Basic Information

Insect: Laodelphax striatellus
Gene Symbol: -
Assembly: GCA_014465815.1
Location: CM025324.1:29108822-29131690[-]

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 18 1.4e-07 0.00037 21.8 1.5 3 43 460 497 459 500 0.93

2 18 0.053 1.4e+02 3.9 0.3 5 29 544 566 543 583 0.73

3 18 1.4e-07 0.00035 21.8 0.6 3 41 644 681 642 684 0.93

4 18 0.025 64 5.0 2.6 4 38 731 764 728 769 0.89

5 18 4.8e-07 0.0012 20.1 1.7 4 41 834 870 831 873 0.93

6 18 0.00016 0.4 12.0 1.2 5 43 927 964 923 965 0.91

7 18 8.3e-06 0.021 16.1 0.3 5 43 1049 1087 1048 1088 0.90

8 18 0.00053 1.4 10.3 1.9 10 44 1123 1156 1120 1156 0.89

9 18 0.011 30 6.1 2.3 12 44 1189 1222 1179 1222 0.85

10 18 0.00075 1.9 9.9 3.4 2 29 1234 1259 1233 1276 0.90

11 18 0.13 3.3e+02 2.7 3.6 6 30 1309 1331 1307 1336 0.83

12 18 0.25 6.5e+02 1.8 0.1 14 29 1400 1415 1395 1421 0.86

13 18 5.7e-08 0.00015 23.1 3.8 2 43 1486 1526 1485 1527 0.97

14 18 4.9e-06 0.013 16.9 0.1 3 43 1571 1610 1569 1611 0.88

15 18 0.0019 5 8.5 0.7 3 43 1645 1689 1644 1690 0.66

16 18 2.1e-10 5.3e-07 30.9 0.1 1 44 1797 1840 1797 1840 0.97

17 18 3e-05 0.077 14.4 1.9 2 44 1908 1950 1907 1950 0.95

18 18 6e-09 1.5e-05 26.2 0.0 1 44 2128 2170 2128 2170 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	18	1.4e-07	0.00037	21.8	1.5	3	43	460	497	459	500	0.93
2	18	0.053	1.4e+02	3.9	0.3	5	29	544	566	543	583	0.73
3	18	1.4e-07	0.00035	21.8	0.6	3	41	644	681	642	684	0.93
4	18	0.025	64	5.0	2.6	4	38	731	764	728	769	0.89
5	18	4.8e-07	0.0012	20.1	1.7	4	41	834	870	831	873	0.93
6	18	0.00016	0.4	12.0	1.2	5	43	927	964	923	965	0.91
7	18	8.3e-06	0.021	16.1	0.3	5	43	1049	1087	1048	1088	0.90
8	18	0.00053	1.4	10.3	1.9	10	44	1123	1156	1120	1156	0.89
9	18	0.011	30	6.1	2.3	12	44	1189	1222	1179	1222	0.85
10	18	0.00075	1.9	9.9	3.4	2	29	1234	1259	1233	1276	0.90
11	18	0.13	3.3e+02	2.7	3.6	6	30	1309	1331	1307	1336	0.83
12	18	0.25	6.5e+02	1.8	0.1	14	29	1400	1415	1395	1421	0.86
13	18	5.7e-08	0.00015	23.1	3.8	2	43	1486	1526	1485	1527	0.97
14	18	4.9e-06	0.013	16.9	0.1	3	43	1571	1610	1569	1611	0.88
15	18	0.0019	5	8.5	0.7	3	43	1645	1689	1644	1690	0.66
16	18	2.1e-10	5.3e-07	30.9	0.1	1	44	1797	1840	1797	1840	0.97
17	18	3e-05	0.077	14.4	1.9	2	44	1908	1950	1907	1950	0.95
18	18	6e-09	1.5e-05	26.2	0.0	1	44	2128	2170	2128	2170	0.96

Sequence Information

Coding Sequence: ATGGAGCAAACCGATTCGCAATCGGATTCACTGGACCTGGTGCTACCAAGTGCCAGCCCCACATCTGACGTCATTGAGAAAGATGAAAACGAACAACTCTCGGAGAAAGGTAATTCAAACTCTCAGTCTGATGGAGAAGTCAGTCTGACTGAGAAGGACAATAACTCAAGTGATGGAAATCCACAATCCCCTTCTCAAGTGGAAAAAGATTCACTTCAGTCTGTCGCAGATGATGATCAACAGAATAGTTCAAACTCACTAGATAATTCAACAAAAAAATCAAGTGAGAATTCGTCCTCTACTACTGCAGATAAAAATCAAGATCAGAATATTGATGCAAGTCTGCATCAGATTAAAGATGAAAATTCAGCCACAAGCCCGAGTTCTCTCAGTGAAGAATCAGGTGTTGATCTTGAAAAATCAGATAAGGTTCTTGCAGAGCCAGATAATGCTCACAAAGAGTCAGGCAATGTTCTTGAGGAATCAGAAAATGTTCTTGAAGAGTTTTTAACATTAAAAACACCCGATGAAACATCTTCAAATTTGCCAGGTGAAAATCCTGTAGCTCAAAGGAAAAAGGATTCAAACTCTTGTGATAATTCAGGAAAAAATCAAGTTTCCACCGACACTGCAACAAATGATGACATCCCAACAAATTCGAAAAATAATGAAGAAGCAAACTCATCCTATGATTCGGCTAGTCAGCTTTTGTTTGATATTGTTAGACCTGACAAGTCATCAGCCAATAGTGAAATTAATAAAAAATGTATGAACCAACCTGATAAGCAACAAAATGATGAGATGTCGAGTGATATTGCAGGAGATTCCAGTGCTGCAAATACTGTGGAGCAAGACCTATGTGCATTGTTCTCAGACTCACCTTCGAATGGCAACAGTCAGATAATAAATTCGGAAAGACAGCCCTCTAAAACAACTCCTTCTAATGATGGAAATTCATCTGAAGGTGTATTGAGAAATAAAAACCTTCAAATCAAAGATGTGGTTACTTGCAAAGAAAATGTTTGTGAATTGAATACTTCAATAAAGGATGAAAGTTCTACCATCGATTCTGTAAAGGATTCCAATATCCTAGTTGAAAATGAATTCAACACTCATCAAATTGAAATAAAGGAAGAAATTGAATCTGTATGGTTTGAAAATTCAAATAGTTTTGAAAATGATGGAAGTACTGATTCTTACCTTTCAGATCATGATCAGCTGCAGGAAATGATTGAATTGTGCAGAAAAGAATGTTTCGTTGTACTCGAAAGGTGTGATGATTCGTTGTTGAATGTCGCTAATCCTTATAAGTCTGATGTGAAAATTGTATCTGTGGAATCACTGTCATCTTTGAATATGACCAAAAAACATGAAATAGTTTGGTCGTATTTCATTAAAAGGACGCCGACATTAGCAGAGTGCAAGATTTGCGGTCGCACCTTATTTCATAAGAAATTGTACAATCTGACTCGTCACTTGCAAGTAGTGCATGATCATAGCTCGTCCAACAAGGAGCCGTATGAACCCCACAAGCCAGCTGTCACATTGAAGAAAGGCCAAAGCTCATCTGCAAACGCCTCTACTTCCAAGCCAGTCAGTGATCCTGCCATGTTCAAACAACAGCCGATGAACTACTTCTCGTTTGTCAACTCACAAACGGCCCGCTGTGTATTGTGCTCTCAATATATGCCATACAGGTGTTTGGATGATCTTGCCATCTTAAAGTCACATCTGCTTCTTAAACACTCTGACAGCGGTAACACAAAAAAGTCTGCTAAAGCAGAGAATACTGTTTCAAGTGATAAAAGTTCGGATGATGGAGAAGAGGAAGATGAGGAGGAGGAGGAAGAGGAAGAAGAGGAGGAGGATGATGATGATGATAATGAAGAAGAAACAGGTTCGGGAAGTGGGAGAATGCCACGGCAGCGGACTTGGTCGCATTTCACCAAATTGGAAAGAGGTTTGGCACAATGTAATACTTGTTTCAAGCGCTTCTCATATGGTTTAGGAGATCTAAGGAAACTTACAAGGCATTTGAAAATCGGACATGGAGGTAAAAAACCTGTAGAACAACCTAAGCGGAAGGCCGGTCGACCAAGAAAGACTCAAGTGCTAAAAGAAAAGCCAAACTTACCAGCTACTAGTAAGAGTTCAAACCTTAGCAAACAGCCGCCAACTGGAAAACAATTTTTGGAGTATTTCTCGTTTATGAGATCTGATAACGCATTGTGTAAGAAGTGCAACACCAAAGTACCTTACAGTAAAAAGAACACAAAGAGCTTGCACGACCATTACAACAAATGCACTCCTGATTTGGCGAATGCAGCCAGAAAGCGTGCTTCGAAAAGAAGAAAAGTCTTGACAACTGATATTGATGAAGACGAAAGTACCAATGATCCTGATTTTGTGCCTTCGGACTTTGAAGACCAGCCTCAACCAAGCAAGCACAAAACACAATTGATGGCTGCTGTTGAATTATCTCCCAAAGATAATGTTGATTGGAATCATTTTAAAAAGCTGAATGGCTCTATGGTACAGTGTGTACACTGCTCAAAGAAACTATCGTTTAAAAAAGGTGACACATGGCTGTTGGAGCAGCACCTTCAGCTATGGCATGGTAAGAATGCCCTTAAAAAGAGCAAAGATGACGATGATGCATGCTCTGCCAACTTGGATGATATTCCTCTACTTTTCCGGCTCAAAAATCAACCCAAGCCTTATACATTAGGTGATTGTTACTACCGCAAAAAGCTGCAATATAATCTTTCGGAAATTGGAAGATATTTCAGGAGATTGGGGAATACTAAATTGATTTGTAAGTTGTGTTCACAACATCTTAATTGTAACGAAACTTCAACTGAAGTTTTGATGTCTCATGTACTACAGGAACATGTGAGAAAACTGTTTAAACCTAGACCTGATGAAGCAAACACAGCAGAAGCAACGCAATCTCCAGCGAAACAAGCTGCGGGCAAAATGAAATCGACTGCGCCGACCATGCAAAAGGCGCTTGCACAGTCGACGCCGCGCCCTGCTGCTGCCACTAGGCCAAGAGCAGCCAAGCCCAAAGCAACATTACCTCAACTGTTCGCTGAACCAAGTGAAACCGAGCTGCAACTTGTATCCAAGTCCACTTTCACCATGAAATACTTCCTTGAGTTTGGTGCCAACAGGCAGCAGTGTAAGCTGTGCAATAGGCAGTTTGCTGGTAAAAAGTCGTCCAATGTAACACTTCTCTCTCAACATCTACTCTCCACTCATTTGAAAAACGTTGTTGACGATGAAACACAACTATCGAAGTCTGGTGAAAACGAACAGAGAAAAGCTATTATCAAGTGTACTAGACGTAGAATTGTCAATAAATTTTCAAAAATTGATAATTCTAAAATATCGTGCAAAATGTGCTCTTCTCACATTGAGAATGGTAGTTTTGAAACGATGAAATCTCATTTATTGGAGAATCATCAAAAGTATCTTATAACTATTTTGAAAGAAGTCAAAAGAGTCCTGAATTACAATTGCACAGATCTGAGAAAAACTAAGAAGTTACTGACTATACGTAAAAAACGTGGTTTGCGAGCGAAATGTTCCCTGTGCTCCCGTGACGTTCGTTACGCAGTGGGAAATACTAAACACCTCTTCAATCATTTATTAAAACTCCACAAAACATTAGTCAGTAAAATCTCTGTTTCCAAACTGAAAGTATGGAAATACTTCACAAAGAAGAAATATGGAGAAAGCAAGTGTGAAATTTGTTCCAAGTTCATCTCTTCAAAAATTCATTGCAATCACAAAGTTCCGAAATTGTTTTGCTTGTCAACTGGGCTGAAATCGAAACCTAAAAAAGAATCTACAATGAACCCTGAAACAAAATCTACTGAGTTGAAAGTAAAAGACAAAAGCTCAAGTAAGAGCGCGTGTTTTTACTTTACAGCATTGAAACAGTATAACTCCGAATGCATATTTTGTTCAAAATCTCTGAAAAGTGCAAATAAAATAATTTGCAAAATCGCTTGTCGTTTCAATCACGGAAACGAATACATTAATTGGCTCTACAAAAACGATCCAGTGGATAAGACTTTTATTTCAGAAAATCAAGCCAACAAATCTGGGCAGAAAACACTTTCACTCCTAGAAATGTTTGAAGATCTCAAGAATAAGAAAATGAATACCATCAAGTTGTGGTATTCTGAATTCTCAAATAAGTATCACTGCAATCTTTGCTCTGACAACATAAGTGCAAAATATCTTAGATTTAGTTTATATTTTGACCATGCATTAGTAGAGCACAAAGGTTTGCTGAGTATGCACAGAGCTCTCGTGAGACCTTTGGATCAGTCGAGCGGTGTTCCGCCGCCACTCACGCCCCCTCCTCCTCAAGCTGCAGCAAAGAAAACAATTACAAAGTCACCCATCCCGAAAAATTCGTTGAAAAATACGAAATTAGTCAAAGTGAAGCTGTGGCATCATTTCAAGGTGATTGGATCAGAAACTGCCTGCTGCAATTTCTGTAAGACAAATCTTCGGTACTCAGCTACAAATGTTGACAATTTATCCACCCATCTGCGTGTACAGCATCTAAATGATCTTCTGAAACTGAGTGAACAACCTGTAAACTCTTCTCCAACACCACCAGCACGAACACCATTAAAATCCTCTCTCCCCACCACCACTGCTAATAAGAATGAGACAAGAGTGCAAAAGAGTGGCACTTGGAATTATTTCAGTGAAAGTAATAAAGGGGCCATATGCAAGCTGTGTGGAAAACAGTTTCTTTTCAGCGATAAAGCGAATGAGGCTCCTCTGACCAGGCATCTCCAACTGGTGCATAACATCGCGCTTTCTCAAGACAACCGCCCGCCCCCGCCGCCTCGCGCCGTACCCAACCAAACTATTCAGTCTGACGCCAGCAAAGAACAGCAGACAAAATGGGCGTGGCAGTATTTTGAAAAAGATGACGTACGACCTTCAACAGCGAAATGTAAACTTTGCGCAATTTATTGCAGCTGTATAGATGAGCAAGGCGACCTAGCCTCTGTTCTGCTCAAACACCTTCGTCTTGTGCATAACAAGTGGCTGGTCAATGTTGGCAATAAGCTACTACAAAACAATCTGTCAACACCAGCCAAAAGAAAAGCCGACACTGATGTGGGAGCCAAGTCATCACCCGGCCAGTCTCAGAAGAAAGTCAAGTTCGACGATTCAATCAATGATGTCACGACGATCGACAGTGACAACGAGATCCCCACCCCCACCACACCAACACCAAAGAAATCACCGACACCTTCCAAAAATAGCCAGACAAAACCTCCTGGCCAAGGAACTACTTTCAAATCTAAAAAAGCGCTGAAACGTTTCCAAGAACTAGAAAACAAAAAAAGCAAGAAGAGCTTAGTTTGGACTTATTTTACTCCGATTGAAGGTCAGCCGGATTTTTCGAGGTGTAATGTTTGCTCAAAAAGTATATCCAGTAAATTTGGTATCAGCATCTTACGAACCCATTTGCGTGTAAAGCATAATATCCTGATTGTCAACATGAATCAGTATTCCGAATTGAAAAAATCTATCGGCGATACAAGCTTAACTAATGCACTAACTGGAACTCCTAGTGCAAAGACTCTGTCTTCTGGTGAGAAACAAGCTGATAGTCCAAACAAAGCAAATAATCTGAATTTGAAAAGTCCCGCTTTGAGCAATCAGGATAAATTCGACAAGAGGCATCCTGTATGGTCCTACTTCAAAGAAGAGAGGAACAGTAATCTGTTGAAATGCAATCTGTGTTCAGTGTACCTTTCATGCAAGAGCGAAAAAGCAGAGGGCCTGCAAAATCATCTAAGTGCAAAGCATAACATTGTATTCTTAGAAGCGGATCCATTGAAGAATGTCAGCCCAAATAAAAGTTTGCCAGGTACACCAACTACTAAAAACGCCAATCAAATTGTTCAAAAGAAGCAAACAGTTGTTGAGCAAACTCCAATGACGGCAAAAGAACTGTATGAAACAACAACTGTCGAAGAGTCTATAGTTGAGAACGAGGTATTCTACACTACCGAAGAGAATCTGGTGACTGTAACTGAAAGAGGTGACCCGAGCGCTGATGAAACCGTTCACTATGAAATTGTGGAAACAACTCAACCCGCTATTGAGACCGAGGTGGAGTCTACTGACATTGTGAAAGTGATCACCGAGTTGTTACCAAGTTACAGTGTTGGCATTTCCGATGATGTGAATGCAACCGAGATATCTCCACAAGAATCCGATTTGATTTCGAACATTGTAACTTCACTGTCGAACCCTGGTGACCAGACAACCACCCAAGCGATCATTGACAGCGACCAACTGAAAAGCATTGCAGTACTGACAGGAGAAACTGAGGACACTTCGTTAGCATGGGACTTCTACGTGAAACTTGCTGACAATAAAGTCAAGTGTGATGTCTGCTCTGAAGTTTTCACCTACGAAAATAAGGAATCCGCAAACTTGACCGAACATATTCAGTCGAAACATCCTGCCGAACTGGCACAGTACAAACTATCTAGATTAGGGTTCAGTGACTCATGTATAATAGTGGTGAAAAATCCGAATTAA
Protein Sequence: MEQTDSQSDSLDLVLPSASPTSDVIEKDENEQLSEKGNSNSQSDGEVSLTEKDNNSSDGNPQSPSQVEKDSLQSVADDDQQNSSNSLDNSTKKSSENSSSTTADKNQDQNIDASLHQIKDENSATSPSSLSEESGVDLEKSDKVLAEPDNAHKESGNVLEESENVLEEFLTLKTPDETSSNLPGENPVAQRKKDSNSCDNSGKNQVSTDTATNDDIPTNSKNNEEANSSYDSASQLLFDIVRPDKSSANSEINKKCMNQPDKQQNDEMSSDIAGDSSAANTVEQDLCALFSDSPSNGNSQIINSERQPSKTTPSNDGNSSEGVLRNKNLQIKDVVTCKENVCELNTSIKDESSTIDSVKDSNILVENEFNTHQIEIKEEIESVWFENSNSFENDGSTDSYLSDHDQLQEMIELCRKECFVVLERCDDSLLNVANPYKSDVKIVSVESLSSLNMTKKHEIVWSYFIKRTPTLAECKICGRTLFHKKLYNLTRHLQVVHDHSSSNKEPYEPHKPAVTLKKGQSSSANASTSKPVSDPAMFKQQPMNYFSFVNSQTARCVLCSQYMPYRCLDDLAILKSHLLLKHSDSGNTKKSAKAENTVSSDKSSDDGEEEDEEEEEEEEEEEDDDDDNEEETGSGSGRMPRQRTWSHFTKLERGLAQCNTCFKRFSYGLGDLRKLTRHLKIGHGGKKPVEQPKRKAGRPRKTQVLKEKPNLPATSKSSNLSKQPPTGKQFLEYFSFMRSDNALCKKCNTKVPYSKKNTKSLHDHYNKCTPDLANAARKRASKRRKVLTTDIDEDESTNDPDFVPSDFEDQPQPSKHKTQLMAAVELSPKDNVDWNHFKKLNGSMVQCVHCSKKLSFKKGDTWLLEQHLQLWHGKNALKKSKDDDDACSANLDDIPLLFRLKNQPKPYTLGDCYYRKKLQYNLSEIGRYFRRLGNTKLICKLCSQHLNCNETSTEVLMSHVLQEHVRKLFKPRPDEANTAEATQSPAKQAAGKMKSTAPTMQKALAQSTPRPAAATRPRAAKPKATLPQLFAEPSETELQLVSKSTFTMKYFLEFGANRQQCKLCNRQFAGKKSSNVTLLSQHLLSTHLKNVVDDETQLSKSGENEQRKAIIKCTRRRIVNKFSKIDNSKISCKMCSSHIENGSFETMKSHLLENHQKYLITILKEVKRVLNYNCTDLRKTKKLLTIRKKRGLRAKCSLCSRDVRYAVGNTKHLFNHLLKLHKTLVSKISVSKLKVWKYFTKKKYGESKCEICSKFISSKIHCNHKVPKLFCLSTGLKSKPKKESTMNPETKSTELKVKDKSSSKSACFYFTALKQYNSECIFCSKSLKSANKIICKIACRFNHGNEYINWLYKNDPVDKTFISENQANKSGQKTLSLLEMFEDLKNKKMNTIKLWYSEFSNKYHCNLCSDNISAKYLRFSLYFDHALVEHKGLLSMHRALVRPLDQSSGVPPPLTPPPPQAAAKKTITKSPIPKNSLKNTKLVKVKLWHHFKVIGSETACCNFCKTNLRYSATNVDNLSTHLRVQHLNDLLKLSEQPVNSSPTPPARTPLKSSLPTTTANKNETRVQKSGTWNYFSESNKGAICKLCGKQFLFSDKANEAPLTRHLQLVHNIALSQDNRPPPPPRAVPNQTIQSDASKEQQTKWAWQYFEKDDVRPSTAKCKLCAIYCSCIDEQGDLASVLLKHLRLVHNKWLVNVGNKLLQNNLSTPAKRKADTDVGAKSSPGQSQKKVKFDDSINDVTTIDSDNEIPTPTTPTPKKSPTPSKNSQTKPPGQGTTFKSKKALKRFQELENKKSKKSLVWTYFTPIEGQPDFSRCNVCSKSISSKFGISILRTHLRVKHNILIVNMNQYSELKKSIGDTSLTNALTGTPSAKTLSSGEKQADSPNKANNLNLKSPALSNQDKFDKRHPVWSYFKEERNSNLLKCNLCSVYLSCKSEKAEGLQNHLSAKHNIVFLEADPLKNVSPNKSLPGTPTTKNANQIVQKKQTVVEQTPMTAKELYETTTVEESIVENEVFYTTEENLVTVTERGDPSADETVHYEIVETTQPAIETEVESTDIVKVITELLPSYSVGISDDVNATEISPQESDLISNIVTSLSNPGDQTTTQAIIDSDQLKSIAVLTGETEDTSLAWDFYVKLADNKVKCDVCSEVFTYENKESANLTEHIQSKHPAELAQYKLSRLGFSDSCIIVVKNPN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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