACAACGAGTCGGTAGATAATCCCATAACAGCTTGGTTTGGATTCGATTTCGGTTTGGGGCATGAATCGGTGCTAGGACGCAGATCGACTTCTCAGCGTAGCGTCGGGCGCATATATTGTAAACTCGTACAGGTGGAGATGTTTGGTGTACCACCTCAATGCACGCAAAAGCCCAACAATGATGAGGTATCCAACTGTCAGTCGTTTTGCTTCGAGGAATCCAATCAACTACCGGCACTTCGAGCCAATTTAGCAGGCATAGCACGCGCCAAAGAGGACTCAGTCGTCGCAGAGAAACAGATCAGCAACGAAAATATACAAGTGTCTGACTCGAGCCCCGACAGCGTCGATAGTGATGCGGACTCTGACACACAACCACGTTCCCTGGCTACACCTATACTGTCGACAAATGCTACCTTCATTGGGACGGATAAAAAAACTCAAGTGGTCGAAGTGTCCAGCGAACAGCGATCAGACCTGTCGGATTCGTCAAAAGACACATCTAGCTCCGACGAGCATCTCGATATTGATGTTAAGACAACAGATGAAAACGTGGGCCCACAAGCAAATAGTGCGTCATTAGAAATACAAGTCGGAGCAGCTAACCAACCGGATTGTTGGCAAATCAATAGCGGTTTGATAGCCGAGGCACAAAATGAGACATTCGGTATGGAGCATCATTGTCCACATAGCGGTAAATCACTGAACATGACCTATATAGTTCCACTATCAAGATTTTTCAAAGAATCCAGTATTCAGCTGCAACTGGCCTCCTCTGTGCCACTGTTGTGGAGCATTTGTAGTAATCGCGAGCTGACCAAACATCAGGGAGTGCATTTGCAGCAATCATCTGCCCATCAACTTAGCGCCAACATCATACAGCGTGAACCCAACGTGTCGGTTATTTATTTTAATATACCAAGCCGGGGCTATTTCGTGCGAAGTTTGGCGTTGCGCGCCTCAGCCAGCGATTCAAAAAAGCAAAACATTTGCCAGGAGACAGCACACGAAGCGAACACGTTACTACAGTACAACTTTAGTATCGTAAGAGATTGTGAATAG
Protein Sequence
MVGIIAEHKVRGQHMTTVKITEDPICLSCLEKSNSTERFLYRSDFIGGIDNEAIDFGNLEQFMQVEAAVGQLDPQNSCNTNVNANNTRENPLGCSPKLDSNQHQQQQHQHHPHPPHQQQINAADGNISLVSVSARVSLASTPIATPIPSAVSHNTPHMPDSPPDSGSEPPYSPLQDVHGLTLTSRDVYNGLSAMQSDMHLQSQFTPPHQTQTPHHHHQQQHTQHNNSNNSNNSNISTQHHYNHNHSPTVPPNDGTGGIRVKHESGLIMDPATLTHTHTQLRHGNSITAHPHGNPNGGHTHIELPPPHQLMFSNHNNNQHNTSDLLSYESLQSGNFPSVNYPNVTIVNGLDALPPHTTSCALPSPLNDVPRVHLVGTSQAIPPQHSRSSLPTTPVHLSSSRKRKLSTQLDCPEFSSIKPDPGLRMSPTNGSTAVAEPQKLGTSSPVSITLPAHAADITSTPTHSAASLSPALSTINSNQDNSLDGNNTTPSGGGEGADSNALTPCIRFSPFQPQNWHKLCDQSLQEIAVVYYRVDADKGFNFSISDDAFVCQKKNHFQITCHARLQGDAKFVKTPSGLEKINSFHLHFYGVKLEAPNQTIRVEQSQSDRSKKPFYPVPIDLQSHIVSKVTVGRLHFSETTNNNMRKKGRPNPEQRYFQLVVGLHVHTISGNFPIISQGSERIIVRASNPGQFESDVDLCWQRGLTQDSIFHAGRVGINTDRPDESLVVHGNLKVSGHIVQPSDSRAKHEIGELDTSVQLRNLQKIRIVRYRYAPEFAVHSGLKRSCESDSEEIVDTGVIAQEVREVIPDAVQEAGSIVLPNGNVIENFLLVNKDRILMENIGAVKELCKVTGSLETRIEDLERNNRLIKQHEFEQRSKKYGIAKACGARGGYELCSNKSLQIVIFLLVIVMAACLAAVSTLYFVEHNKQHYNYKQLDRLQFHSNGHLLGHDSVLINEQEGYIVQVHNLLSRNKTTTSRPPGHRNFTRIRPEISYDESGDPYAQNGRNDELTVVMEKPLVSLQPLLPRKDIYKVTTTAPQLRINKTISSKNKSKWPQAQVVPKLIASFQNTRGTSSTQPDDSSNLTPNHKRTEPLGNNETSSEKVTDTAPLAHDFDNNSIDIDAQHVTKKALAARDSAIRPASSHEETLSENGETIGDSIGSIVSTSSSDVNNKHNANHDGNSRNVDISSNNNVPDTTAPAYSHRSRNVYKAVSPPSALLPLTTNKVTIDGISTNYSLEVPAISNKSQTVLKSKVDSTDLLDLQSLSNNNESVDNPITAWFGFDFGLGHESVLGRRSTSQRSVGRIYCKLVQVEMFGVPPQCTQKPNNDEVSNCQSFCFEESNQLPALRANLAGIARAKEDSVVAEKQISNENIQVSDSSPDSVDSDADSDTQPRSLATPILSTNATFIGTDKKTQVVEVSSEQRSDLSDSSKDTSSSDEHLDIDVKTTDENVGPQANSASLEIQVGAANQPDCWQINSGLIAEAQNETFGMEHHCPHSGKSLNMTYIVPLSRFFKESSIQLQLASSVPLLWSICSNRELTKHQGVHLQQSSAHQLSANIIQREPNVSVIYFNIPSRGYFVRSLALRASASDSKKQNICQETAHEANTLLQYNFSIVRDCE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity
iTF_00082953;
90% Identity
iTF_00082953; iTF_00081234; iTF_00082137;
80% Identity
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