Basic Information

Insect: Cydia amplana
Gene Symbol: NFAT5
Assembly: GCA_948474715.1
Location: OX419659.1:19159008-19189119[+]

Transcription Factor Domain

TF Family: RHD
Domain: RHD domain
PFAM: PF00554
TF Group: Beta-Scaffold Factors
Description: Proteins containing the Rel homology domain (RHD) are eukaryotic transcription factors. The RHD is composed of two structural domains. This is the N-terminal DNA-binding domain that is similar to that found in P53. The C-terminal domain has an immunoglobulin-like fold (See PF16179) that functions as a dimerisation domain [1-2].
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 6 1.5e-23 9.4e-20 71.7 0.2 1 109 241 357 241 366 0.90

2 6 0.00043 2.7 8.4 0.1 76 113 362 402 353 422 0.74

3 6 0.018 1.2e+02 3.1 0.0 76 101 403 431 395 433 0.80

4 6 0.003 19 5.7 0.1 78 108 427 458 417 467 0.80

5 6 0.00072 4.5 7.7 0.1 76 110 464 501 456 509 0.75

6 6 1.7e-09 1.1e-05 26.0 0.2 76 168 505 589 497 590 0.87

#	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	6	1.5e-23	9.4e-20	71.7	0.2	1	109	241	357	241	366	0.90
2	6	0.00043	2.7	8.4	0.1	76	113	362	402	353	422	0.74
3	6	0.018	1.2e+02	3.1	0.0	76	101	403	431	395	433	0.80
4	6	0.003	19	5.7	0.1	78	108	427	458	417	467	0.80
5	6	0.00072	4.5	7.7	0.1	76	110	464	501	456	509	0.75
6	6	1.7e-09	1.1e-05	26.0	0.2	76	168	505	589	497	590	0.87

Sequence Information

Coding Sequence: ATGACAATGTCACCATTGTCATCGTCACCCACAATGAGCGCCCGCGTGCATAGGAAGGTGATGCGCGCGCCGCACAAGCGGCAGCTCCCGGGCAAGATGGCCCACGCGGGCAAGATGGTGCACCCGGGCAAGGTGCACCCGGGCAAGCTGGCTCACCTGGGCAAGTTCGGGCGGCTGCACTACTCGCACACGCACGCGCGGCCGCCGGAGCCCTGCGAGAACAGCAACGACAGCGGACTCGGCCCGGACCACGATCAGAGACATAACACGGTTAACAGAGAACCCGAGGCCTGGGAACGCGCGGCGGCGGTTAAGATAGAGTGCGACGACGCGAACGACGCGTATGCGTTCTCGGCACCGATGCACGCCGCGCCAACGCTCACGCCCGCTTCCGCGCCCGCCTCGACCGACGCTACCATGATGCCCCCTGTAATACGAGCAGGTTGCAGCATATCTAGTCCCAGCACCGAAACAGAGACAAGACTTAACTACCCCGACTACCGGTCGTGCGGCAAGCTCGGCAGCGGGGGCAAATACCCGGGCGGGGGCAAACTCGCCGGGGGTAAGCTAGGGGGGAAACTCGGGGGCAAGTTAGGAGGGAAGTTTGGGGGGAAGCTAGCGCAGGCATTGGCGAGGAGAAGAGCGCTGGTTGCGATGACGCAGGGCGCGCCGGGGCTGGCCGCGCCGCTGACGGGCCGGTCGAGGGACGGCACCGTGGAGCTGCAGATACTGTGCCAACCGGAGACGCAGCACAGAGCCAGATATCAAACGGAGGGTAGTCGAGGGGCGGTGAAGGACAACTCCGGGAACGGGTTTCCAATAGTCAAGTTGGTGGGCTACGACAAGCCTGCGGTGCTACAGGTATTCATCGGTACGGACACGGGGCGGGTGGCGCCGCACATGTTCTACCAAGCGTGCCGCGTGTCAGGCAAAAACTCTACTAGCTGTAAAGAGAGGAAGGAAGACGGCACCGTGGTCATCGAGATCGACCTGGAGCCGGCGCGCAACTGGCAGGTCACCTGCGACTGCGTCGGGATTCTCAAGGTGAGCAGGATAGAAGAAACTAGCTGTAAACAGAGGAAGGAAGACGGGACTGTGGTCATCGAGATCGACCTGGAGCCGGCGCGCAACTGGCAGGTCACCTGCGACTGCGTCGGCATTCTCAAGGTGAGCAGGATAGAAGAAACTAGCTGTAAACAGAGGAAGGAAGACGGGACTGTGGTCATCGAGATCGACCTGGAGCCGGCGCGCAACTGGCAGGTCACCTGCGACTGCGTCGGCATTCTCAAGATCGACCTGGAGCCGGCGCGCAACTGGCAGGTCACCTGCGACTGCGTCGGGATTCTCAAGGTGAGCAGGATAGAAGAAACTAGCTGTAAAGAGAGGAAGGAAGACGGGACTGTGGTCATCGAGATCGACCTGGAGCCGGCGCGCAACTGGCAGGTCACCTGCGACTGCGTCGGGATTCTCAAGGTGAGCAGGATAGAAGAAACTAGCTGTAAAGAGAGGAAGGAAGACGGGACTGTGGTCATCGAGATCGACCTGGAGCCGGCGCGCAACTGGCAGGTCACCTGCGACTGTGTCGGCATTCTCAAGGAGCGTAACGTGGACGTGGAGCACCGGTTCGGCGAGCTGGGCGGGCCGGCGGCGCACGTGTCGCGCGGCAAGAAGAAGTCCACGCGCTGCCGGATGGTGTTCCGGACCGAGATCGTGAACGCGGACGGACAGACCGAGACGCTGCAAGTCTGCTCCACGCAGATCATATGCACGCAACCCCCCGGCGTGCCGGAAGTGTGTCGAAAGTCTTTAGTGTCCTGTCCGGCGACGGGAGGCCTGGAACTGTACCTGCTGGGGAAGAACTTCCTCAAGGAGACGAGAGTCGTGTTCTGCCACCGTCAGGACGGACGAAGCGTATGGGAGGATGAAGTCGTTCCCGACAAGGAGTTCCTTCAACAGGACGGACGAAGCGTATGGGAGGATGAAGTCGTTCCTGACAAGGAGTTCCTTCAACAGGTAACTTTCCTGTGCTCAAGTAACTTTCCTGTGTTCAAGTCTGATAACTCTCTAGTGGGCCTGCTGAGAACTTCCTCAAGGAGACGAGAGTCGTGTTCTGCCATCGTCAGGACGGACGAAGCGTATGGGAGGACGAAGTCGTTCCCGACAAGGAGTTCCTTCAACAGTGGGCCTGCTGAGAACTTCCTCAAGGAGACGAGAGTCGTGTTCTGCCGCCGTCAGGACGGACGAAGCGTATGGGAGGATGAAGTCGTTCCTGACAAGGAGTTCCTTCAACAGGACGGGCGAAGCGTATGGGAGGACGAAGTCGTTCCTGACAAGGAGTTCCTTCAACAGACACACCTAGTGTGTTGCGTGCCGCCGTACGCCCGCTCGGACATCAGCGAGCCCGTGTCCGTGCAGCTGTACGTGCGGTCGGGCGGCAAGGCCTCCGAGCCGCACGCCTTCACGTACACCCCCCCGGCCCTCGACACGGGCCCGCAGCACTGCACCACACACCACACGCAAGGTGCCGGTGCCGGCGCCGGCGCGGACGACGCCCGGCCCGTGCTCATGTGGGGCGGCGCCATGCTGCCGCCGCCCCGGCCGCCCGCGCGCCGCCCCTCGCTCATCGTGCCCGACCCGCACGAGCCGCTCGGGCTCAAGGCCGAGCTGCAGGACGACTCCAGCCAGCACGACTCCTGCGGCCCCGACGGGCCCGAGCGCCTCCCCGACGACCTGAAGGTGGTCGACCTGCGCCTCAAGGCCGAGGCGAGCCGCGACGGCCCCTCCTTCGCCATCAAGCTGTCCCCGCCCGCCGCCCCGCAGAGCGAGCCCCCCTCCCCCCTCGCCTCCTTCACCCAGCAGCTGCAGGCCATCCAGAACCAGGTGCAGACCGACAAGATGGTCGAGTCCGTCACCGCCGCCATCTTCAACTCGGACGACCCGGGCGGCCAGATGTACCCCGCGCCGATGTCGATGGCCATGGATCCGATGCGGCGGCTCATCTCCGCCGAGAACGACGCGATGCCGATGCAGCGGGACATGAAGGCGCTCAACCGCGAGCTGATGATCGCCGACGCGACCATGCAGGTGGCGGCCGCCGCCGAGCCCGGCCTGCTCGCCTTCGGCCGCATGACGCAGCCGCAGCAGCGGCCGGCCGAGCCGTTCAACCCTTTCACGATCACCAAGATGGAGATGGAGACCGATCAGATCGAGCAGCGCATCGCGCAACAGACCGCGCACATGGAGGCCCTGGTGGAGGACGCGATGAAAGCGACGGCGGTGATGCTGCCGGCCGACGCGGCCAAACTCGACGAGCTGGTCAACTCGCGCGTGGAGGACCACCTCTCCGGCGCGTCCGCGGCGTCCTCGACGGCGTCGCACGCGTCCGACGTGCTGCTCAGCCCGACGGCGGCGGTCGGCCCCGTGCCGCCTCGCGACGCCCTGATGGCCCCGCTGCCGCCGTCGGCGATCTCCCCGGACGTGATCCTGAACCCGCAAGTGTCCCCCGGCATGATGTGCGAGGCCGGGCCGCGCATGGTGCTGCAGGCGCCGGCGTCGCAGGAGGAGCTGATGATGATGACGGAGCTGACGAGCTCGGTGAAGACGCCGCCCTCGGCCGTCAAGTCCATGATCCTGAACGCCGCCGCGGAGATCCTGACGTCCGACTCGACCATGAACGCGCTCGTGACGTCGGCGATCAACACCGCCAATATCCTGACGACCGAGAGCGCGGGCGGCGCCGCGATGCAGATGCCGGAGCAGCCGAGCCCGAGCGAGCCGGCGTCCGACCCGCCGCTGTCGGCCATGTCGCAGGCCGTGTCGCAGGCCGTGACGCAGGCCGTGTCGCAGGCCGTGTCGCAGGCCGTGTCGCAGGCCGTGTCGCAGGAGATGACGGCGCCCGTGCAGGGGCTCACGGACATGAGCGACAGCGACCTGCTCTCCTACATCAACCCGAGCACCTTCGATCAGGGTGAGTTCTTCTTCTGA
Protein Sequence: MTMSPLSSSPTMSARVHRKVMRAPHKRQLPGKMAHAGKMVHPGKVHPGKLAHLGKFGRLHYSHTHARPPEPCENSNDSGLGPDHDQRHNTVNREPEAWERAAAVKIECDDANDAYAFSAPMHAAPTLTPASAPASTDATMMPPVIRAGCSISSPSTETETRLNYPDYRSCGKLGSGGKYPGGGKLAGGKLGGKLGGKLGGKFGGKLAQALARRRALVAMTQGAPGLAAPLTGRSRDGTVELQILCQPETQHRARYQTEGSRGAVKDNSGNGFPIVKLVGYDKPAVLQVFIGTDTGRVAPHMFYQACRVSGKNSTSCKERKEDGTVVIEIDLEPARNWQVTCDCVGILKVSRIEETSCKQRKEDGTVVIEIDLEPARNWQVTCDCVGILKVSRIEETSCKQRKEDGTVVIEIDLEPARNWQVTCDCVGILKIDLEPARNWQVTCDCVGILKVSRIEETSCKERKEDGTVVIEIDLEPARNWQVTCDCVGILKVSRIEETSCKERKEDGTVVIEIDLEPARNWQVTCDCVGILKERNVDVEHRFGELGGPAAHVSRGKKKSTRCRMVFRTEIVNADGQTETLQVCSTQIICTQPPGVPEVCRKSLVSCPATGGLELYLLGKNFLKETRVVFCHRQDGRSVWEDEVVPDKEFLQQDGRSVWEDEVVPDKEFLQQVTFLCSSNFPVFKSDNSLVGLLRTSSRRRESCSAIVRTDEAYGRTKSFPTRSSFNSGPAENFLKETRVVFCRRQDGRSVWEDEVVPDKEFLQQDGRSVWEDEVVPDKEFLQQTHLVCCVPPYARSDISEPVSVQLYVRSGGKASEPHAFTYTPPALDTGPQHCTTHHTQGAGAGAGADDARPVLMWGGAMLPPPRPPARRPSLIVPDPHEPLGLKAELQDDSSQHDSCGPDGPERLPDDLKVVDLRLKAEASRDGPSFAIKLSPPAAPQSEPPSPLASFTQQLQAIQNQVQTDKMVESVTAAIFNSDDPGGQMYPAPMSMAMDPMRRLISAENDAMPMQRDMKALNRELMIADATMQVAAAAEPGLLAFGRMTQPQQRPAEPFNPFTITKMEMETDQIEQRIAQQTAHMEALVEDAMKATAVMLPADAAKLDELVNSRVEDHLSGASAASSTASHASDVLLSPTAAVGPVPPRDALMAPLPPSAISPDVILNPQVSPGMMCEAGPRMVLQAPASQEELMMMTELTSSVKTPPSAVKSMILNAAAEILTSDSTMNALVTSAINTANILTTESAGGAAMQMPEQPSPSEPASDPPLSAMSQAVSQAVTQAVSQAVSQAVSQAVSQEMTAPVQGLTDMSDSDLLSYINPSTFDQGEFFF

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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