Basic Information

Insect: Nymphula nitidulata
Gene Symbol: ARID4B
Assembly: GCA_947347705.1
Location: OX374635.1:12040695-12068463[+]

Transcription Factor Domain

TF Family: ARID
Domain: ARID domain
PFAM: PF01388
TF Group: Helix-turn-helix
Description: This domain is know as ARID for AT-Rich Interaction Domain [2], and also known as the BRIGHT domain [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 1 4.2e-30 1.8e-26 93.2 0.1 1 89 282 368 282 368 0.96

#	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	4.2e-30	1.8e-26	93.2	0.1	1	89	282	368	282	368	0.96

Sequence Information

Coding Sequence: ATGGGAGATGATCCTCCGTTCTTGTCTGTTGGGACTGATGTCAGTGCTAAGTACAAAGGAGCCTTTTGTGAAGCTAAGATCAAGAAAGTTGAAAGGAATATTAAGTGTAAGGTGACATTAAAAACTGGTGGTGGATCTGTCACAGTGAATGATGATGTAATCAAGGGCACACTCAGGGTGGGTAGTACAGTAGAAATCAAGCAAGACCCCAAAAAAGATGCTATGGAAGCTGTTATCACAAAAATTCAAGACTGCAGCCAATACACTGTTGTGTTTGACGATGGTGACATAACGACCTTAAGGCGGTCAGCATTGTGTCTGAAAAGTGGTCGACACTTTAACGAGAGTGAGACCCTAGACCAATTGCCACTCACACACCCAGAACACTTCTCTACACCAGTCATAGCTGGCCGGCGCGGTCGACGTGGTCGTGCGCAATCTGACGAGAGCGAAGGCGAGGGTCCCTCGCGTAGGGTTAAGGCAGACAGTGCGGAGCGCGAGCCACACGTGGGGAGGGTGGTATTAGTGGAAGCAGCGGGGGGTGCAGAGAGACGTCGCCCCCATCAGCCTGCGTTCCCCGCACTTGTAGTTGCTCCTACAGCGCAGATTAAAGTCAAGGAGGACTACTTGGTGCGATCGTTCAAGGATGGCAGATATTACACGGTCCCCAAGAAGGAGGCCCGGGAGTTCCGCAAGGGTAGTGCTCCGTTGGAATGGGCGGGTGTGGAGGCGGCGCTACAGTACCTCAACAACGGGGTGCTGCCGCCGCACTGGGACCGGGACACGCTGTTTAACGAACCGAGGAACACTTCTGACGACAGTTCAGACGACGAACCGCGCGAAGAGAAAGACCACTTCGTGGCACAACTGTACAAATTCATGGATGATCGAGGGACACCACTTAACAGAAACCCTACGATTGCCAACAGAGATATTGACCTGTATAGATTATTTAGAGTGGTGCAAAAACTGGGAGGGTATAATAGAGTGACCAATCAGAATCAATGGAAAACTATCGCAGACAAAATGGGCTTCCATCCTGTCACTACAAGCATTACTAACCTTTGCAAACAAGCATATAAAAAGTTCCTGCACAGCTTCGAAGACTTCTACCGCAAGCTGGGTGTGACGCTTGTGGCGCATCCTCGCGGCGCGCGCACCCCGCCGGCGGGCCGCTCGCTCATCCGCGACCGCGACCGCCAGCCGCCCACCTCCTCCTCCGCCTCCTCCACGCCCACTGGCACGCCCACACAGCGTGTCAAAGACAAAGACTCGGATAAAAGTGAGACGGACAAAAGCGAGAAGAGTGAGAAAGAGGACAAAGTGGAAAAGCCTGAGAAAGCCAAGGAGAAGCCACGAGTGAGTGATGGCGAGGACAGCGCGGACAACCAGCCACTGATCACTACAGCACCGAAAGTTGAAAAAGAAAAGGAGAAGGAAAAACCTAAAGAAAAAGACAAGGAAAAAGAAAAGGACAGAGAAAAAGAAAAGGAAAAGGACAAAGAGAAAGAGAAGGAAAAAGAAAAAGACAAGGAAAAGGAAAAGGAGAAAGAAAAGGAAAAGGAGAAAGAAAAGGAAAAGGAAAAGGAGAAAGAAAAAGAGAAGGACAAGGAAAAAGAAAAGGAGAAAGAAAAAGAAAAGGATAAGGAAAAAAAGGAAGAAAAGATAGCAGCACCAAGCGAAGACAAGAGTGTGATGAAACCGCGGTCACAATCTAAGACTCGTAGTTTGCTGCCAATAAAGATAGAGTCTCACGAGAAGAGAATCCCAAAGAGAAGACCGTTATCTTCTAAGAGCGAGAGCGCCAATCTGAGTGCATCGCGAGCGTCTCGCCGCCCGCACGCTTCTACTGACAGCGATAGCTCGGGCCGCGCTTCTAGATGTGGTCCAACCAAGAAAATGCAGAGTCGTCGCAGCCAGAGCGCTAACTCTGCCAGCAGCGGCAATACTATTGCTTCCAACAGTAGCAAGCGCCCGCGCAAAAGGAAGAACACCGAGCCATCGACGAGTGAATGCACTCGTTCAGGAGGAGCCAATGTGAAAGCCCAAGTGGGCGATAAACTTAAAGTTTACTATGGACCTACGCAGTCTGAGTCAAAGGTGACGTATGAAGCAAAGGTGATAGAGATCTCTGCGGAGGGCTTACTTCGCGTACACTATACAGGGTGGAACAATCGATATGACGAGTGGATAAAACCCCAGCGTATTGCTCTAAACGTGACGCAGCACGAACAACGAAATAAGAAGACTACAGGCATGAATCGACGTGTGAGAGCCAAAAGAACTGAAGAATCTTCAGCTCGTTCTGATTCTGACAGTGACTCTGATAGTGATGAAGACGTCAAGAGACCACCTAAAAAGTCAGATGATAAAAATAACAGTAAAAATCAGTCGAGATCAAAAGACGCAAAGTCCAGCGACAGCAGTAGTTCGAGCAAACCTCGCAAGCGACCCGTAAGGAATATCTCAACACCCACAAACGTGTCGCCAGCCAAAAAGCCTCGGCCCTCCAGCACAGGCGGACACCAAGGACGGGACTACGATCTCAATGAAATCAGATCAGAGTTAAAGGGGCTACACACGGTCAAACAAGAGCCAGAAGAACCAAAGCAAGAACCATCAGAAAAAGACACCACACCCCCCGCTCAAGTATCAGCTCCTCCGCCGGAACCTCCTCAACCCGATAAACAACCTGAAGATGTTTACGAGTTCAAGGAGCCGGAACCTTTTGAATTAGAACTGCATGATGAAAAAAAGAAAAGGACACATCGCATTTTCGATGACATTTCCCCTAGCAAATACACATCTACTCTTTCTAAATCTCTCAGCGAAGAAATATCTGAAGATCCATTGAGGCCGCGTCCTTCGACTCTTAGGTCCCCGTCTCTGTCACCATTCAGAGATTTTGGCGCCACACGTGATGTCCTGGGACAACAAAGCCCAGAGGATGATTCTAAAGATGGCCTATTTTCTTTAGACGATGATTCCTTCCCGGGAGATGGAAGTTCTGGTCCTATTTTCGAAGGCTTTACTCCGGCAAAGAACCAAGAAACATATTCAAAGAAGAGCAAAGTTTCAAAACTAAGAGAGTTAATAGATGACTCTCCCGACAGTCCTGCTGATGACGAGCAATCATCTGAAGACGAGTCGGAGGATATTGCAATGAAAGAGGATGAGGAAGAGGACAGAAAACCTGGTCCTGCCGCACCAGTAGTAGAACCTGTAAAGACATCAGAACCAGAAGAAGCACCAGATGTCAATGAGCAGCCTCTAGCAGAGCTTATTAAACAAGATAAAGAAGACGTTGTCAAAATAGAACCGGAATCAGAGATATCAAATCCAATTGAAGAAGTCTCGGAAATTCCTGAGCCGCCGAAAACTCCGCCTTCTAAAAAAGCAGAACCTCAAAATATGAATGAAGCTAGCACTTCTAATATTGATTCTACAGAAATAGAACTCAAACAAGAAACACCAGAACTAAAGAACGAGGAGCCACCTAAACTAATTTCCATTCCTTTACCTCTCACTGAGCCCAAAGAAACTACTCCGAAAGTTAAAATCGTAATTGAAAATATAGACCATAAGAAATTAGACCCCGAACCTATTGCATCGAAGTTAGAGCTTCCGTCTAGTCCTCTTATAGATACTGAAGAAGATAAATCAGAGCCAGATAGTCCAGCTAGAATTGACGTTTTACCTGAGCCTCCTCCAGGTTTCCTCTTGCAATCTGAAGGGCCTAAGATAGCCGAGAAACTACTCAAAGCAATTAACAGTGCGAAAAGGCTATCTATGTCCCCGCCTCCATTAGACCGTGCACCCACACCAAAGGAAGAAGTAATCAAGACAAACAATCCCGAAGGAAAAATGTCTCCTATCGCACCGGAGATCAAAACTAACATAATGAAATCGGAACCACCAAAACCTCTACCTAAAATAATAGAACCCAAGAAGTTTGGTGCTACTGATCTTGGTGATCCTATATTTGGCGAGCCGTCGAACATGACTGACGCAAAGCGTGACTTAGCAGATATCAAGAAAGTTAAGCCAAAGGAACCTTCACCGCCTAGGTTACAAAGTCCGTTGAGCGTTTTGGAACGTAGAAAGAGTGTCTGTGATTTGCCGCTAAGCAACCCTGGGAAAAATAACAAAGTATTGAGTGACACTATTCAGAAACTATCGAGTCAGATTAATCAGTCTGCGGCGACTGTCGCAGCTACTTTACCATTGCCACCGTTCCCGCATGCCGACAGAAGTGACTCGAGTGATTCTGACGACTCTGATAGAAGGTTGATAATCGACAAGCTATCAGTGGACGAGTGGGGCAGCGGTAGCTCGGAGGCTGCCGGCGCCGGCGCCGGCGTCATCCCAGTGCCGGTGGTGACTGCGGCGCTGCCGGCGCCGGTTCTGGCTGCAAGAGCGCTGCACGCCGGGAAGTCCCCCGGCGAGTGGAGCGCGGGGGAGTCCCTACTCATGCTAGAGGATGCCTGCAAGAACGAACGAAAACACAGCGCAAGCGTAGTAGTAGCGGGCAGTGGACGCGTAGGGTCCGCGGCTGCCTTAGCCACTGCCAGCGGAAGCGGGGCGCCAGCGAGCGCCCCAGTCAATGCCAGTGGGCCGGGGGCAGAAGAAGACAGCAACATATCGCTGCTGCTGTGCGAGGAGACCATCCCAGGGTCTCCGGCGCCAGACAGCGAGCCCGCGCCGCCAAGGCAACGTCTGCACATGCCCTTTGCCTGCGCGCCACCGCATCAATCACACTCGAAAGAGGAGCGTCGCGGTGATGGGTCTTCAGGGTCCCGCGCGGGTGGCGGGGGCGGGGGCGGGGGCGGAGGGGGCGCGGACGGGGGCGGCGCGGGGGGCTGGGCGCGACGTCACGCGCTGCTCGACAACACGCCGCCCACCACGCCCGACAGCAGCCTCGATATGTCGCCACACAGAGAACGTCGAATATCTGAACGCGACAGCCCTTCAGATCGGAAAGAGGATGAAGATGAAGGTCGTGCGAATAACATCTCCCCTCATGATATGGACAAACCCCATGGCGTGCGGTCAAGGAAGGCGTCGGAGTGTTCGTCGAGCGCGGCGGGCGGCGCGGGGCGGCGGCGACGCGCGCGCCGCGACACCGACGACCACGCGCCCGGCGACCGCGCACCGCTCAAGTACAACTTCTACGTCGACCTGGGTAGTAATATCGCCGCGGTAACGGTACCGGCGCGGCGCGGCATAAGTACAAAGGACGCCGGCCGCCCTGCCCCCGCGGCCGCCCGCGCCGCTAAACTTCACCCCGCCACACGTGCTCACACAAACAAACACCACTCGCACACATTAAAAATGCGTAAAAGAGTTATCTACTTACCTTAA
Protein Sequence: MGDDPPFLSVGTDVSAKYKGAFCEAKIKKVERNIKCKVTLKTGGGSVTVNDDVIKGTLRVGSTVEIKQDPKKDAMEAVITKIQDCSQYTVVFDDGDITTLRRSALCLKSGRHFNESETLDQLPLTHPEHFSTPVIAGRRGRRGRAQSDESEGEGPSRRVKADSAEREPHVGRVVLVEAAGGAERRRPHQPAFPALVVAPTAQIKVKEDYLVRSFKDGRYYTVPKKEAREFRKGSAPLEWAGVEAALQYLNNGVLPPHWDRDTLFNEPRNTSDDSSDDEPREEKDHFVAQLYKFMDDRGTPLNRNPTIANRDIDLYRLFRVVQKLGGYNRVTNQNQWKTIADKMGFHPVTTSITNLCKQAYKKFLHSFEDFYRKLGVTLVAHPRGARTPPAGRSLIRDRDRQPPTSSSASSTPTGTPTQRVKDKDSDKSETDKSEKSEKEDKVEKPEKAKEKPRVSDGEDSADNQPLITTAPKVEKEKEKEKPKEKDKEKEKDREKEKEKDKEKEKEKEKDKEKEKEKEKEKEKEKEKEKEKEKEKDKEKEKEKEKEKDKEKKEEKIAAPSEDKSVMKPRSQSKTRSLLPIKIESHEKRIPKRRPLSSKSESANLSASRASRRPHASTDSDSSGRASRCGPTKKMQSRRSQSANSASSGNTIASNSSKRPRKRKNTEPSTSECTRSGGANVKAQVGDKLKVYYGPTQSESKVTYEAKVIEISAEGLLRVHYTGWNNRYDEWIKPQRIALNVTQHEQRNKKTTGMNRRVRAKRTEESSARSDSDSDSDSDEDVKRPPKKSDDKNNSKNQSRSKDAKSSDSSSSSKPRKRPVRNISTPTNVSPAKKPRPSSTGGHQGRDYDLNEIRSELKGLHTVKQEPEEPKQEPSEKDTTPPAQVSAPPPEPPQPDKQPEDVYEFKEPEPFELELHDEKKKRTHRIFDDISPSKYTSTLSKSLSEEISEDPLRPRPSTLRSPSLSPFRDFGATRDVLGQQSPEDDSKDGLFSLDDDSFPGDGSSGPIFEGFTPAKNQETYSKKSKVSKLRELIDDSPDSPADDEQSSEDESEDIAMKEDEEEDRKPGPAAPVVEPVKTSEPEEAPDVNEQPLAELIKQDKEDVVKIEPESEISNPIEEVSEIPEPPKTPPSKKAEPQNMNEASTSNIDSTEIELKQETPELKNEEPPKLISIPLPLTEPKETTPKVKIVIENIDHKKLDPEPIASKLELPSSPLIDTEEDKSEPDSPARIDVLPEPPPGFLLQSEGPKIAEKLLKAINSAKRLSMSPPPLDRAPTPKEEVIKTNNPEGKMSPIAPEIKTNIMKSEPPKPLPKIIEPKKFGATDLGDPIFGEPSNMTDAKRDLADIKKVKPKEPSPPRLQSPLSVLERRKSVCDLPLSNPGKNNKVLSDTIQKLSSQINQSAATVAATLPLPPFPHADRSDSSDSDDSDRRLIIDKLSVDEWGSGSSEAAGAGAGVIPVPVVTAALPAPVLAARALHAGKSPGEWSAGESLLMLEDACKNERKHSASVVVAGSGRVGSAAALATASGSGAPASAPVNASGPGAEEDSNISLLLCEETIPGSPAPDSEPAPPRQRLHMPFACAPPHQSHSKEERRGDGSSGSRAGGGGGGGGGGGADGGGAGGWARRHALLDNTPPTTPDSSLDMSPHRERRISERDSPSDRKEDEDEGRANNISPHDMDKPHGVRSRKASECSSSAAGGAGRRRRARRDTDDHAPGDRAPLKYNFYVDLGSNIAAVTVPARRGISTKDAGRPAPAAARAAKLHPATRAHTNKHHSHTLKMRKRVIYLP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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