Basic Information

Insect: Notodonta dromedarius
Gene Symbol: egg
Assembly: GCA_905147325.1
Location: LR990189.1:3606416-3648562[+]

Transcription Factor Domain

TF Family: MBD
Domain: MBD domain
PFAM: PF01429
TF Group: Unclassified Structure
Description: The Methyl-CpG binding domain (MBD) binds to DNA that contains one or more symmetrically methylated CpGs [2]. DNA methylation in animals is associated with alterations in chromatin structure and silencing of gene expression. MBD has negligible non-specific affinity for DNA. In vitro foot-printing with MeCP2 showed the MBD can protect a 12 nucleotide region surrounding a methyl CpG pair [2]. MBDs are found in several Methyl-CpG binding proteins and also DNA demethylase [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 2.6 1.1e+04 -3.6 0.1 29 38 1599 1608 1569 1609 0.66

2 2 3.7e-13 1.5e-09 37.5 0.0 4 73 1640 1702 1637 1706 0.87

#	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	2.6	1.1e+04	-3.6	0.1	29	38	1599	1608	1569	1609	0.66
2	2	3.7e-13	1.5e-09	37.5	0.0	4	73	1640	1702	1637	1706	0.87

Sequence Information

Coding Sequence: ATGAGTGCTACAACTCTAATGGAAGACGAATACAGTGTAAAGCAACCACAAGAAGCAGATATACCGGTGCAAGATGCCGCAACAATTTCAGAAGGTCAATCTGAACCATCTCTTCACAAAGCCATGGTGAAAGACGATGATAATGGCGGTAATCTTGAAATAACTCCATCTAAACAGCCTTTAGAAGAAGCTCTAGCTAATGTTGAAAATGCAGATGCTGTCAACAAAACTATGAGCCAAAGTTTACAACAACTGGCTAATGTTTCTACTGACATAAAACACTTAGATAGATCATCTGGAGATTTTCAAATTCAGGCTGAGAATACTATTACTATAGATAAAGACAATACGGCAACAGAAATAACTCCAGGTTTGATTGAAAATGAAGATAAATTAAATAAAAATGAAACTGTTGTATCAAAAATGGTGATGGAAGATGCTTCATCAGCAAAAGTCACTGAGGACAATAAAACTCATGTATCAATTACATTTATCGATAATAAATCTGTAAATGATAATGATATTACATCCCAGGATGTCTGTAATGATAATAATATAATCATTAAAAATACAGTTGAGCCATTATCTCAGTGTACCAAAGACATTGAAACTATTGATTCAGTGACATCCCAAACAAAAGATGATGAACCTGACTCAGATATGAGAATTGACAATGAAGATGATGAATTAGAATTAAAATGGGATGATGATAATGATGATGATTTAATGAAAGATGATATGGAATGTGATGCTGGTATTGAAGAGCAGGTTGAGACACTAGCAGATGAGTCTAGTATGGATATAGATTTGAACAACGATGAGGGGGATGTATTGAATGATAACCCTATAGTCAACAATGATAATGACAATAACGATGTTGAATCAAATAATGAAGAAACAATCCAGAATGCAGATAAAGAAACTGATGTCAATGTCCAAAATGATGAAAATACAAATGTTATTAATGAAAATGTAACTGAATCTGAATTAAATGCAGCAATAGCAAATGAAAATAAAGAAATGAATGTTCTGAATCATGAAATCTCATTAAGTCAAGATGTATCAATGGACAACTCGAGTGATCTCATCAATAAAGATCACGGTATCCACAGACCAGATGTTATGTTAGAAATACCAACACAAGAACTGATTGATATTGATGATACTGATCTATCCCTCAATCTGGATCAATCAAATGAAAGTCCAGAGCTAAATGAAATATTGACTGATAATAATGATATGCCAGTTAATGATAATAAAATAACAGACGATGAAGCAACATTCACTGTCAAAGATGTTGAATTAGGTATAACAGCTGATACTAAATTGCAAGAAAATGTAAAAGACTCAGTAGAAAATATAACTGAAAAAGTATTTGATAGTAACTCCCAAGATCAAATGCAACCATCAACATCATCTATTACTGACAAAATTACGATGGGCACGTCAGAAATGGCTAATGTGACTGACAGTCAGGGCAAATCAGGCTCCTCTGACGTTTTGGATGATGTGGCTAAGGTGTCAATAAGCTTCAATCCAGTAGTATTAGGAGAGGAGGACAAAGTTTCAGAAAGTGTCAGCCCAACTGCTCCAGAAAACAATATTACTGAAGACTCAATGAAAGCACCTGAAGTATTAGAAAGTGTCAATCCAGGTGTTACCACCTCAGTTGATATGTCTGAAGTCACTGAATATATGGACCCATTAGTGTCATCTACTATTAAGACTTCTGTTACACCTGACAAGGTTACTGCAGTGTCGGACAGTATCAATTTAATAGCCATCACCTCAAATAATAGTCCTGAAGTTACTGTAAATTCAGGTATGTCTATGTCATGTACTGAAATGTCACTAGAATCATCAGGAAAGGTCTCTGAGATGTCTGAAAGTATCAACCCGCAAGCTACAACATCAAGTGAGTTAACTAAAGTCACAGCCAATGTGGGCACATCAGAGGAATTGCCTCCAGTGTCAGACAGCATTGTTCCTGGACCTTCCACATCAAGTGAATTGCCCCCTGTTGCTGACAATTTGGAAAGCAGTAATCAGATGACGACAGCAGAACATTCCGAAGATTCAAACGCGCACCAATCAGAATCGGAGGTGAATAGAGACGAGAAAGAGACAGACATATCTCCCCCTGTGGAGAGCGAAGGAGAGTTCCAATTCATGATCAGTAATGTTGAGAGTCAAGGTGATGAAACAAAGGATATGGAGAGTATTGAGGTACCTGTTGAACAGCCGGTTAGCAATGAGGACAAAATTGAAGATATTGCAGAAGCTGTTGAAGCCATTGAACCCCTGGATGAGACACAGCGAGTGGATGACGATCAGACGCGCATAGAGACAGTCAGACTGTCAGACACCTCTGACAACGAGGTGGACGCTGAGTCAGGGGAACAGACACGCGAGCAGACAGACGCGAAGATAGCCCAGGAGAACGCAACATCAAGTGATCAGAGCAAGCTGTCTCCGAGCAAGACCAAGAAACTGGAGTTGTCGTCGACCGACCAGCCCGTGTTCAACATTGTGGACCTCGAGGAGAGCTCTTCGGAGGACGACGTTCAAGAAATACACAAAGAACCGGATACAGTGCCGGAAGTCGCCAGCACAGATGGCGTGACGAGCGTCAATCTGCCCAATGACATCGAGGTGATGTGCACATCCGCCGGAAACACGTCCGAGATCGTTACCAAAGAGGGAGAGGTGGTAATCAATGGGGTGCCGAAACCATCCCCCGTTAAAACTGCGAGACTGAATACCAGTGAAGTGTCCATAAAAACAGCTGGCACTCTCACGGAATCGACACTAGTTATACCAGAGGCGAAGACAACGCAAAAGACATCAACAGAAACTAGGGTGAAGCCCAAATTGTGCCTGGAAATATTCAGTCTAGATTCAGACGAAGAAGATACAAGTACGCCTGCTAAAGAGCAACAAAAGGCTCCGTGCGAGCCGGAGCCGGCGGCGGGCAGGTGCATGAACCCGGGGTGCCGCAGCGCGCTGCCCGCGCCCCCCGCGCCCCCCGCGCCGCCCGCGCCCCCCGCGCCCCCCGCGCCCCCCGCGCCGCCCGCGCCCCCCGCGCCCCCCGCGCCGCGCGCCCGCGCCGCCCGCGCGCAGCTCTGCCATCCCTGCGCCGCCGCGCTGCATCACGCCAAGCAGAATCTAATAACTGGTATAAAAGATCTCCGTCCGCTGCTGGAGCTGGGCGCGGACAAGATGTCCCAGGACCTGGTGGAGATCTCGGACTCGGAGTCCGAGGACGAGGCGGACGAGCCGAAGCCGCCGAGCGACACCATCGGGGAGAAGGGAGCCCAGATGCTTGAAGAGAATCTCGCCGCTATTTTCAACGAGACATGGCGCAAATATAAACTGGACGCGAGACTGAAAGATACCCACGACATATTGGATGCGGAACTGTTGAAATTGGAAAACGAGAGCAAAGAGATAGATGACATGTTGAACGAGTGCCAGGTGGCGACGGACCAGCTCCGCAACGAGCTGTACGCCACGTTCGAGCGCGGCTCCCGCGAGCTGCCGCCCTTCCTCATCTACGACACGCCCATGACCAGCTACATTGGTCCGGAGGTTGAGAAGACGGTTCTGCCGCCGCAACAAGAAACGTTGCGTCAAAGTAAAAGGCGTTTGCACACCGCGGCGGAGAGCCCCGCCAAGAAACCAGCTATACCGCTTGGATACACATCGCTGGACACAGATACAGCACAACAGAATATACAGGACTCCAAAACAGCTTTGTCTGATGGTGATAACAAAATAGATGATGATACGGAGGTGTCTGTGGTGCGGCTGTCGGCGGAGGCGGCGCCGGCCGACCTGCCGCCGGCGGGGGCGGGGGCGGGGGGCGGCGCGGCCGGGGGGGCGGGGGGGCCGGCGCGCCCCCCCCTGCGCGCCGGCGCCGCCGTGTTCGCCATGCGCAACGCGTTCGGGCCCTGGCTGCGCGGCAAGATACTCGAGTGTTTGCCCAAAACGAACTTGTCATCGCCGTATACAACGTGTCGTGTCAAATTCGACCATAAAGTCAAGAATCCGTGCAAGAACCTGACCGCGCGGTGCCTCGCTTACCCCGAGCCGGCTGAGTTCAGGATGACTATCGGTACTAGGATAATAGCGCTATACAAGGACCCTGGCAATGTTAAGAGGGAACAATTCTTCTCGGGCGTCGTCGCCGAGATACCCAACCCTGTCAATAGCTACAGATACCTGGTGTTCTTCGACGACGGGTACGCGCAGTACGTGCAGCACTCGCTCACCCGCCTGGTCTGCGAGAGCTCCTCCCTGGTGTGGGAGGAGGTCCACCCCTTCTCCAGACAGTTCGTGAAGGACTACCTGATGTCGTACCCCGAGCGCCCCATGGTGCGGCTGCACGAGGGCCAGAGCCTCAAGACTGAGTGGAACGGTAAGTGGTGGTCGTCGCGCGTGCTGGTGGTGGACGCGTCGCTGGCGCAAGTGCTGTTCCTAGAGGACGGCCGCAAGGAGTGGGTCTACCGCGGGTCCACCCGCCTGGCACCACTATACCTCGAGTTCCAGGCAGCCGGCAGGCATAGACAACGGCCTATGCCCAGGAGCAAGGCGGCTACTGGGAGCAACATGCCCTACGTGGAATACACACGCTCGGACGAGCAGGACAGCAACAAGCAACAGAACATGCAGACGCAACAGCAACAGAATGAGGAGTTGCGTCGGCAGCGCGCCGTGGCCCGCAAGTCCACGGCGGCGCCGCCCCCCTCCCCCGCCCCCGCCCCCGCGCCCCCCGCCCCACACAACCTGGACACCGTCACCAGCAGGGTCGTGTACTACACGCCGAAAGCGGCCGTCAAGCCGTACAAGATGGTCCCGCACGGCTGCGGCCCCCGCTGCCGGCGGAGCGACGTGCTGGCCCTGAAGGAGCTCAGGACCTACAACCCGCTGGCGAAGCCGTTGCTCAGCGGCTGGGAGAGACAAATAGTGCGTTACAAAGGGCATAAAGAGGTGATGTATCGCGCCCCTTGCGGCCGCCGCATCAGGGATATGGGGGAACTGCATCGGTACTTGAGAATAACCCAGAGCGAGCTGCCGGTGGACCTCTTCGACTTCTTCCACGGAACCCACTGCCTCGCCGAGTTCGTGCTCAACAAGTGCCTCGTGGGGAAGAAGGACCTCTCTCATGGCAAGGAGAACGTGCCGGTGCCGTGCGTGAACTACTACGACGATTCGTTGCCCGAGTTCTGTTCGTACAATACGGAGCGGACGCCCACTGCTGGGGTGCCACTTAACTTAGACCCTGACTTCCTGTGCGGGTGCGATTGCACCGACGACTGTATGGACAAATCCAAGTGTGCTTGCTGGCGGATGACGTTAGAGGGCGCTCACACCATCGGTCTAGAGGGTCCCAACGTGGGGTATGTCTACAAGAGGCTTCCGGAACCTCTGCCCTCAGGGATATACGAATGCAATTCGAGATGTAAATGCAAGGCGACATGTCTGAATCGAGTAGCCCAACACCCTTTGCAGTTAAAATTACAGGTATTCAAAACGCTGAACCGTGGTTGGGGCATACGCGCGTTGAACGACATACCCAAAGGTGCGTTCCTGTGCGTGTACGCGGGCAACCTGCTCACGGACGCCACGGCCAACTTGGACGGTTTGAACGAAGGTGACGAATATCTAGCAGAGCTGGATTACATAGAAGTGGTGGAACAGATGAAGGAGGGGTACGAGGAGGATATACCGGCCGCAGATAGGAAGATGGATAAGAGGGAGCTGGCGAAGCAGGAGGAGTCCTCGGAGGAGGAGTCCCCCTCGGAGGACGAGGGCCGCGCCGGGACCAGCGACAAGGAGGACGACGACTTCCAGCCCGGGTACATCGGGCTCGGGGTCATGGAGTTCAATAAAGCGTTGCGGAAACGGAACAAGACGAAGAAACATGATGAGGAGAAAGGGAAAAGCAAAGAGACAGAGAAGGAGCATACTAAGGATGATACCGAAGACTGCATCACCATCAGCGACGACGAGGAAGTGCGAGAGCCTTCCCGCTTCACCGCGCAAGCTGGCATGGGCGCCAACGCGTTCATATCGAAATACAGGTCGGTGCGTTCGCACTTCGGCAAGGACGAGGCTTGCTACATTATGGATGCTAAAGTACAAGGCAATATCGGAAGATACCTCAATCACTCGTGCACGCCCAACGTGTTCGTCCAGAACGTGTTCGTGGACACGCACGACCCTCGCTTCCCGTGGGTGGCGTTCTTCGCGCTCTCCCACATCCGCGCCGGCACCGAGCTCACCTGGAACTACAACTACGACGTCGGCTCCGTGCCGGGCAAGGTGCTCTACTGCTTCTGCGGCGCGCCCAACTGCAGGGGGCGCCTGCTGTAA
Protein Sequence: MSATTLMEDEYSVKQPQEADIPVQDAATISEGQSEPSLHKAMVKDDDNGGNLEITPSKQPLEEALANVENADAVNKTMSQSLQQLANVSTDIKHLDRSSGDFQIQAENTITIDKDNTATEITPGLIENEDKLNKNETVVSKMVMEDASSAKVTEDNKTHVSITFIDNKSVNDNDITSQDVCNDNNIIIKNTVEPLSQCTKDIETIDSVTSQTKDDEPDSDMRIDNEDDELELKWDDDNDDDLMKDDMECDAGIEEQVETLADESSMDIDLNNDEGDVLNDNPIVNNDNDNNDVESNNEETIQNADKETDVNVQNDENTNVINENVTESELNAAIANENKEMNVLNHEISLSQDVSMDNSSDLINKDHGIHRPDVMLEIPTQELIDIDDTDLSLNLDQSNESPELNEILTDNNDMPVNDNKITDDEATFTVKDVELGITADTKLQENVKDSVENITEKVFDSNSQDQMQPSTSSITDKITMGTSEMANVTDSQGKSGSSDVLDDVAKVSISFNPVVLGEEDKVSESVSPTAPENNITEDSMKAPEVLESVNPGVTTSVDMSEVTEYMDPLVSSTIKTSVTPDKVTAVSDSINLIAITSNNSPEVTVNSGMSMSCTEMSLESSGKVSEMSESINPQATTSSELTKVTANVGTSEELPPVSDSIVPGPSTSSELPPVADNLESSNQMTTAEHSEDSNAHQSESEVNRDEKETDISPPVESEGEFQFMISNVESQGDETKDMESIEVPVEQPVSNEDKIEDIAEAVEAIEPLDETQRVDDDQTRIETVRLSDTSDNEVDAESGEQTREQTDAKIAQENATSSDQSKLSPSKTKKLELSSTDQPVFNIVDLEESSSEDDVQEIHKEPDTVPEVASTDGVTSVNLPNDIEVMCTSAGNTSEIVTKEGEVVINGVPKPSPVKTARLNTSEVSIKTAGTLTESTLVIPEAKTTQKTSTETRVKPKLCLEIFSLDSDEEDTSTPAKEQQKAPCEPEPAAGRCMNPGCRSALPAPPAPPAPPAPPAPPAPPAPPAPPAPPAPRARAARAQLCHPCAAALHHAKQNLITGIKDLRPLLELGADKMSQDLVEISDSESEDEADEPKPPSDTIGEKGAQMLEENLAAIFNETWRKYKLDARLKDTHDILDAELLKLENESKEIDDMLNECQVATDQLRNELYATFERGSRELPPFLIYDTPMTSYIGPEVEKTVLPPQQETLRQSKRRLHTAAESPAKKPAIPLGYTSLDTDTAQQNIQDSKTALSDGDNKIDDDTEVSVVRLSAEAAPADLPPAGAGAGGGAAGGAGGPARPPLRAGAAVFAMRNAFGPWLRGKILECLPKTNLSSPYTTCRVKFDHKVKNPCKNLTARCLAYPEPAEFRMTIGTRIIALYKDPGNVKREQFFSGVVAEIPNPVNSYRYLVFFDDGYAQYVQHSLTRLVCESSSLVWEEVHPFSRQFVKDYLMSYPERPMVRLHEGQSLKTEWNGKWWSSRVLVVDASLAQVLFLEDGRKEWVYRGSTRLAPLYLEFQAAGRHRQRPMPRSKAATGSNMPYVEYTRSDEQDSNKQQNMQTQQQQNEELRRQRAVARKSTAAPPPSPAPAPAPPAPHNLDTVTSRVVYYTPKAAVKPYKMVPHGCGPRCRRSDVLALKELRTYNPLAKPLLSGWERQIVRYKGHKEVMYRAPCGRRIRDMGELHRYLRITQSELPVDLFDFFHGTHCLAEFVLNKCLVGKKDLSHGKENVPVPCVNYYDDSLPEFCSYNTERTPTAGVPLNLDPDFLCGCDCTDDCMDKSKCACWRMTLEGAHTIGLEGPNVGYVYKRLPEPLPSGIYECNSRCKCKATCLNRVAQHPLQLKLQVFKTLNRGWGIRALNDIPKGAFLCVYAGNLLTDATANLDGLNEGDEYLAELDYIEVVEQMKEGYEEDIPAADRKMDKRELAKQEESSEEESPSEDEGRAGTSDKEDDDFQPGYIGLGVMEFNKALRKRNKTKKHDEEKGKSKETEKEHTKDDTEDCITISDDEEVREPSRFTAQAGMGANAFISKYRSVRSHFGKDEACYIMDAKVQGNIGRYLNHSCTPNVFVQNVFVDTHDPRFPWVAFFALSHIRAGTELTWNYNYDVGSVPGKVLYCFCGAPNCRGRLL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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