Basic Information

Insect: Meganola albula
Gene Symbol: lrrfip2
Assembly: GCA_936440415.1
Location: CAKZFH010000103.1:4613247-4634323[+]

Transcription Factor Domain

TF Family: LRRFIP
Domain: LRRFIP domain
PFAM: PF09738
TF Group: Unclassified Structure
Description: LRRFIP1 is a transcriptional repressor which preferentially binds to the GC-rich consensus sequence (5'- AGCCCCCGGCG-3') and may regulate expression of TNF, EGFR and PDGFA [1]. LRRFIP2 may function as activator of the canonical Wnt signalling pathway, in association with DVL3, upstream of CTNNB1/beta-catenin [2].
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 1.1e-76 2e-72 244.1 21.5 1 270 122 384 122 403 0.88

2 8 1 1.9e+04 -38.5 44.5 1 72 404 475 404 691 0.69

3 8 1 1.9e+04 -36.6 39.8 163 163 707 707 528 889 0.59

4 8 1 1.9e+04 -17.3 19.2 196 196 904 904 786 1011 0.52

5 8 1 1.9e+04 -21.6 24.0 33 33 1143 1143 1057 1279 0.59

6 8 1 1.9e+04 -15.8 19.7 9 86 1290 1367 1284 1432 0.71

7 8 1 1.9e+04 -13.9 15.2 205 213 1501 1509 1412 1597 0.49

8 8 0.23 4.3e+03 -3.2 6.1 11 94 1648 1733 1640 1756 0.60

#	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	1.1e-76	2e-72	244.1	21.5	1	270	122	384	122	403	0.88
2	8	1	1.9e+04	-38.5	44.5	1	72	404	475	404	691	0.69
3	8	1	1.9e+04	-36.6	39.8	163	163	707	707	528	889	0.59
4	8	1	1.9e+04	-17.3	19.2	196	196	904	904	786	1011	0.52
5	8	1	1.9e+04	-21.6	24.0	33	33	1143	1143	1057	1279	0.59
6	8	1	1.9e+04	-15.8	19.7	9	86	1290	1367	1284	1432	0.71
7	8	1	1.9e+04	-13.9	15.2	205	213	1501	1509	1412	1597	0.49
8	8	0.23	4.3e+03	-3.2	6.1	11	94	1648	1733	1640	1756	0.60

Sequence Information

Coding Sequence: ATGGGGCATGTGTCAGAACTGGCGACGCCTGACAATAGTGATGAAGAAAGCGGAGATGCCTTCACCGACGGCGACTTTGGCGACTCTGACGACGAGACTGTCATCGAACGTCCCAACGGTGTTGAGCCTTCCCATGTTCCTGTAAATGAAACTATTAATTCAGGCCTACAAAATTGTTCAACAAGTAATGGCCATACGAATGGTGATCTAGAGGCTTCACCTCGACTTAATGGTCGGAAAAACATTGAAAATACAGCTAGTGACGTAGAGAACCAAAGTATCACTCTAACGGACTTGCGCAGAGATTCTCACACGGAGCAGAATCCTTCGATTGTTGGAATACTAGGAGATCAACAAAACCATGCGGAACAACGGCTAGCGGCGCGGAGAGCTGCGCGGGCGGAGGCTCGCGAGATCCGCATGAGGGAGCTGGAGCGACAGCAGCGAGAACAGGAGGACCATGCGGACAAAGCTTACGACATGTATGCAGAGACGGTGGGTCGTCGCGGTCCACGGCTGGCTGCGCTCAGCCCCGCCGGCGTACACTCGCCGCGACGCAGCTCCGAGGACTCGGTCGACGACGCGTTCAGCATCAAGGACCTTAGGCACGAATTAAAAGAAGTGGAAGAGAAATTTAGGAAAGCAATGATTCTAAACGCACAACTGGACAACGATAAAGCGGCGCTTGGATATCAATTAGAACTGTTAAAAGATAGGATAGAGGAGTTACATGAAGAATATGCACAGTTACAGCGCGAACACCGAGAGAAGTGTTCATCCCTGGAGCGTCTAAAGCGGGACCACTCGTGCGTGTGCAGCGAGTTGAGCGCGGCGCGGGACGCCGTGCGGGCGCGGGACGCGGCGGCGCGGGCCGCGGGCCACGCCTTCGTGGAGGCCGCCGCGCTGCTGCAGCCCGCGCCCGCGGGACAGCCCGTCGGCGCCGTGCCCGCGCTCGCGCTCGTCACGCACCACGCCGAGCAGATGCTCAACGACCTCGGCGAGGGCACGCTAGACGTTCGGTTGCAAAAGTTGTTGAATTCCAAACAGTCGCTGGAGTCGGAAGTACGCAAATTGAAGTTACAACTGAACGAAGAGCGCGCGGCGAGGCAGAACGGGGTCGCTAACCATCACGACCAGGAGTACGAAAATGAATTGGAGACGGTGCGCAAGTCTGCGGCCGAGGCAAAGGGGAGGGCGGCGCGAGCCGAGGCAGAGGCCGCACTACAGGGCGCACACGTGGCACGGCTCGAGGCGCAGCTCGCGAGACTGCGAGCCGCGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGGTATGGCACAAGCTAACTGTGCAGGGCGCGCGCACGTGGCGCACGCACGCACGCACGCACGCACGAGCAGCGCGACGAGCACGAGGAGGCGCTCAAGCAGGAGAAGCGACGCCTGCAGCGAGAGAAACAAAGCTCTGATGCGTTCAGCTTGGGCTCGAGAGGCGTTGAACCGAGTTGAAGAGTTGGAAACAGAAAACAGCCATTTAACGAAACGACTGGACAAATTGAAGAACGCCAAATCTGCACTCCTAAAAGACCTGTGA
Protein Sequence: MGHVSELATPDNSDEESGDAFTDGDFGDSDDETVIERPNGVEPSHVPVNETINSGLQNCSTSNGHTNGDLEASPRLNGRKNIENTASDVENQSITLTDLRRDSHTEQNPSIVGILGDQQNHAEQRLAARRAARAEAREIRMRELERQQREQEDHADKAYDMYAETVGRRGPRLAALSPAGVHSPRRSSEDSVDDAFSIKDLRHELKEVEEKFRKAMILNAQLDNDKAALGYQLELLKDRIEELHEEYAQLQREHREKCSSLERLKRDHSCVCSELSAARDAVRARDAAARAAGHAFVEAAALLQPAPAGQPVGAVPALALVTHHAEQMLNDLGEGTLDVRLQKLLNSKQSLESEVRKLKLQLNEERAARQNGVANHHDQEYENELETVRKSAAEAKGRAARAEAEAALQGAHVARLEAQLARLRAAHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHARAARRARGGAQAGEATPAARGMAQANCAGRAHVAHARTHARTSSATSTRRRSSRRSDACSERARARGARTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHARAARRARGGAQAGEATPAARGMAQANCAGRAHVAHARTHARAARRARGGAQAGEATPAARGMAQANCAGRAHVAHARTSSATSTRRRSSRRSDACSERARARGARTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHARAARRARGGAQAGEATPAARGMAQANCAGRAHVAHARTHARTSSATSTRRRSSRRSDACSERARARGARTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHEQRDEHEEALKQEKRRLQREVWHKLTVQGARTWRTHARTHARAARRARGGAQAGEATPAARGMAQANCAGRAHVAHARTHARAARRARGGAQAGEATPAARGMAQANCAGRAHVAHARTHARTSSATSTRRRSSRRSDACSERNKALMRSAWAREALNRVEELETENSHLTKRLDKLKNAKSALLKDL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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