Basic Information

Insect: Tiphia femorata
Gene Symbol: CSRNP3
Assembly: GCA_944319705.1
Location: CALUEQ010000266.1:569031-573864[-]

Transcription Factor Domain

TF Family: CSRNP_N
Domain: CSRNP_N domain
PFAM: PF16019
TF Group: Unclassified Structure
Description: This presumed domain is found at the N-terminus of cysteine/serine-rich nuclear proteins. These proteins act as transcriptional activators [1].
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 5 0.21 4.1e+03 -2.4 1.7 48 103 53 81 16 97 0.51

2 5 0.31 6.1e+03 -3.0 0.2 36 63 415 442 397 505 0.45

3 5 0.38 7.3e+03 -3.3 0.3 165 195 541 571 536 582 0.82

4 5 0.2 3.9e+03 -2.4 1.3 56 103 578 625 563 642 0.60

5 5 3.2e-101 6.2e-97 323.9 7.7 1 218 928 1138 928 1138 0.92

#	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	5	0.21	4.1e+03	-2.4	1.7	48	103	53	81	16	97	0.51
2	5	0.31	6.1e+03	-3.0	0.2	36	63	415	442	397	505	0.45
3	5	0.38	7.3e+03	-3.3	0.3	165	195	541	571	536	582	0.82
4	5	0.2	3.9e+03	-2.4	1.3	56	103	578	625	563	642	0.60
5	5	3.2e-101	6.2e-97	323.9	7.7	1	218	928	1138	928	1138	0.92

Sequence Information

Coding Sequence: ATGGAATCGCCTTTGGCCAAGGAGCGCATCATTGAGGCCCAAGAGGATTCCACCTCAGTGGAGTCGACGGAAGCGACGATGGCCACGTCTACGGCGGTGGAGATAACGAAGGTGCTGGAGGTGGACGATCAGAGGAAGGTGGAGGTTGTGGAGATGTCGGAGAAGCAAGATGAGCTGAAGGAGGGAGATCGAGAGGAGGAACGAGAGTGCAAGAGGGAGCAGATGAGGGAGGAGGAGCTGGTGAATGCGAGAGGTGAGGATGGAGAGGTCGAAGACGACGGTGGTGGTGATGGTGCTGCTGGTGGTGCTATCGCGGCGACATCGTCCTCGCAGGAAGGTGAAATAAACAGTGAGCGCGACGTCGAGCGTCCTTCCGGTTCCGATAGAGTCGAGGACGTCGTGAGCCCTTCTACCGACACGACCGTCATCGACGAAGACGTCGACAACCGGCAAGGCAACGTTTCGGATATCATCGGATCCTCGTCCGACGAGCAGGCAGCATCAGTTGCCAGCGAGCAGGTCGACGAGTGTTCGTTGGATCTTCTCCTGGCAAACGATTCGACCGAAGGTGTCTCCGTCCAGAGAAAGCAGCTCGAGATGGGTCTAAGATCCGGGCGTCAATTACGTCAGGACGATTCGGAGGCCGAGCCAACTAAGAACAGCGAGATAAATGTGGATTCGTCCAGGGAGATGGCTAGTGCTGGCTCGAGCCAAGACTCGATCCTCGTCTCTGGTGAGTGTACCACCACGACGAATTCTTGTCCAGTAGCAAACATTGCGACACCGTCGAGTGATGCTAGGGCACCAGAATGGACGATTCCGTTGCCACAAACTACAGATGCCTCACCCTATCTTCCAGCCTCGTTGTCGCCTCTGGTCTACTTGGAGCGAATCAGAGTGAACGAAGAAGGACTCGACTCGCCGATGAGAACGCCTTTCAGGCCGAGAAAGCGGCCCGCTGAATTTTCACCGCTTAGCGCCGAGATCAAGAAGATCGGCGTGGAGATATCCGAGGAGGAGGCCAATCAGCTGAGGAACGATGTGAGGAGATTGTCTCCGGTCTTGGTGAGTCTACGAGAGAGGACTCTAGGTGAAATCATTCTCACTCCTGACTCGCGACCCTTTGACGAGAGCCAAAAGAGCAAGGCTGGTTCCCCGGTGGTGGACTCGCCGAGTGGCTCGTCTGCTCGGATGAACAGCCCTGGTAAGGTGACCAGTGGTAATGGAAGTGCGAGTGGGTGCAAGGAAGCGGATGCCAGCTCGAGAACCGACGCGGTCGTCGAGGAGACTCAAGAGACCGAGTGCACCAGCAGTGTCAACGAGGACTCCGTAAACGTCAGGAGGAAGCTTGATTACGAGGATGAAGACGCGCTCGAGGTTCAGTTTGGATCGTCGCCGCAAGCCGTGGTTTCCGAGACGGACGACGGTGCTCAATTGTTGTGTCCTGTCGCGAGCCAAGCGCAGGAGGACCACCAGGTCGAATCGTGCAAGTACATTGACAGTGCTAGCCCCGCGAGCCCGAAAAACGGCACAGGCCCTAGCGATGCGGGAACAACGTGCCACACACCGAGCAAGTGTGATTCTTCTCGTTTAGTGGTTGTGTTGGAGAGAATCGATCGTCAGTGTTACCAAGCTGGCGACTGCTGCGGCGATGATAACGAGGAGAGAAAGGACGGTGCAGTGGTGGAACCCTGTGCGAACAAGGATGCCGAAGGCAATGCAGAGCCCAATTCTGTACCGAGAGAGTCATCCGGCTCCAGCGAAGTTGAAAACCGGATTGTTGCAGATGAAAGAGCTAGTCAGAGTGATCAGGCTACTGCTGAGGAAGGAGAATCCAATTCACAGATTGATTCGTCCACGGATTCCACCCTGGAACTCCTCTGCAACGAGCCCATGAAGATTCTCAAGGTGATCGTTGACAAGCTCGATATGGATCAGATGTTTCAAGTCGAAAACGGCGGTTCTTCCAAGACGTGTACGGTGTCGCCACGGTCTACTGTGGTGCCACCACGGACGCCCACGGTGCCGCAGAAGGTGGCGCCGAGTAAAGAAGAGGTCGTCTCGAGGTCGGTCATCGAGAAGCTCGACGAGGATGAGGAGGTTGTTTTGGTGACCTCGTCTCCCTTCGTCGACAACCTTCGACTATCCTTGAACGACCTAGACACGTTGGAGGCTACACCAAGTTCGCCTGAGGAGGTTGTCGAGACTTCTGCAGACGTTCAGGAGAGTCTTGACACGGAAACTGAGACTGAGACTGGCTCGGACAGTTCCGAGGTCTCGTCCCTGACGATGGTCCGTCTTCGTGGTGGAAGTGTCGAGCAGGCAATTGCTGATCACATTTCTTGCCCCGAGAGAGATTCGTTGTGTTGCGTAGAGATTGCTCCGGAGATTGTGACCAGGCTCGAGCCAGACAGGCCTGAAGCCTTCACCGAAGACTCTGCTGAAAGCTTGACACTTGCTACCGGTGCCAGAGATGAAGTCAGATCCGATGGTAGTGACTCTGGACTTGGAAGCGAGATTCCAGGGGATCCTGGACCTGCTCCTGCGCCAGAAAGCGACTCGGAGACATCATTTCTGGACAGGATACCCGATGATATACTCTCGGACAAGGAGAAAGCGGTGAATCCACTCGAGGCCTTTGTGCCGAACGTAGCCGTCCCTGACGCATCACAGGCACCGATGACAAGCTTTCCGACTCCGCCAAAGAGTAACTTAAAGCGCAGATTGACCGACTGTATGGAAGGTGAACCAAGTCCTAAGAGAAGTAACACCGAGCAGAATAAGAAGAAGCGCAATATTCAGTTCGATGCTGTAACGGTGTACTACTTTCCCAGAGCACAAGGTTTCACTTGCGTACCGTCCCAGGGTGGCAGTACTCTCGGAATGAGTGCCACGCACAGTCACGCCGAGAGATTTTCATTGTCTGAACATGCCGCTGAGCAAAGGAGAATTCATCGTGCGAGACTGGCACAGTTGCGTTCAGAGAGAGCTGCAAATTGTGTAAGCGAGGCTGCCTCCAGTTCTGAGGATCCTAGTGACGACACGGATGAAGAACCAAGCGACAACGAAGAACTTGATATTGACAGTTACTATTTTCTACAGCCGGTACCAACGTGGCAGAGGCGAGCTCTTCTTAGAGCTGCAGGAGTGCGTAGAATAGATGCCGTCGAAAAGGACGAATGCCGAGATATTAGAGCTAGTCGAGAACACTGTGGTTGTGGGTGTAAAGGATATTGTGATCCTGAGAGCTGTCCATGTAGCAGAGCAAATGTAAAGTGTCAGGTCGATCGTGCAGGATTTCCTTGTGGATGTACCCGAGACGGTTGCGCCAATAGCTCGGGCAGGATCGAATTTAACCCAGTGCGCGTGCGGACGCACTTCATCCACACCCTTATGCGTTTGGAACTGGAGAAAAAGCAACGTGACGAGGAGGCAACGGATCACGATATCGTTGACAATCAGAATAGTAGAGGGCCGCTTAGAGAAATCAACTTGGGTACGGGATTGGGTAATACAACCGCGGAGTCCTGTGTTACGACTGGTGGATTTACAACTTTACATTACGAGAATCATGACAGCACTGGTGGTGGCCCGAATTGTCAGCCTGAAGTACCGGGCACGAGAGAGGACAGTTTAGACCTGTACGCTATAAGAGATGATTGTTATCCTAGTGAAGATACGGTCGATGGGACACAAGGAGCTCAGAGAAAGCTCCATCCTGAATTTAGTCAGGCCTTCCAAACGTTCTCCAGTCAATCTAGCACTGGGGTGAGCTTCCCGCAACCAGCGTATCAAGACTATCAGGCATACGCTAATCTCCCATCCACGTCTAGAGTACAATTTCAGCCGCAGTTTCAAACTGTGCCCGGAAACCCGAATTTTTCTCACTACGCGGCGTACAATCAGGACACTGGATCGATTCAAGGGAGCTGCCAGGTTCATCCTGGTCAGCATTCTTCGGCGTACGAAGCATCCTTCGCGCAGGACGACAATACAGGCTCGCAATACACAAATTTGAATTCGGTACAGCCCATGAACGCCGTAGTTCAGCAGATGGGAAAGTTGGAACCGTTTTCTGAATTGTTATCCGGAAGGTACTCGTACTATGGCGAGATGGAATCACAAACACACGGTACTTATGGAAGTGGAGTAAAAGTAGATATTGAAAAGAGTCAGGAGAATGAACAGCAATCGGAGAGTACAGAGGAGTGTGATGAAAATTTCGGGGAGATCATCAAAAAGTCTATGGTGGAAACAGTTTCCGCCTAG
Protein Sequence: MESPLAKERIIEAQEDSTSVESTEATMATSTAVEITKVLEVDDQRKVEVVEMSEKQDELKEGDREEERECKREQMREEELVNARGEDGEVEDDGGGDGAAGGAIAATSSSQEGEINSERDVERPSGSDRVEDVVSPSTDTTVIDEDVDNRQGNVSDIIGSSSDEQAASVASEQVDECSLDLLLANDSTEGVSVQRKQLEMGLRSGRQLRQDDSEAEPTKNSEINVDSSREMASAGSSQDSILVSGECTTTTNSCPVANIATPSSDARAPEWTIPLPQTTDASPYLPASLSPLVYLERIRVNEEGLDSPMRTPFRPRKRPAEFSPLSAEIKKIGVEISEEEANQLRNDVRRLSPVLVSLRERTLGEIILTPDSRPFDESQKSKAGSPVVDSPSGSSARMNSPGKVTSGNGSASGCKEADASSRTDAVVEETQETECTSSVNEDSVNVRRKLDYEDEDALEVQFGSSPQAVVSETDDGAQLLCPVASQAQEDHQVESCKYIDSASPASPKNGTGPSDAGTTCHTPSKCDSSRLVVVLERIDRQCYQAGDCCGDDNEERKDGAVVEPCANKDAEGNAEPNSVPRESSGSSEVENRIVADERASQSDQATAEEGESNSQIDSSTDSTLELLCNEPMKILKVIVDKLDMDQMFQVENGGSSKTCTVSPRSTVVPPRTPTVPQKVAPSKEEVVSRSVIEKLDEDEEVVLVTSSPFVDNLRLSLNDLDTLEATPSSPEEVVETSADVQESLDTETETETGSDSSEVSSLTMVRLRGGSVEQAIADHISCPERDSLCCVEIAPEIVTRLEPDRPEAFTEDSAESLTLATGARDEVRSDGSDSGLGSEIPGDPGPAPAPESDSETSFLDRIPDDILSDKEKAVNPLEAFVPNVAVPDASQAPMTSFPTPPKSNLKRRLTDCMEGEPSPKRSNTEQNKKKRNIQFDAVTVYYFPRAQGFTCVPSQGGSTLGMSATHSHAERFSLSEHAAEQRRIHRARLAQLRSERAANCVSEAASSSEDPSDDTDEEPSDNEELDIDSYYFLQPVPTWQRRALLRAAGVRRIDAVEKDECRDIRASREHCGCGCKGYCDPESCPCSRANVKCQVDRAGFPCGCTRDGCANSSGRIEFNPVRVRTHFIHTLMRLELEKKQRDEEATDHDIVDNQNSRGPLREINLGTGLGNTTAESCVTTGGFTTLHYENHDSTGGGPNCQPEVPGTREDSLDLYAIRDDCYPSEDTVDGTQGAQRKLHPEFSQAFQTFSSQSSTGVSFPQPAYQDYQAYANLPSTSRVQFQPQFQTVPGNPNFSHYAAYNQDTGSIQGSCQVHPGQHSSAYEASFAQDDNTGSQYTNLNSVQPMNAVVQQMGKLEPFSELLSGRYSYYGEMESQTHGTYGSGVKVDIEKSQENEQQSESTEECDENFGEIIKKSMVETVSA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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