Basic Information

Insect: Leucoma salicis
Gene Symbol: TRIP11
Assembly: GCA_948253155.1
Location: OX411830.1:1287255-1303751[+]

Transcription Factor Domain

TF Family: TSC22
Domain: TSC22 domain
PFAM: PF01166
TF Group: Basic Domians group
Description: These proteins are highly similar in a region of about 50 residues that include a conserved leucine-zipper domain most probably involved in homo- or hetero-dimerisation. Drosophila protein bunched [1] (gene bun) (also known as shortsighted), a probable transcription factor required for peripheral nervous system morphogenesis, eye development and oogenesis.
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 0.78 7.9e+03 -2.2 3.5 11 41 56 88 56 101 0.64

2 18 0.38 3.9e+03 -1.2 3.0 12 43 72 106 69 111 0.67

3 18 0.16 1.6e+03 0.1 0.3 17 35 133 151 122 173 0.68

4 18 0.13 1.3e+03 0.4 2.7 15 34 204 223 194 233 0.55

5 18 0.17 1.7e+03 -0.0 0.0 16 52 278 314 275 318 0.76

6 18 0.035 3.6e+02 2.2 1.0 16 40 385 409 350 415 0.74

7 18 0.12 1.3e+03 0.4 1.2 12 44 464 496 461 509 0.84

8 18 0.12 1.2e+03 0.5 1.5 15 47 488 521 479 524 0.71

9 18 8e-09 8.1e-05 23.4 7.0 13 48 656 691 650 700 0.92

10 18 0.09 9.1e+02 0.9 0.9 17 32 711 726 696 732 0.52

11 18 0.47 4.7e+03 -1.4 0.2 21 52 785 815 780 820 0.71

12 18 0.64 6.5e+03 -1.9 0.4 34 55 814 835 794 837 0.63

13 18 0.42 4.3e+03 -1.3 1.0 22 50 942 970 939 977 0.80

14 18 1.1 1.1e+04 -2.7 0.6 28 52 978 1000 954 1005 0.64

15 18 1.4 1.4e+04 -3.0 3.1 15 44 1082 1111 1077 1123 0.80

16 18 0.00036 3.6 8.5 0.9 13 34 1158 1179 1155 1182 0.88

17 18 0.0027 27 5.7 0.3 17 42 1219 1244 1214 1258 0.78

18 18 0.035 3.6e+02 2.1 0.0 14 35 1261 1282 1259 1298 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	18	0.78	7.9e+03	-2.2	3.5	11	41	56	88	56	101	0.64
2	18	0.38	3.9e+03	-1.2	3.0	12	43	72	106	69	111	0.67
3	18	0.16	1.6e+03	0.1	0.3	17	35	133	151	122	173	0.68
4	18	0.13	1.3e+03	0.4	2.7	15	34	204	223	194	233	0.55
5	18	0.17	1.7e+03	-0.0	0.0	16	52	278	314	275	318	0.76
6	18	0.035	3.6e+02	2.2	1.0	16	40	385	409	350	415	0.74
7	18	0.12	1.3e+03	0.4	1.2	12	44	464	496	461	509	0.84
8	18	0.12	1.2e+03	0.5	1.5	15	47	488	521	479	524	0.71
9	18	8e-09	8.1e-05	23.4	7.0	13	48	656	691	650	700	0.92
10	18	0.09	9.1e+02	0.9	0.9	17	32	711	726	696	732	0.52
11	18	0.47	4.7e+03	-1.4	0.2	21	52	785	815	780	820	0.71
12	18	0.64	6.5e+03	-1.9	0.4	34	55	814	835	794	837	0.63
13	18	0.42	4.3e+03	-1.3	1.0	22	50	942	970	939	977	0.80
14	18	1.1	1.1e+04	-2.7	0.6	28	52	978	1000	954	1005	0.64
15	18	1.4	1.4e+04	-3.0	3.1	15	44	1082	1111	1077	1123	0.80
16	18	0.00036	3.6	8.5	0.9	13	34	1158	1179	1155	1182	0.88
17	18	0.0027	27	5.7	0.3	17	42	1219	1244	1214	1258	0.78
18	18	0.035	3.6e+02	2.1	0.0	14	35	1261	1282	1259	1298	0.88

Sequence Information

Coding Sequence: ATGACATTTTATCTACTCCTGTTCGGTGTGCTGCAATTTCACCTCGGTGGAACTAATCTCGTCACCTATGTCAGCGTCGATGACTCTGGGAGGCTGTCCAGAAAAAATGGTGTCAAAGAAGAAGAATCTAATTGGTATTGGGATCCGTCACCCCAGACGTCGAAAACTGTCGAAGATGAAATTGAAAACCATTATAAAATACAAATACGAGCTCTGCAAGATGAATTATCCAACCTGAGAGAACGAGAAACGATTGACTTAAGGGCAGATGAAGAATTGAGCAGATTAAAGGAAGAAAACAAAAATCTTTCCACAAATTTAGAAGATCTTGATAGCCACCATCAACTAGCTATGGATAGGCTACTTACCTTAAAAAAAGAATTACAAAATAATTTTGAAGTTTTAAAACAGGAACACGAAGATTTAAAAAATACAAATGATGGATACTCTAAGGAAATCAAGGATTTGATCGCGAAAATCGTAGAAAAAGATGGCGAGTTAGAAGCCGTAAAAACATACAAGTCCGATTACGATACATTGTTAAATAAATACCAAAACATGGAGAGGATGTATGGCCTGCTACGAGAAAATGCAGAAAAATTTCAAGAAGAGAACCAAGAGTTGCATGAAGAGGTGTTTAAATTACAAGAGCAAGTGACTAAATTAGAGCACGACTTGGAAGTAGTTAGTAAACAGTCAGATGCAACTGATATGGTGCCAAGACATGCATATGAGGCGTTGCTGAACGAAATCAATGAAATTAAAGACAGACGCAATTCAAGTCAAACTCACTTTGATGAAATAAATATAGATGATAATGCTAAAAGTGTCATTGATTCTCTTAGACGTGATATTAGTGGTCTTAGACATAAACTGTCACAAAAAGAAAGTCAAGAAAGCGGTGATAGTAAGCTTATACGGCCGGACAAAGTTATGCAGTTATACAATAAATATGTAAATTTTGAACTTCCTATCGACTTCGTTGGTGAGATTCCATCAGCGGGTGATAACATAGTACTATTTAAACTAGAAAGCGTTTTTAAAACAGTGTATTCGTTCAAAAAAGAAATCGATATCTTACAACAAAAATTATCAGAGAAAAGCCTCAGCACAAGTCATTTACAAACGCAAATAGATGATCTTTCCACTGAAAATGATTTTTTGACAACAGATATTCAGCAATTAGAAAGAGAATTGAGTGAAATGAAAAAGAATAATGACTTTCTTATATCAGAAATTGCGGCCTTGAAGAATACATCCAAGTTGGAACCAATAATTGAGACTCATGAAGATAATTTAGCAAAATTAGAAACCGAATTAGCGGATTGCAACAAATTGAATAAAAACTTTGAATCAGAAATTAATAGGATAGTAACAGAATTAGAAGAAGTGAGAAATGAAAAAACATTATTAAAAAGCAGCTTAAATGATCTGAGACATAAATATGCAACTATTTTGAGTGAATTTGAAATGTATAAAAATCAAACAAAAGAAATAGAGGAATTAGAAAGCAGCGCTAAAAATAAAGAATGTGAGGAACTTAAAAAAACAGCTCAGCAAAATGTTGATCTTAACAATCGCCTAAACTTAGCTAATGCCAAAATTGAGCAGCTTTCTATAGACATACATATTTTAGAAAATGACAAAGTACTGCTAACCAAACAGATGGATGATCTAAGAGTAGCAGTAGAAGAGAAAACAACGGCTCATAAAGAACTTCTAAACTTAAATACGTCTATGGAGCACAAATTACATGAAATTGAATTGAAACTCGATAATGTTATAAAACATAAACAAGACCTTGAAAACCATAAACTAAACTTAGAGAAAAAAGTTACTATATTAGAAAAAGAGTTGTCTTCGCATGATAAAACAGAAAATGTAACTGAAATAGATAAAGTCACTACAGAAAGAAATTTACTCATTAATAAAATAGAAGCAATGACTAAAGAAAATCTCACTAATTCTGAAGAAGTAGATCGACTAAGAAAAGAAATTAATGAATTACAGCGCAAAGAAGAAAATTTAATGCTGGAGAATAGTGTTCTAAAAAATAATGTTAGCAATGAAAACCGAATTGGAATACATAAACAAACTATAGACGAACTACAATCTAAAATTATTCAACAAGATATTCTCAAAAATGAGATAGAGGCGCTAAAATCAGAGAATCAGAAGATGGCTGAAAGTAAAATTAAGATGGAGTCCGAATTGGCCTCGACTGATGGCAAGATAGTGCACTTAGAAGAAGAATTTGATAAATTAGTAGCAGATCTGAATGAAAAAGATACATTAATTGATGCTCTTAACTCCACAATAGTACAAAACAATGCCACATTGGCTAATATGAACCAAACCATTTTAGAGTTAGAAAAAAGTGTTACTGTTAAAAATGATGAACTTGAACGACTCAGATTGGCATTTGAAGATATCACTACGCAATTTAACAATAGCGCTTCTCTATCAAATAGTAGTCAAGAAGAACTTAAAAAATTACAACATGAAAAAGAGGAAATCAGTAAAAATATTATTATGTTAAATGATGAAGTCGAAGAAAAAAACATTTTAATATCAACAGTAACAACACGTTTGGACGAATCAGAAAAGTTATGCGTGGAATTAAATTCTAAAATTGATAACAAAGATAAAGAAATTAAAGAATTGAATCAATCGCTACTAGAGTTAACTGATAAAATTAAAGCCTCGGCAAATTTAACACACCTTAATAATGATTATGAAAAAGTTTTTCGAGAAAAAAAGGCGCTAGAAAGCCAGTTATCAGAATTTAGGGATAGTCTGTTTATAAAGGAGAGATCTCTCGAAGAACTTAAAGAAAAACAGGAACAGTTTGAAAAGATGAGAAATGAATATCAAATTCTTGTAGATAATATCACTACTGAAAAAACAGAACTAATAAACTTAATCAATTTGAAACACAATGAGAGTCTACAATATCATAATGAAATACAGCGGCTAAATCATGTTATTTTAGAACAAACATCAGAGTTCAAAAAAATAGCTGAGGAAAAAGACAGGTTACTTCAAAGTTCATCAAAGAATTGTACAAACTGCGAACGTTTAAGAATGACACTCAAAGAAAAAGACGATATCATAATAACACTAAATCAAAAAGCAAGTGAGTATGACAAAATGAAATCAGATTTAGTCAGTGCCAATGAGTCTGCTCTACACTTAAAAGAAAGGTGTGAAAATCTTGATAAAAGTATGGCGATACAGTTGGAATCTGTCAGAGCGTTGACAGCACAAAATCTACAGTTGTCAGAACAAGAGCAAAATCTGGAACGCGAGTTGGAACGCTTAAGACGTCATTTGGTGGAGACTGAAGAGAACTATACTCAAGAGTTGATGGCGTCGGAGCATAAACTCACAGAATGCCAAGCGAGGCTTCACCAAGTCGAGGAGCGCGCAAAGCAGACGAGTACTGTGTATACCAGTAACAGCATCCGAGCAAATCAAGAAGTGGAAACGCTTCGTAACCAAATCAAGCTCTTAGAGAGACAACGTGATGAGGTTCAAGCTAAATTAAGTGACGCTGAAGATGCGAGGAGTAGAAGCGAAGCAGCACTCACTAACTTACAAGTTGTGCTGGAACAGTTCCAACTCGACAAAGAACGTGACATACATTCCGCTACAGAAAAGATTAGAAACAAAGTTGAAGAATTAAAACGTCACAACTCGGAGCTGAGTCGTGAAATCGATCGACTCAACGCAAAATTAGATGAAGCTTTAACAGGACTGCAAGCGGCCAGTAGACTAGGTGACCAGGTTGAGACCAAAACTGCTCAGATTAGTGATCTGAAGGAGCAAGTGAGAACTCTACAGACATCCGTGGCAGCGGCTGAAGAAAGATACTATAATGCGATATCGAACCAACAGGATAAGGTTGACAAGAATCTTGTCAAGAACCTCGTTATCAATTATGTGCTAACAGCGGCTGGAAACAATAATAACAAAACACAAGTTCTTCGTGTGATATCAACGGTATTGGACTTCAACCAGCAGGAATGTGAGAGACTAGGTCTAGTCCGAGCAGCAAACAGTACGGACAGTCTGACCGCAGAGTTCGTCAAGTTCCTACAGAATGAATCCCGGCCGAGGGCGCCACTGCCAAATATGATGACCCTAGGACAGAGTAACAGCAGAAGTACCACGCCTACTTCTAGAAAGAGTTCCGTTATAGGTCCAAATCCAACGATGCAGACTGGGCACAGCCGCAACCCTTCAACAGGATCTAATAACCTTCTTTTCACGAACATTGATTCCATGGAAACAGCATCTCAAAGATCTAGGGAATCTGACAAAACTGAACCGAAGGTAATAAGAATATCACCAAGCTTGGATACAGGAGTTATTCAGACGAGGAATACGGAGGGCGCCATATTGAAGTCAGTGTTAAAAGACATGTGA
Protein Sequence: MTFYLLLFGVLQFHLGGTNLVTYVSVDDSGRLSRKNGVKEEESNWYWDPSPQTSKTVEDEIENHYKIQIRALQDELSNLRERETIDLRADEELSRLKEENKNLSTNLEDLDSHHQLAMDRLLTLKKELQNNFEVLKQEHEDLKNTNDGYSKEIKDLIAKIVEKDGELEAVKTYKSDYDTLLNKYQNMERMYGLLRENAEKFQEENQELHEEVFKLQEQVTKLEHDLEVVSKQSDATDMVPRHAYEALLNEINEIKDRRNSSQTHFDEINIDDNAKSVIDSLRRDISGLRHKLSQKESQESGDSKLIRPDKVMQLYNKYVNFELPIDFVGEIPSAGDNIVLFKLESVFKTVYSFKKEIDILQQKLSEKSLSTSHLQTQIDDLSTENDFLTTDIQQLERELSEMKKNNDFLISEIAALKNTSKLEPIIETHEDNLAKLETELADCNKLNKNFESEINRIVTELEEVRNEKTLLKSSLNDLRHKYATILSEFEMYKNQTKEIEELESSAKNKECEELKKTAQQNVDLNNRLNLANAKIEQLSIDIHILENDKVLLTKQMDDLRVAVEEKTTAHKELLNLNTSMEHKLHEIELKLDNVIKHKQDLENHKLNLEKKVTILEKELSSHDKTENVTEIDKVTTERNLLINKIEAMTKENLTNSEEVDRLRKEINELQRKEENLMLENSVLKNNVSNENRIGIHKQTIDELQSKIIQQDILKNEIEALKSENQKMAESKIKMESELASTDGKIVHLEEEFDKLVADLNEKDTLIDALNSTIVQNNATLANMNQTILELEKSVTVKNDELERLRLAFEDITTQFNNSASLSNSSQEELKKLQHEKEEISKNIIMLNDEVEEKNILISTVTTRLDESEKLCVELNSKIDNKDKEIKELNQSLLELTDKIKASANLTHLNNDYEKVFREKKALESQLSEFRDSLFIKERSLEELKEKQEQFEKMRNEYQILVDNITTEKTELINLINLKHNESLQYHNEIQRLNHVILEQTSEFKKIAEEKDRLLQSSSKNCTNCERLRMTLKEKDDIIITLNQKASEYDKMKSDLVSANESALHLKERCENLDKSMAIQLESVRALTAQNLQLSEQEQNLERELERLRRHLVETEENYTQELMASEHKLTECQARLHQVEERAKQTSTVYTSNSIRANQEVETLRNQIKLLERQRDEVQAKLSDAEDARSRSEAALTNLQVVLEQFQLDKERDIHSATEKIRNKVEELKRHNSELSREIDRLNAKLDEALTGLQAASRLGDQVETKTAQISDLKEQVRTLQTSVAAAEERYYNAISNQQDKVDKNLVKNLVINYVLTAAGNNNNKTQVLRVISTVLDFNQQECERLGLVRAANSTDSLTAEFVKFLQNESRPRAPLPNMMTLGQSNSRSTTPTSRKSSVIGPNPTMQTGHSRNPSTGSNNLLFTNIDSMETASQRSRESDKTEPKVIRISPSLDTGVIQTRNTEGAILKSVLKDM

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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