Basic Information

Insect: Conomelus anceps
Gene Symbol: -
Assembly: GCA_948455865.1
Location: OX418224.1:54667948-54675648[-]

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 14 3.7e-10 1e-06 31.0 0.5 1 43 27 67 27 68 0.97

2 14 0.043 1.2e+02 5.2 1.8 16 44 592 620 583 620 0.87

3 14 1e-07 0.00027 23.3 2.0 2 44 670 710 669 710 0.98

4 14 0.0016 4.5 9.8 0.6 2 43 739 778 738 779 0.95

5 14 5.2e-10 1.4e-06 30.6 0.8 1 43 845 885 845 886 0.97

6 14 1.5e-08 3.9e-05 26.0 0.8 3 44 908 946 906 946 0.90

7 14 6.1e-07 0.0016 20.8 1.8 3 44 981 1020 979 1020 0.94

8 14 0.0025 6.8 9.2 1.0 5 44 1092 1129 1089 1129 0.95

9 14 1.6e-07 0.00043 22.6 0.2 9 44 1198 1233 1194 1233 0.93

10 14 1.2e-07 0.00031 23.1 0.4 1 43 1844 1883 1844 1884 0.96

11 14 0.00044 1.2 11.6 1.0 1 43 1910 1951 1910 1952 0.94

12 14 4.8e-08 0.00013 24.3 0.5 2 44 1964 2002 1963 2002 0.95

13 14 2.5e-10 6.9e-07 31.6 2.8 1 44 2056 2097 2056 2097 0.98

14 14 1.9e-05 0.053 16.0 2.2 1 43 2116 2155 2116 2156 0.95

#	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	14	3.7e-10	1e-06	31.0	0.5	1	43	27	67	27	68	0.97
2	14	0.043	1.2e+02	5.2	1.8	16	44	592	620	583	620	0.87
3	14	1e-07	0.00027	23.3	2.0	2	44	670	710	669	710	0.98
4	14	0.0016	4.5	9.8	0.6	2	43	739	778	738	779	0.95
5	14	5.2e-10	1.4e-06	30.6	0.8	1	43	845	885	845	886	0.97
6	14	1.5e-08	3.9e-05	26.0	0.8	3	44	908	946	906	946	0.90
7	14	6.1e-07	0.0016	20.8	1.8	3	44	981	1020	979	1020	0.94
8	14	0.0025	6.8	9.2	1.0	5	44	1092	1129	1089	1129	0.95
9	14	1.6e-07	0.00043	22.6	0.2	9	44	1198	1233	1194	1233	0.93
10	14	1.2e-07	0.00031	23.1	0.4	1	43	1844	1883	1844	1884	0.96
11	14	0.00044	1.2	11.6	1.0	1	43	1910	1951	1910	1952	0.94
12	14	4.8e-08	0.00013	24.3	0.5	2	44	1964	2002	1963	2002	0.95
13	14	2.5e-10	6.9e-07	31.6	2.8	1	44	2056	2097	2056	2097	0.98
14	14	1.9e-05	0.053	16.0	2.2	1	43	2116	2155	2116	2156	0.95

Sequence Information

Coding Sequence: ATGCTAAAACACGGCGTCTGGACTCCCAAAGTTGCGTCGAAAGCGCAGTTGAACTCGTCCTCGTCTTCTAGAAAACGGTCGCTGGCTTGGGATTACTTCAAAGAAATTGATGCTAAGAGCGCCAAGTGTTTGCTGTGTAGTCGTGTGATTAAGCACTACAACGGAACAAGGAACTTGCTGGTGCATGTGCGTCGGGTGCACTTGGAAAGTAAAGCCACAACGGCGGCCGCAGGGGAGGGGAAGGGAGGGGAGGAACGAGTTCAAGGTGACCTTGAAGTTGGAACTAATGTTGAATTAGAAACTGTTGAAATTTCGTCTCACCCTGTATCGTCATCAGTAATGAATTATGGATCTGAAACAAGTGCGGGATTGGGAAAAGGTCCAGGAGTTGAAATGCTGTCACATTCTATATCTACAGTAGTTGATTATGATGCTCAAACAAGTGTTGTGCTAGAAGATGGACCAGGAGTTGAAATTTCGGCGCTTCCTGTATCTATTGTTGATGATTATGAAGCTCAAATTAGTGCTGAATCATCAGTAATGGATTATGAAACTCAGACAAGTGCGGGATTGGAAAACGGTTCAGGAGTTGAAGTTTTGTCACACCCTGTATCTACAGTCAATGATTATGACGGCCAAACAAGTGCGGAATTGGAAAACGGTTCAGGAGTTGCAATTTCGTCTCAACCTGTGCCTATAGTCAATGATTATGATTATGACGTTCAAACAAGTGTTGTGTTGAAGAGTGGTTCAGGAGTTGATGTTTTATCACATCCTGTATCTACAGTCAATAAATATGAAGCTCAAATGAGTTCTGAATTGGAAAACGGTTCAGGAGTTGAAATTTTGTCGCACCCTGTATCGTCAGTCATTGATTATGAAGCTGTAATAGTTCAATCAACCTCTGAATTACAATCTGTTTCAAAAGCAGGAATTCCGTCACACCCTGTGTTGACAGTTACTGATTGTGGTGTTGGAGCTAGTGCTAAATTACAAAGAGCAACGATTTCATCTCATACTGAATCGGCAGTCATGGATTACGATACTCAACCAGCTGCTGAATTAGAAAATATTTCAGGAAATGAAATTTCGTCGCATTTTGTATCAACTGTACCTGATTCAACTGTTTCAACACCTGCTGATTTACAAAGAGCTGTATCAAAATCGGCAATTTTATTACGTTCTGTTGATACAGTCATTGATGAAAATGAACGGGTTCAATTCACTGCTGTGATACAAGGAACAGCTTCTAAAGCGGCAATTTCACCGCACTCTGTGTCACCAGTAATTGATTATGAAGCTCCACCAACCGCTGAGTTGGAAAGTGTTTCTAATGTTATTATTTCATCTAATTCAGTAACACCGGGTCTTGATGATGGATTTATAGCAGTTCAAACTCCCTCCGAATTAGAATCAAGAGTTCTATCTCATCCTGTATCGCAAGTAGTTGATTATGAAGGTGCCTCAATACCTTGTTCGGGTAAACCAGGTCTTGATTACGGAACTACAACAGTTGAAACTTCCTCTGGATTGGAATCAGGAGTTTTATCTCACCCTGTATCGCAAGTAGATGATTATGAAGTAACTACTGAATTAGAAACAGTTTCAAAAGTAGACATTATGTCACAGCCTTCTGAATTAGAAGTAACAGCTGGAATTTCTCCACATTTTGTTGTAGATTCCGCCAAACGGAACACAAGTGATTTGGCCGAAGAATTTCCCCTGCAAAAGTTGCAAATTGTTCTGTTGTTTTTCGAACAAATCGATTTCGTTAGTGCCGTATGTACAGTCTGTCACAAAAGTATCGCTCACAAAAGATGTCTAAAACCTGTGCTGCATCATTTGCTGAGGAGTCATCGTAGAGCAGTGTCAGACGCTATGCTAGACCAGGCCAGCTGTGTTGCCAAACTGAACTCGGTCTACAAGAACCTACAGGAAGCGGTCACGATTGTGTTGACTGTTTTCGAGAAGGATTTGGAGTTATGGTCGTGTGAAACGATGCATAAAAAGGCGTGGAAGTATTTCTATAGGATAAATAAACTTGTGGCTATGTGTTTGTTGTGTTTTTGCGATTTTAAGGTGTCTAGAACTGATGATAAACTGGTGAAACATTTGAGGCGATGTCATCCTAGTGTGACGGTCGAAGATGAGGAAGGTTGTGAAAAGGTGTCGAATAAACAACGTAAATGTAAAGTGATTTCTGATGAGGTTGGCAATGTTTGGGCGTATTTTGTGAAGAAGAACGATCGTATCGCTTTGTGTACACTGTGTCCCAGTAATGTACACTTTCTTAACAGTAAAACGATACTGTCCAATCATCTCAGAGTTAAACATGGTGTGTTGTGTAGTAATACATCGGAGGAGAAGGTTGCTGAATTATTGAAAGATTCAGAGGATACTTCTCCAGAGGTTGAAAGATTGTCCAAATCTTCTCCAGTTGAAGGATTGTCTAAATCTCCAGAGGTTATAGTAGAAAATTATGATTCAAGAAAGTCTTTGAAAGTTGCTGAAGTACCCAGTAATAAACGGCATTCGGCAGTGTGGTCACATTTCAAGGAGGTGAACTCTCGTGTTGCCAACTGTTTGGTGTGTAAAAAGAATGTGAAGAGTTTTGGCAGCACGGGCGCACTCTTACGGCATTTACGTAAATTTCACGGTGATATTGTGGAAGAAAATAATCTCCAGCTGAAGCAGCCCCGTTCCAAAAGTCAGCGATCGTTTGTTTGGGAATATTTCACGAAGAAATGTCCCTCATCGTCGGTGTGTAGTTTGTGTAAACGTGTTGTCAGGGGCGGAAACACGGGGAATTTGATTGACCATTTGAGACGACGACATCGGGAGGAGGTTGTGTTGGAAGGGTTGTGGTTGAAAAGTGGTGGGGGGAAGAATAAGAAAAAGAAGGAAGTAGTGAGAAAGAAGAAAGGTAGGAAACCTTCGATTGTTTGGCTGTATTTTATTGTGAAAGACGATGTGACCGCTAGTTGTTCGTTGTGTAAACGTTGTATAAAACATTATAAAACTACTAAGAATCTTCTGGAACATTTGAGACGTATTCATCCACAAACGTTGAAGTTTGTAGGGGGGAGCGGGGCGGGGGATGAGACCGCTGGATCAGAAATCGGATCGGAATTGCCGTTCATAGAGACAGTGACTGATGACGATTTTCAACTGTCCACTGCCGAAGTTCTACCCAGTTGTAGTGCTACAAGCGTACGGGATAATCGTGCGAACGATGCCAGAACAGTTGTCGATAAGTGTTCGTCGTATATTTCCAAGTATTTTATAAAGTTTCAGGATAATAAGTATTTGTGTAAAATCTGTCAAAACTGTATTGAGAATGTTGAAAATCTGGTGAAGTTGTCCGATCACTTGAGTAGTGTGCACAAGGATATGTTTGATGAAGGCTGGGCGGCTGCTGAGTTGGATTGTGTCGACGATGTTTCGAATTCGACTTGTGCGTCGTCAGCTGTTTTAAATTCGGAGTTGAATACGATTTTGGAAACTTTGGAAAAAAGTACGGATAAAAATGAGGAGAGGAGTAGTTTTGATGTGAAATCAACGTCGAAACAGCAGTCGATCGTTTTGAAATCGTTTTCGAAAAAAGACGAAACAACTGTCACGTGTTTGTTTTGTAACGAGGATATTGAAAAGTTTTGCAGCATCACGAATCTGTTGGATCATCTCGAAAGTAAACATCCCGATTATCAGCTGGTCGATAGTTTGACGATTCCTTTCACTACCACGTCTGATGCGGTGGCTAATAGTCAAGAATTAGTTGAAATTAATAATGGTATGTTTTTGGAAAAGGACAAACAAATGGTTGAAATTAGTGGTAGTATGTTTGTGGAAAAGAATAATCAACAATTAGTTGAAATTAATGATACTATGTTTGTTGAAAAGGATAAACAATTGGTTGAAATCAATGATAGTATGTCTGTGGAAAAGATTAATCAACAAATTAATGATGGTGTGTTTGTTGAAAAGGATAAACAATTGATTGAAATTAGTGGTAGTATGTTTGCGGAAAAGAATAATCAACAGTTGGCTGAAATGGGTAACGGTATGTTTTTGGAAAAGGTTAAACAACAATTGGTTGAAATAAATGATAGTATGTTTGTAGAAAAGGACAAACAATTGGTTGAAATCAATGATAGGATGTTTGTGGAAAAGACTAACCAGCAATTAGTTGAAATTAACGATGGCTTATCAGTGGAGAAGAATATATTGAACTCGTTTGATTGTGTAACCGATCAACAATTGGGTTTAAGTAAAGAAAATGATGTGTTTGTTGGTAAACAAACTAATTATATTGTTACAAAGGATGTGGTTCTTGGTGGAAAACAATTGGGGATCGATGAAAATGGTGAAGTATTTATTGAGAAGGAACAAAATAGTTTTAATAGTGATGTAATTGCCGCAACAGATAAAGAGTTGGAGCTCAATGAAAATCAAGGGAATTCTTTTAGTACAAGAGTTAGTGGTAAAAAATTGGGAATTAATGAAAACGGTGAAATATTTATTGAGAAGGAGTCTAATGCGTTCAATCCCAGTAATGCTGATCAACAATTTGAGTTGAATGAAAATAGAGAGGTCTATGTTGAAAAGGAAAGTAATTCTTTCAGTACAAAAGATGCTCTATTTAGTGGTAAACAGTTGGGAATAAACGAAAATGGTGAAATATTTATTGAAAAGCAAACTATTAATAATTTTGAAACAATTGATGATCAACAATTAGAGTTCAATGCAACTGATTTGAAAGAAGCTGAAAATGGTTCTTTTAGAACAAGAGATGTAGTGTTAGGTGGTAAACAATTGGGCGTGAATGAAAATAGTGAAACATTTATTGAGGAGTCTAGTTCGAATTTAAGAGATGTGATTATTGGTGGTAAGCAGATTAATGAAAATTGTGTGGAAAAATCAAGTAACTCTTTTAGTAGGAGTGGAGCTGTGGATAGTAATTCTATTAATACAAAGGGTGTCATCATTATTGATCAAGAATTGAATTTTAGTGGAAATGGTGAAGAGTTTCATGAAAAGGATCCACATTTTGTAGAAAAACAGAATATTTGTGTATTTGATGGAAGAGATATGACAAATTGTGGGTTTTTGGTTGATGATGATGATAATAATAGGCTTTGTGGTGATGTTGAGCCAGGCTGTAGTAGTCTGGTTGAGAATTTGGGTGATAGTGAACTAATTAGTATGCCCAACATGGATATCGATTTGGAGGGGATAGCTGACGACCTTCTAGCCAACATGCCGGGCCAGATTGAAATGTCTGTGATGACAGGTGGTGAAAATCATTTAAATCTAGTTGACGGATGTAGAGGTACAACAGCGTCACTGACATTCGAATATCAAACGAAGGACGACATCAGATCGCTGTGCAGTTTGATATGTAATTGCGACGTTTGGAGTGGGAATAGCGGTGATATAGTCACTCATATGAAGCAGACGCACGGTGTAATTCTGAAACATTCTGGAACGGCACAGGTGGAAACCAAGTTGAAAAAGGAGCACAAAAAACGTTCCGTGGTTTGGAGTCATTTTGTGGTGAAAGACGAAAAAACGGCGACTTGTCAAAGGTGTGGTTACGATTTTTCAAGGTCGAGTCCCAGGAATTTGTTGGCGCACTTGAGGAATAAACATTTTATTGGTTGTACGTCAAATATGAATAAAAATTCTAAAGGTAGTGTTGTGAAACGTAGTAGTACGATAAGAAAAACGTCGGTTGTTTGGAAGTATTTTAAAAATAGTGGTAGTGGTTATGTGTGTGTGTTGTGTGACGAACGAAATAATTGTAAATTGTTTTCGTCGGTTTTAAATATGCGCAATCATCTCAGACAGTTGCATGGTATTGTTTTTAAGAAGCGGCCGAAGCGTTTCTCGTACGTTTGGAAGTATTTTAAAGTTGTTGAAGATGTACAGGTGTGTTTGCTGTGTGAAAAGGAGTTGAAAAGTAGCGATGTAAGAGTGTTGAAAAATCATTTGAAAAATTGCCATCAAGATGTGATCAGTAATGACGGTGTGTTAGATAGTGTAGAAGAAGTTGTGCCAGTTGAAAATGTGGGTGAACCATCAGTGGCTGTAATTGAGGATAAGAATATTGAACAGGTTGTACAGCCCGTGTTTGATTTGGACTTTAAACGGCACAAACGAAAACGATCTAAAGTTTGGAACTATTTCACAGACGTGAACGCAACCACTTGCGCATGCGTACTGTGTTCTGCGCATATTAGACATGCGCTAACTACGAAGAATTTAATTGAGCATATGCGTCGCGTACATCCGGGCGTTTTGTCTGAAGATACGCTGTATAAACGCACGAAAAACGCCAAGAAAACGTCGGCAGTGTGGAAGTATTTTCGGAAAGATGTTGTGGATGCTGTGTGTACGATTTGTGGGGCGAGAGTTAGACATAACCGTACCAATAAAAAGTTGGCCAGTCATTTGCGTAAATTTCATCATGAGGCTTTTGTGAGGGATGTGAAGAATCGTGGAGGGAAAGTTGTTGAAAATAGTTATGTTGTGATGGATGTGAAAAATCGTGAAGTAGTTTATGGGATTAATAGTGTAGCTACGAATGTTGCAAGGGATGTGAAGAAGAAAGGGAAAGTGGATGCTGTTGAGAATATTGTGAAGGATGTAAAAAATTCTAAAGTAAAAGTTGGGAATAGTTTAGGTACAAATACACCGATTAGAAGTTTGTTATGTTCAACCAAAAGTGATATTATCAATATAAGCCATGCGAAACTGAGTAAAAGGGAACGGAAACGTAAAGATGGGCATGTAGGAAGTGCAGTGGTTGCAGGGAATTGTTCTGGAGTTCAGCAGCGGGGTGTTGAATTGAAATTTGCTGAAAATTATGGCATCGATCCGGAATTGTTGAAATTTCCGTTGAAAAGTTGTTATGTTCGATTGGAAAGGTGTATAAATGATGGTGATTGTGTTCCTAAATAA
Protein Sequence: MLKHGVWTPKVASKAQLNSSSSSRKRSLAWDYFKEIDAKSAKCLLCSRVIKHYNGTRNLLVHVRRVHLESKATTAAAGEGKGGEERVQGDLEVGTNVELETVEISSHPVSSSVMNYGSETSAGLGKGPGVEMLSHSISTVVDYDAQTSVVLEDGPGVEISALPVSIVDDYEAQISAESSVMDYETQTSAGLENGSGVEVLSHPVSTVNDYDGQTSAELENGSGVAISSQPVPIVNDYDYDVQTSVVLKSGSGVDVLSHPVSTVNKYEAQMSSELENGSGVEILSHPVSSVIDYEAVIVQSTSELQSVSKAGIPSHPVLTVTDCGVGASAKLQRATISSHTESAVMDYDTQPAAELENISGNEISSHFVSTVPDSTVSTPADLQRAVSKSAILLRSVDTVIDENERVQFTAVIQGTASKAAISPHSVSPVIDYEAPPTAELESVSNVIISSNSVTPGLDDGFIAVQTPSELESRVLSHPVSQVVDYEGASIPCSGKPGLDYGTTTVETSSGLESGVLSHPVSQVDDYEVTTELETVSKVDIMSQPSELEVTAGISPHFVVDSAKRNTSDLAEEFPLQKLQIVLLFFEQIDFVSAVCTVCHKSIAHKRCLKPVLHHLLRSHRRAVSDAMLDQASCVAKLNSVYKNLQEAVTIVLTVFEKDLELWSCETMHKKAWKYFYRINKLVAMCLLCFCDFKVSRTDDKLVKHLRRCHPSVTVEDEEGCEKVSNKQRKCKVISDEVGNVWAYFVKKNDRIALCTLCPSNVHFLNSKTILSNHLRVKHGVLCSNTSEEKVAELLKDSEDTSPEVERLSKSSPVEGLSKSPEVIVENYDSRKSLKVAEVPSNKRHSAVWSHFKEVNSRVANCLVCKKNVKSFGSTGALLRHLRKFHGDIVEENNLQLKQPRSKSQRSFVWEYFTKKCPSSSVCSLCKRVVRGGNTGNLIDHLRRRHREEVVLEGLWLKSGGGKNKKKKEVVRKKKGRKPSIVWLYFIVKDDVTASCSLCKRCIKHYKTTKNLLEHLRRIHPQTLKFVGGSGAGDETAGSEIGSELPFIETVTDDDFQLSTAEVLPSCSATSVRDNRANDARTVVDKCSSYISKYFIKFQDNKYLCKICQNCIENVENLVKLSDHLSSVHKDMFDEGWAAAELDCVDDVSNSTCASSAVLNSELNTILETLEKSTDKNEERSSFDVKSTSKQQSIVLKSFSKKDETTVTCLFCNEDIEKFCSITNLLDHLESKHPDYQLVDSLTIPFTTTSDAVANSQELVEINNGMFLEKDKQMVEISGSMFVEKNNQQLVEINDTMFVEKDKQLVEINDSMSVEKINQQINDGVFVEKDKQLIEISGSMFAEKNNQQLAEMGNGMFLEKVKQQLVEINDSMFVEKDKQLVEINDRMFVEKTNQQLVEINDGLSVEKNILNSFDCVTDQQLGLSKENDVFVGKQTNYIVTKDVVLGGKQLGIDENGEVFIEKEQNSFNSDVIAATDKELELNENQGNSFSTRVSGKKLGINENGEIFIEKESNAFNPSNADQQFELNENREVYVEKESNSFSTKDALFSGKQLGINENGEIFIEKQTINNFETIDDQQLEFNATDLKEAENGSFRTRDVVLGGKQLGVNENSETFIEESSSNLRDVIIGGKQINENCVEKSSNSFSRSGAVDSNSINTKGVIIIDQELNFSGNGEEFHEKDPHFVEKQNICVFDGRDMTNCGFLVDDDDNNRLCGDVEPGCSSLVENLGDSELISMPNMDIDLEGIADDLLANMPGQIEMSVMTGGENHLNLVDGCRGTTASLTFEYQTKDDIRSLCSLICNCDVWSGNSGDIVTHMKQTHGVILKHSGTAQVETKLKKEHKKRSVVWSHFVVKDEKTATCQRCGYDFSRSSPRNLLAHLRNKHFIGCTSNMNKNSKGSVVKRSSTIRKTSVVWKYFKNSGSGYVCVLCDERNNCKLFSSVLNMRNHLRQLHGIVFKKRPKRFSYVWKYFKVVEDVQVCLLCEKELKSSDVRVLKNHLKNCHQDVISNDGVLDSVEEVVPVENVGEPSVAVIEDKNIEQVVQPVFDLDFKRHKRKRSKVWNYFTDVNATTCACVLCSAHIRHALTTKNLIEHMRRVHPGVLSEDTLYKRTKNAKKTSAVWKYFRKDVVDAVCTICGARVRHNRTNKKLASHLRKFHHEAFVRDVKNRGGKVVENSYVVMDVKNREVVYGINSVATNVARDVKKKGKVDAVENIVKDVKNSKVKVGNSLGTNTPIRSLLCSTKSDIINISHAKLSKRERKRKDGHVGSAVVAGNCSGVQQRGVELKFAENYGIDPELLKFPLKSCYVRLERCINDGDCVPK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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