Basic Information

Insect: Musca domestica
Gene Symbol: -
Assembly: GCA_000371365.1
Location: Scaffold19252:8450-15889[+]

Transcription Factor Domain

TF Family: zf-BED
Domain: zf-BED domain
PFAM: PF02892
TF Group: Zinc-Coordinating Group
Description: The BED finger, which was named after the Drosophila proteins BEAF and DREF, is found in one or more copies in cellular regulatory factors and transposases from plants, animals and fungi. The BED finger is an about 50 to 60 amino acid residues domain that contains a characteristic motif with two highly conserved aromatic positions, as well as a shared pattern of cysteines and histidines that is predicted to form a zinc finger. As diverse BED fingers are able to bind DNA, it has been suggested that DNA-binding is the general function of this domain [3].
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 8 6.8 5.4e+03 -2.8 0.1 15 25 56 66 47 69 0.75

2 8 0.65 5.1e+02 0.5 0.2 17 26 906 915 899 930 0.81

3 8 0.25 1.9e+02 1.8 1.0 6 43 954 985 951 986 0.78

4 8 0.01 8.1 6.2 2.3 15 29 995 1009 990 1019 0.74

5 8 0.24 1.9e+02 1.9 1.0 15 29 1028 1042 1022 1057 0.80

6 8 5.1 4e+03 -2.4 0.3 8 31 1050 1073 1043 1077 0.78

7 8 1.5 1.2e+03 -0.7 0.4 13 29 1127 1143 1121 1159 0.81

8 8 1.2e-07 9.8e-05 22.0 1.1 17 44 1160 1184 1145 1184 0.88

#	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	8	6.8	5.4e+03	-2.8	0.1	15	25	56	66	47	69	0.75
2	8	0.65	5.1e+02	0.5	0.2	17	26	906	915	899	930	0.81
3	8	0.25	1.9e+02	1.8	1.0	6	43	954	985	951	986	0.78
4	8	0.01	8.1	6.2	2.3	15	29	995	1009	990	1019	0.74
5	8	0.24	1.9e+02	1.9	1.0	15	29	1028	1042	1022	1057	0.80
6	8	5.1	4e+03	-2.4	0.3	8	31	1050	1073	1043	1077	0.78
7	8	1.5	1.2e+03	-0.7	0.4	13	29	1127	1143	1121	1159	0.81
8	8	1.2e-07	9.8e-05	22.0	1.1	17	44	1160	1184	1145	1184	0.88

Sequence Information

Coding Sequence: ATGGTGGTTGAcacaaaaattatggaaaaatattgtcgCCTGTGTGCTGAGGTTGGCACAAATCATCACTGCCTCTACACCGTCGATGGTCGTCCAAATCAAAGCCATaaacttttggaaaaatatttccttccaGCGTTTTTCCAGGTGGAATGGTCGAATTCTTTCCGATATGTGTGTCGCCAATGCGAGACCTATCTGGCAAACTTTAACAGCTACCAGGCATTTGTGTGCCAGGCCCAGAGGAAACTTATTAAAGTTGCAGCAAAGAGTATTCCCAACGAATATTGGAACTCATTCCGGGGTTCCGTAACGGCAAATGATTCGAAAAACAATATATTGCCAATAACAACAGGTTCAGTTGGATTTACCCCAAACTTGTCTGGGATGCTTGAGCTAAACAGAGATTTACAACATTTGGCGCCCAACGCCAACGGTCTGGTAGATTCAAACGCTGTTTTTGAGTATTTTAAAGAGTTGGGGAGTTCGGAGACGAACAGACAAGACAGCAATGCTCAGCATTCGAATACTACTGCTACTACTGAAAATGTGTCACCCAATGTGAAGGAGGAACAACCAGCGTTTTTCCAACGTTCCAATGTGGAAGCCAATGTAGCAACAGTACTGGCGCCCAATGTCCGAAACTTATCCGGTCAAGATTTTAATATGcaaaatctaaattcctccgatcatacaggaaatttagaaacgctgccacccaatgtcaatacaaattcatttcaacacagccaccaaagagaaatgttggcgcccaacgcaaatgtgtccggtaatggaaacaatcaaagccaacaattgcaaccggggaatgacgactccaaaacattacaaaatctcaattcttcggagaatacaggaaatttggaaatgttggcgcccaatgttaattcaaattcatttcagcacagcaaccaaagagaaatgttggcgcccaacgtaaatgtgtccggtaatggaaactatcatagccaacatttgaaactggggaatgacggctacaaaaaattacaaaccgTGGCGCCCAACCATAACAATGTTGGGGATCAGAATCCGAATTGGGAAAAATCAAATGTAAACAACAATGATTCACACCAATTGGTCCCCAACGTTAATagatcgaaggaccaaaatatttatcaacaaaATTCAGCGTCCGACGCCACCGCAACGTCTAGTGCCTTGCAAAATCCCACGAGTGGGGATCATGCTTTGGATTTGAATCCCGGCATTAAGAATTTGGAGACCCGAGACAATACTAAACAAGTTGGGTATCCAGAAAATCCCCAAAATCTGGAGACAAACCCAAGCGCTTCTGCAGTCATTAGGCTTACACAAtcggcgcccaacgtaaataattctgaaaaaagAGACGGTCCGGGAACTTCTCcaaatttggcgcccaacgtccgTTCACCTGTAAGTGCAGCCCAAGAGCCTGCAGATAATCCAcaacaaatggcgcccaacgtgcaTTCACATCTAAGTCCAACCAATGAACCCGTGAAAAATCAAAACGATCCAGGAGCTTCTGAAAATTTGGCGCCCAACCTCCGTTCACCTGTAAGTGCAACAAAAGAGCCcgcaaaaaatccacaacaaatGGCGACCATCATCCATTCACATCTGAGTGCGACCAATGAGCCCAATGTTAGCGCTTCTGGAAATCAAACCCATGACAGTCATCCTTCAAATATTGAGAACAAGGAAGATTTGgcaaatatggcgcccaacgttaaaaCACATTTACCTCCTGACATTGGACTTGCCAAACGCCAAAGAAGGCATAGCCCCCTCTCCAATGACGGAGAACCAGAAAATGCCCACCATCAAGATTCTGATGAATCTGGAGATTTTTCTTCATCTGCTTCGGAATGGTCGGGAGgagaagaacaagaagaagaagatagcAATACCCCCAGCAATGCTAGCGCCAGCGATGGCAGTTCCGATGATGAGCTACCCTTGGCGGagtataaacaaaaaaagaatccTGGTAATCTCGGAAAATCATTGCAGGAAAATACCATGGCACGGGGCTCTAATGAAAATCCAAGGAAAAGTCCAGCATTTGAGCAGGAAAACGGACATAAAACCGCCTATGATTTTGATATGTCCGATGAGGAAAATTTGACAGTCTCCGAACGTCGTTCTACCAAAGCTCAGCGGGAGATATCAGGCCAGGATGTTCAgtcccaaaataaaatatacaaaacagcTTACGATTTTGATGAGATCGACTCGGAAATAGGCAATGAAATCAGCTACTCCGGGGAACCCTTTTCGACGAATGATAAACCACTTAAAACTGCCCTCGATTTTGATAAATTGGATGAGGACATGAAAGAAGAGCCACCCGAGGAAGAAGGGCAAATCCAAGGAATTTTGTCCAGCCAAACAATAGCGGACAAAGCTGGAGGGGAAATACCTCGACGTAATTATATTGAGTCCCTGGAAGACATGTTCGAGAATGACAGTAAACAGGAGCTGCCATACAATATCCGACAATTTCCAGCGGCCTATAAATTTGATTTCTCCGACGACGAGACATCTGGCGATGAGACGTATTTCAATAAATCTGAAAATCAATTGGGCGCCAAATCCAAACGACCCCTAAAAACCTCAtacaaaaaacatttgaaacgaCCCGCCACCCGTGAAGAATATGACGACTTGATAGCCAAATGGAGACCCAGCCTGGAGTGCAGAATTTGTAAGGCCACCTGTGGCAGATTTCAACAGCTGCAACAACACTTTGCCGACCATCACCCGGACGATGAATGTTACGTGGAGTGCTGCCAACTTCAGCTAGGCTATCGCTACAAAATCGAAAAGCACATCTACTATCATCGGGTAGAGGGCGCCTTTAAATGTGAAGTTTGTTTTGAGATCTTTACGAGCAAATACAAGTTGGGTTCGCATCTCGTTCAGCGCCATGCAGCGGGGGGAGAACCCAAACCAAAAGAGATTCTCAAATGCAATATCTGCGGCAAGGAATACGCCACCCAATGTCGATTACACACGCAtcttaaatattgtgatggaaGTGAAGTCCCGGAACCCGGACGCGCCAAATGTAAAGATTGTGGAAAATCGTACAGGTCGCAACtttttttAGAATTGCACCGACGCAAACATCACAGGAATaaaaaaaCGTTCCCCTGCCCGGTTTGCGACAAATTGTTTGCGAGCAAACATACGTTACACTATCACAGTTTCACCCATGCCACCGAACGTAAATTCGTCTGTTGGGTGTGTCAGAGAACCTTTAAGGTACCCTGCATACTGCGTGGACACTTTAAACACTGTCACGTCGAGGAGTACAaagaaaaaatgcgaaaaattaAGGAGCTGCGCAACACGAAAAAGACCTACAAGTGTGATCAGTGCGACAAGGTATATCAAACCTCTATGGCCCTCAAGGAACACAAAGCCCAGCATGAGGGCATTAGCGCGCTCtacaaatgtaaatattgtaGCAAAGAGTATAAGTACAGTTCGAATCTGTCGGCCCACGTCCAAAGGGTGCATCCGACAAAATACCAGTTATTTCCCAGATTCCAATCGCCGTAG
Protein Sequence: MVVDTKIMEKYCRLCAEVGTNHHCLYTVDGRPNQSHKLLEKYFLPAFFQVEWSNSFRYVCRQCETYLANFNSYQAFVCQAQRKLIKVAAKSIPNEYWNSFRGSVTANDSKNNILPITTGSVGFTPNLSGMLELNRDLQHLAPNANGLVDSNAVFEYFKELGSSETNRQDSNAQHSNTTATTENVSPNVKEEQPAFFQRSNVEANVATVLAPNVRNLSGQDFNMQNLNSSDHTGNLETLPPNVNTNSFQHSHQREMLAPNANVSGNGNNQSQQLQPGNDDSKTLQNLNSSENTGNLEMLAPNVNSNSFQHSNQREMLAPNVNVSGNGNYHSQHLKLGNDGYKKLQTVAPNHNNVGDQNPNWEKSNVNNNDSHQLVPNVNRSKDQNIYQQNSASDATATSSALQNPTSGDHALDLNPGIKNLETRDNTKQVGYPENPQNLETNPSASAVIRLTQSAPNVNNSEKRDGPGTSPNLAPNVRSPVSAAQEPADNPQQMAPNVHSHLSPTNEPVKNQNDPGASENLAPNLRSPVSATKEPAKNPQQMATIIHSHLSATNEPNVSASGNQTHDSHPSNIENKEDLANMAPNVKTHLPPDIGLAKRQRRHSPLSNDGEPENAHHQDSDESGDFSSSASEWSGGEEQEEEDSNTPSNASASDGSSDDELPLAEYKQKKNPGNLGKSLQENTMARGSNENPRKSPAFEQENGHKTAYDFDMSDEENLTVSERRSTKAQREISGQDVQSQNKIYKTAYDFDEIDSEIGNEISYSGEPFSTNDKPLKTALDFDKLDEDMKEEPPEEEGQIQGILSSQTIADKAGGEIPRRNYIESLEDMFENDSKQELPYNIRQFPAAYKFDFSDDETSGDETYFNKSENQLGAKSKRPLKTSYKKHLKRPATREEYDDLIAKWRPSLECRICKATCGRFQQLQQHFADHHPDDECYVECCQLQLGYRYKIEKHIYYHRVEGAFKCEVCFEIFTSKYKLGSHLVQRHAAGGEPKPKEILKCNICGKEYATQCRLHTHLKYCDGSEVPEPGRAKCKDCGKSYRSQLFLELHRRKHHRNKKTFPCPVCDKLFASKHTLHYHSFTHATERKFVCWVCQRTFKVPCILRGHFKHCHVEEYKEKMRKIKELRNTKKTYKCDQCDKVYQTSMALKEHKAQHEGISALYKCKYCSKEYKYSSNLSAHVQRVHPTKYQLFPRFQSP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01019814;
90% Identity: iTF_01019814;
80% Identity: iTF_01019814;