Basic Information

Insect: Agrilus mali
Gene Symbol: mybl2
Assembly: GCA_029378335.1
Location: CM055656.1:5038838-5048415[+]

Transcription Factor Domain

TF Family: MYB
Domain: Myb_DNA-binding domain
PFAM: PF00249
TF Group: Helix-turn-helix
Description: This family contains the DNA binding domains from Myb proteins, as well as the SANT domain family [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 0.07 1e+02 4.2 0.1 20 43 2119 2148 2118 2151 0.74

2 4 1.3e-10 1.8e-07 32.2 0.1 1 35 2157 2193 2157 2204 0.92

3 4 4.1e-06 0.0059 17.7 0.0 1 43 2210 2256 2210 2258 0.95

4 4 2.3e-12 3.4e-09 37.7 0.0 4 42 2270 2307 2268 2310 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	4	0.07	1e+02	4.2	0.1	20	43	2119	2148	2118	2151	0.74
2	4	1.3e-10	1.8e-07	32.2	0.1	1	35	2157	2193	2157	2204	0.92
3	4	4.1e-06	0.0059	17.7	0.0	1	43	2210	2256	2210	2258	0.95
4	4	2.3e-12	3.4e-09	37.7	0.0	4	42	2270	2307	2268	2310	0.96

Sequence Information

Coding Sequence: atgaaaaatcttCATGTACAAAACAACAACAGGGCAGAAAAGGAGACGCGATGGAAAAACCTATTACGTAAATATGAAGAGAGAAACCTTTTACTCAAAAAGCAGGAACAAGCTCTTCGTTTGCAGTTTCAAATGGAACAAAGTGCCAATAACGACCAACCATCAATACATTTACATGATTCAAATTTAGTTCCCACTAAAGACGATGAAAACATTGATTATAGGCAAAGGAACCAAAATTCTTTACAATTTCTCTCACATTTAGGTTACGCCGTACGAAAACATGTTCCTTCATTGCCCTTAATTTCAGCAAAATTCCAAGGTTCGCAAAAACGTCTAAATATTTCCAATAAAGAGTTAAATAGATCATTGTATGAAGAGGACTGCCTAGAATTTCAAAAACCCAGTAAGATgcgaaaagaaaagaaaaaatacaaatgcgAAAATTCGGGTGGTAAAGGACTATCGAAATGTGAATTGGCGCAGTGTAAAGAAAGACATGACAAATCAGACAAGTACGCTAAACAGTTAAacgatttaaaatttgaattagcGACTACTATTCAAAGTTTACGTGGTTTGGAAAGTGTTAATACACAGCTTAGAAATGAGATGTGTCTGCTTAAAGATAAAAGCAAGAACGTTACAAAAAGATTCATTGATACAAAGCTCAATGAGGCACATGCTATTGCTAAAGTAAAGGAGAAACTCATGGaaaacaagaaatattttgacgACAACGCTAGTTTGTGTATGTTGGCAAGAAGAGTTAGCGAAACTCTTATGGAGATGGCTAATTTTACAGAAGTGGATTTAGCAGAAGTAGAACAACGAatagaaaatgtcaaaaaagaAGAAGCAGAACTGCTTGCAAAGCCAAAACCATCCAGAAAAAACAGCATATGCATTTGCTCAGGCTGTTGCACGTGCGCAGAAGATTTAAAGAGAGAAAAATTGCGAGCAGaaagaataaaacaaattttgtctGAAAAAAGGGATGCCTGTACCACAAAATCTTTTGGAGTTATTGAAGATATGTTACCTGATCTCGAAGGTGAACCTGTTAAAGTAATAAGAGGAATCGAACTGGCTTGCGATAATATTGGACAAGGAGGTGGAGGATTACTTGATAAGCTCAGAGGAATAGAACTAGAAGAACAATTGGAATCTGGTGCTATAATTGAACTTATAGGAGACTTCGATGAACAAGGAGAAGAAACTGAAGAGTGTGAATTAGACGAATTCGGAAGAGGTCTGACAGGTGAATTGGCAGAACTTGAAGAAGATGTCAGAAATATAATCCGTGAAGACTTGCTAGACTTTCCATCAGACTATGCTGCTGGTCAATTACTTGCAGAATTTGTTCCGGAGAGAGAATTACTTGAAAGCACCGGTGGACCACAAGCCGTAGACGAAAGAGACTTAATATCAGAGGCAGATCGAAGTGTTCTTGGAGATAGATCTGGTTACGGTGACGACGAAAGTCGAAGTTATGCTGAAAGCCTATCTGGTTACGCCGAAGGTCCATCTGGTTACGCTGGCGAAGGACAAGATTATCAAGAAGGTGCCCCAGGTTATGCTGGTGGAGGCTTAGACTATACTGAAGGTGCTCCCACGGATTACACCGCTGGAGGTCCTGACGGAACTGGTTACGATGATACAGGTGCCCCCGGTTATCCAGGTGAAGGTGGTCTTGGACCCGATTCAGGAGCGGTCGCAGGTCAAGGATTTGCAGAAGATGCAACTAGTTACGCCGGTACAGGTGCGGGTTATGCTGAAGAAGGTCCTGGTGGCGGCGGCGGGGGTGCTGGTGCTGGTGCAGGACCCGGAGAAGGTGGAGGCCGAGAATTTACAGGAGATGTTTCAGGTTTCGGTGCTTCAGGCGTCCAACCTTCGGAAGGTGCAGGTGGTTACGCTGGTGAAGGTGGTCCTAGTGGTGcaggtggtggtggtggtggtgctGGAGCCGATTATGGAAGGGGTGGACCTGATGCTGTTGGCGCAGGTCGAGAAGGAGCTCCTGATATCACTGGCGGAGGTCCATATCCTTCAGGAGGTGAAGGCCCAGGGGCTGCTTACGCTGAAGGTACTCCCGGTGGTGGCCCGGCGGCTGCTTACGCTGAAGGTACTCCCGGTGGTGGCCCGGCGACTGCTTACGCTGAAGGTACTCCCGGTGGTGGCCCGGCGGCTGCTTACGCAGAAGGTACTCCCGGTGGTGGCCCAGGTAGTGGACCTGGTGCAGGACCCGAGTATGGAGGAGGTGGGTCCGATATTGCTGGTGTAGGTCATGGACCCACAGAGTCTGATATCACTGGTGCTGCAGGCGTATATCCATCAGGAGATGGAAGTGGTTTCGCTGGCCCAGGTGCTGAAAGTGCTTCTGATTATGCTGATGCAGGCCCGGATGCCGTCGGTGCAGGCCAGGATGGCGGTGGTGCAAGTGAAAGTTATGCAGAAAGTGGTCCCAGCTATACCAGCGGAGGACCAGGTTTTATGGAAGATGCAAGCATAAGTGAAAGTGATGCAGGTTATGATCAAACTAAACCCAGTTATTCCGAAGATGGAAAAGAGATGTCAGAAATGGCTTCCATTTCTTACGACGACGAACGAAATTTGTCCGAAGCTGATTCAAGTTTGTATGGAGAACAAGGAAGTACTGGTGAAGGCGAAGGAGTTGATTCCGCAGCTAAGTTAGATACATTCGAAGCAGATAGAATTGTTTCTGAAAGTGGGGAAAGCATTTCTACAAAAGCTTCTGAAGAAGGACGGGGTAAAGAAGAAGAGCATCCCCCAGGATGCGAATGCGTTGATTGCATTTGTACAGGAGTCATAGAAGAAAAAGGGCGTGCAGCAATCGAAAAAACTGTAGGAGGTTTAGAAACCATCGACGAAGAAAGATTAGAAGAAGATGCAAAACCAGGACGAACGGGAGGTGAAAAGTTTGTAGATGAAGACGGTCCAGAATCAAGAGCAGGAATCTCTCCTGATATAGTGGAATGCTCGGATAAGGGTACATGTACCAATATGGacgatattttaaaattgctaTCATCTATGCAACAATGCAGTTGTGCTACGCAGGAAAGAAGAGAAAAACCAGAGAAAAAAGAACGACAACCAGAAGAACCAAGAACATGCTTATGCACGGGCGAAGGTCAAAGACGATCTTCTAGCAGTGAATGTATGGAACCAGAGACATGTGTTGTATCCGGGGATGCTTGCAAGGAAGTTTTTTCACAAATCCTAGACAATTTTATGCCTTTTCATGGTTCTCACGGTGAAACTGAAAAAAGGGGTGAGGGCGTCGCCGACTTATCTGATGAAATAGGGCCCGACGATTACAGCGTTACAACAGCTATTGCCGACTCAGGAACAATCGAAATTATCACAGAAGGACCTGACGGTGTAATAGAAACGTCGGTAACATACACGCCATCCGGAAATATAGATGTTAAAACGGAAATTACAGAATACGAATGTCCAGTTAAAGAAGAATGTCTTGCTAAAGCTCGAGAAAGTGAGATATACGCAGATATAACCGAGCCTTTCGAAACTGGTGGCCCCGAAGACGCTGACGAAATAGCAAGAGACGTTGCTGATGCTTTGAATAGAGCAAATCAGGAAGTTATGGATGCCTTAAGCAGAGCAAATCAGAGTGTTACTGATGCAATGGAAAAAGCAAACCGAGACGTAGAAAGTGCCTTAGCAATGGTAATGGCCCGAGGGTCTAGTAGTCCTATGGGTTCGCTCCTTGAAACTAGTGAAAAGGCTGTACAAGAAGAAGATGGAGGTGGCATCCTTGAAGAATCTGGTATTGAACCAACAGATGTAGGAGAAATTGGGTATGAAAAAGAAAGCGGAGAAATAGGTGAATCGGCATACGGAGAAGAAGGACCTGGTCGAGGAAGAGAAGACGCAGGCGGATTAGAAGAATATGGAGAAGGTTTAGACAGAGGAGGAGATGGAAAACAATTGTTAGATGACGAAGGAAGACCCATCAGGGATGCAGAAAAAGGCGAAAAAGAATGGGAAGACAGCGGAAGAGGGCCTGGCGGATCTGAAAGAGCCGGCGAGGAAGGTTGGAAAGGTGGTGATGAAGGACCTGGTGCAGACAGAGGAGGGGAAAAATATGATGCTGAAGGGGAAGGTGGTGCAGGAATGTCCGATAGGGGAAGAGATGGAGAAGGATGGGAAAATAATGAAGGAATGCCTGGAGGAGgaagagaaaaatattatgatGAAGGGGAAGGTGGTGCAGGAATACCCGACAGAGCAAGAGTTGGAGGCGATGAAGGAGACGATAGAGGATCTGGTTGGGGAGGAGAAACTGGGGGCGAAAGGGAAGGAGGAGAAGGAAAACCTGATACAGAAAGAGGTGGAGAATATGAAAATGACAGAGGTGCACAAGAAAGAAAAGGGGGCGAGAATGAGTGGGATgatgaagataaaaaaattgacagaGATAGAGAAGACTTCGATGTGGAAGAAGAAAGATCAACCAAAGCATGGGAAGATGAAAGAGGTTATGGTGAAGCCGAAGCACAAGATGAAACACCAATAGGTGGAGAAAGATACGTAGATGAAGAAGAAGGCGAAGTTCTTTCTACCATAGGCGATACACCAATGGATAGAGAAGACGAAGCAGGCGAATGTACTTGTGAAGAGTGTTTAAATAAAGAACCTGGTGTTTTAGGAGGTGGTGACTGCACTTGTACAGCTGAATGTAAATGCCCTATATGTACAGATTTGAATATAATAGAAAAGGATAGTCGTAGGACAACTCAACATCCAATCGGTTGCACATGTATAGACTGTTTATGTAGAGAAGACTTACAATTAAGAGAAACTCTTGATATTCACAAAAAGCATCCCCCTGATTGCGATTGTATTACATGCATATGTGGACCAGGTGATCCAGACAAAAGCAAAAAGCAATGTCACCCCCCCGATTGTGAATGTTTGCAGTGCATCTGCTTGCCCCCTGATACaacaaaagaattaatttgtaaGATTAGTGTAAAGTTCTCAGAACATCCCGAAAATTGCGATTGCATTGATTGTATATGTTCCAAAGGAATTGAAGTTACAGAAGAAACAGGTATAGGCGATACCTGCATATATTCAGACATGAAAATGAAAGATGTAGAGCTTCAGGCCGTTAAAAGTGCAGGTGATTTTGTAGTCGAAACACCGTGTGACCATAAACCTGGATGTGATTGCTTGGAGTGTATATGCGAAACATTTGAAAGTCGTATAGCAAAGAAGCTGGAAAGAAGTAAGTCAAAATGTGCCGAACCTCAAGTTCACGAATTTAACTGCGAATGTTTAGAGTGTATATGTAAAGTTAATGAAACGCCTTCTTTATGTCATTCACACGAATCTCATTCAGAAAACTGTAATTGTGTACATTGTCTATGTGAGGGAGAAAGAGAAATCACCACCCAAGATATTGAAGAAGAATTTgagagaaaaaaagaaatcgtgAGTAACATAAGGGTTCGGTCCCAATGTCCTTACCCTAGTCATCCAACTGGATGTACTTGtacagaaaattatttgaaaagatCATTCGGTTATGAAACAAAACCATCAGAATGCCCCTGTTCAAGAGAAAACCTACAGCCGGAAATATTAACTTTGAAAATGCCTGCAGCAGAACAAATAGAGGTGACAGATGTTAAAAGAATTTCTTCAGATAGCCTTCTAATCAAATGGACCGAATGTGCGGTGAATGAAACAACCGGATatgaaatatttgttaatggAGTCTCCAAGTCACGCGTGTATACCAAATTTCGTACTGCGGCAGTTTTGACGTCTTTAACGTTTCATTCTGATCTTGATATAAAAGTTTACGCTACTTATTATGGTGGTTATTTAGAACCGCCAGCGAAAGCAGTATTTGAGTGTCACAGTGAAAGTTTATCGAATTTTGATGCCATGGATGAATTAGAAGACATACAGAAATtggaattattactaaaatcagAGAATTCTCAGCTCAATGAATCAGAATTTTGTAGCTTCTTGGGTGATGCTAGTGAAGATGAGGCAAGTCAAGATGAATGTTATCTTGAAGAAGTGGAACAAGATGTACAAGATTATGAGAAACATTTCAGTAACTACCAAGGAAATTTTGATGAGTCTCATCCAGTTAAAGAGGAAGAATTAATTCATGATTGCAAAGACTTGGCATACACTTTGAAAGCTCTACAACAAAATTATCGTgtcctaaaaattaaatacagaaCTGCAGAAGATAAACAGAAAAAAGCCTTAGAAACTGAAGTAGCTTCCtgtgaaaaagaaataaatgagtttaccaaaaagacgatttatgaaccACCTCCTCTTGGATGCAACAATTGTATTGATTGGGAATTAATATCCAATGATGATTTTAAagGAAAACACACAGCCAATGAATGTCGAGCTTTTTGGAGCATTTACTTGCACCCCGATATTTACAAAGGCCCTTGGACtgatgaagaagatgaaaAACTTAAGCAGATTGCTGCACAATGCAACTGTCAGAATTGGGAGAGAATTGCAGAGGAATTGGGCACTGGAAGATCAGGTTTTACAACGTTTCTTCATTACCATTCTGTTTTAAGTGAGAAACTTAGAAAGACCCGTTTCGAACCTAAAGAAGATTTGTTACTTCTGAAATTAGTAGACAAATACAGAGTAGGCAATATGATTCCATGGGGAAACTTATCCGTGTATTTTAGAGGCCGTTCAAGAGCTCAGTTGTACCACAGGTATCGGTACACGTATTATTTAGATCGTTTCATTACAATTCGCCAATTTACTGTAGAGGAAGACATAAAAATAGTAGATTTAGTTGAAAAATACGGTAAAAATTGGACCCTTATAGGGAAAGCTTTAAATCGATCAAGAGCAAACGTAAGGCACCGATATTCCGTTATAGAGAAGTGGCGTTTGCAATATCCTAAAGAAGATATTAAAGAATGCCCTAGACGAAACGTTCAAAATCAATATTTGAAATTGAGGCAACATCATGTGgctgataaaatatttgaacgtGTTGCTAAACTTGATTACATTCCATCACTACATGAAATCGAGAGATACGTAGAAGAAGAACGATTGCAGAGGAAACTGCCTTTAAAGAGTAAAGTGGGTAGTATTACCCAGTTTGACGTCGTTGATACAAAACTAAGAGAATTTTTTAAGGCATCTCACAAAATTCAACCTTCCAATCGTTCCATTTCTGAagcaaatatcaaaaattgtgCAACAGTCATCAAAACTGTTTTGGACGTATTAGGAGCAACATTTATAAATCATTTAGATAAAGAAGCTATCGATAGAGACAATCGTTTGAGCAATCTGGATAGGAAACTATTAACTTATATAGTGGAAGACTTAACACCTAGCACATTGAATTTCATTACTGTTCCTGTTGATGCACAAATTGTACTGTGTCCAAACATACACACTTTAATAGGTTTAAGAAGTCTTCTCATTAAGCACCAGTCGTTTAAATCGCAAATTGATGAAGATCAATTAAATTGCAACTTATTTGAATTTGCTAAGGAAAAAGGGAGGTCAAACGATTatctaaaaagaaatttggtaAAAGAGCTGAATTCAATGACTCCAGACGTTAGGGCAAAGGTGGTTAAAGAAAGACAAACTTTCATGCGCAGGTTTTATTCGTTATTTAGATGGCCCTCTATTATGTCCCTTTCGGAACCAAATAGTTGCGTTAGTCAAGTATTAGTTTTGAATAATAGCGAAGAAGTTGCAGAATCCAAGCCAATGGTCAAAAAAGGGAGACCAAAAAAGAGCTATCCTAAAATTGCTAAAATGAATGAAGCTCGAATGTTACTAAAGTATCAGCCACAACTTGAAGAGGAAGATGTTGATGATCCAAACTCAGAAACGGCTTCaagttctttatttaaaagatatcCGACTACTAgtttaaaaacgtttacatcaaaaagaaaatcatcTCTTCCTGCAACGATTACATCACAAATTGAACCAAAAGTGGCCAAAATTGATCCGATTCCAGAAGATACAGTTCATATcacagaaaaacaaaaaacacttGATACATTCAGAGCTCCAAAAGatactgtatttattaaaaatgaaactgGCGTATGTAATACCTTCTCCTCAAAAAACGAAGATGTGGTAGATAATAACCATCCCCATTACATTAATGGAGAGGCTGACTGTGAAACTTATGGTAACGAAATAGACAGCGATATTCAAGAAGATATTAAAATGttagataaaattataaaagcagAGAAGTGTTCATAA
Protein Sequence: MKNLHVQNNNRAEKETRWKNLLRKYEERNLLLKKQEQALRLQFQMEQSANNDQPSIHLHDSNLVPTKDDENIDYRQRNQNSLQFLSHLGYAVRKHVPSLPLISAKFQGSQKRLNISNKELNRSLYEEDCLEFQKPSKMRKEKKKYKCENSGGKGLSKCELAQCKERHDKSDKYAKQLNDLKFELATTIQSLRGLESVNTQLRNEMCLLKDKSKNVTKRFIDTKLNEAHAIAKVKEKLMENKKYFDDNASLCMLARRVSETLMEMANFTEVDLAEVEQRIENVKKEEAELLAKPKPSRKNSICICSGCCTCAEDLKREKLRAERIKQILSEKRDACTTKSFGVIEDMLPDLEGEPVKVIRGIELACDNIGQGGGGLLDKLRGIELEEQLESGAIIELIGDFDEQGEETEECELDEFGRGLTGELAELEEDVRNIIREDLLDFPSDYAAGQLLAEFVPERELLESTGGPQAVDERDLISEADRSVLGDRSGYGDDESRSYAESLSGYAEGPSGYAGEGQDYQEGAPGYAGGGLDYTEGAPTDYTAGGPDGTGYDDTGAPGYPGEGGLGPDSGAVAGQGFAEDATSYAGTGAGYAEEGPGGGGGGAGAGAGPGEGGGREFTGDVSGFGASGVQPSEGAGGYAGEGGPSGAGGGGGGAGADYGRGGPDAVGAGREGAPDITGGGPYPSGGEGPGAAYAEGTPGGGPAAAYAEGTPGGGPATAYAEGTPGGGPAAAYAEGTPGGGPGSGPGAGPEYGGGGSDIAGVGHGPTESDITGAAGVYPSGDGSGFAGPGAESASDYADAGPDAVGAGQDGGGASESYAESGPSYTSGGPGFMEDASISESDAGYDQTKPSYSEDGKEMSEMASISYDDERNLSEADSSLYGEQGSTGEGEGVDSAAKLDTFEADRIVSESGESISTKASEEGRGKEEEHPPGCECVDCICTGVIEEKGRAAIEKTVGGLETIDEERLEEDAKPGRTGGEKFVDEDGPESRAGISPDIVECSDKGTCTNMDDILKLLSSMQQCSCATQERREKPEKKERQPEEPRTCLCTGEGQRRSSSSECMEPETCVVSGDACKEVFSQILDNFMPFHGSHGETEKRGEGVADLSDEIGPDDYSVTTAIADSGTIEIITEGPDGVIETSVTYTPSGNIDVKTEITEYECPVKEECLAKARESEIYADITEPFETGGPEDADEIARDVADALNRANQEVMDALSRANQSVTDAMEKANRDVESALAMVMARGSSSPMGSLLETSEKAVQEEDGGGILEESGIEPTDVGEIGYEKESGEIGESAYGEEGPGRGREDAGGLEEYGEGLDRGGDGKQLLDDEGRPIRDAEKGEKEWEDSGRGPGGSERAGEEGWKGGDEGPGADRGGEKYDAEGEGGAGMSDRGRDGEGWENNEGMPGGGREKYYDEGEGGAGIPDRARVGGDEGDDRGSGWGGETGGEREGGEGKPDTERGGEYENDRGAQERKGGENEWDDEDKKIDRDREDFDVEEERSTKAWEDERGYGEAEAQDETPIGGERYVDEEEGEVLSTIGDTPMDREDEAGECTCEECLNKEPGVLGGGDCTCTAECKCPICTDLNIIEKDSRRTTQHPIGCTCIDCLCREDLQLRETLDIHKKHPPDCDCITCICGPGDPDKSKKQCHPPDCECLQCICLPPDTTKELICKISVKFSEHPENCDCIDCICSKGIEVTEETGIGDTCIYSDMKMKDVELQAVKSAGDFVVETPCDHKPGCDCLECICETFESRIAKKLERSKSKCAEPQVHEFNCECLECICKVNETPSLCHSHESHSENCNCVHCLCEGEREITTQDIEEEFERKKEIVSNIRVRSQCPYPSHPTGCTCTENYLKRSFGYETKPSECPCSRENLQPEILTLKMPAAEQIEVTDVKRISSDSLLIKWTECAVNETTGYEIFVNGVSKSRVYTKFRTAAVLTSLTFHSDLDIKVYATYYGGYLEPPAKAVFECHSESLSNFDAMDELEDIQKLELLLKSENSQLNESEFCSFLGDASEDEASQDECYLEEVEQDVQDYEKHFSNYQGNFDESHPVKEEELIHDCKDLAYTLKALQQNYRVLKIKYRTAEDKQKKALETEVASCEKEINEFTKKTIYEPPPLGCNNCIDWELISNDDFKGKHTANECRAFWSIYLHPDIYKGPWTDEEDEKLKQIAAQCNCQNWERIAEELGTGRSGFTTFLHYHSVLSEKLRKTRFEPKEDLLLLKLVDKYRVGNMIPWGNLSVYFRGRSRAQLYHRYRYTYYLDRFITIRQFTVEEDIKIVDLVEKYGKNWTLIGKALNRSRANVRHRYSVIEKWRLQYPKEDIKECPRRNVQNQYLKLRQHHVADKIFERVAKLDYIPSLHEIERYVEEERLQRKLPLKSKVGSITQFDVVDTKLREFFKASHKIQPSNRSISEANIKNCATVIKTVLDVLGATFINHLDKEAIDRDNRLSNLDRKLLTYIVEDLTPSTLNFITVPVDAQIVLCPNIHTLIGLRSLLIKHQSFKSQIDEDQLNCNLFEFAKEKGRSNDYLKRNLVKELNSMTPDVRAKVVKERQTFMRRFYSLFRWPSIMSLSEPNSCVSQVLVLNNSEEVAESKPMVKKGRPKKSYPKIAKMNEARMLLKYQPQLEEEDVDDPNSETASSSLFKRYPTTSLKTFTSKRKSSLPATITSQIEPKVAKIDPIPEDTVHITEKQKTLDTFRAPKDTVFIKNETGVCNTFSSKNEDVVDNNHPHYINGEADCETYGNEIDSDIQEDIKMLDKIIKAEKCS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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