Basic Information

Insect: Tenodera sinensis
Gene Symbol: Csrnp2
Assembly: GCA_030765045.1
Location: CM060963.1:210224730-210237915[-]

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 6 0.89 4.1e+04 -3.5 4.1 39 65 108 134 64 179 0.49

2 6 0.97 4.5e+04 -3.6 2.1 28 66 302 340 280 394 0.52

3 6 2 9.2e+04 -10.0 10.6 31 43 437 449 351 517 0.55

4 6 2 9.2e+04 -8.9 10.4 18 97 543 623 536 648 0.55

5 6 2 9.2e+04 -9.3 10.1 42 83 654 695 632 762 0.53

6 6 2.7e-71 1.2e-66 227.0 15.7 31 218 791 973 767 973 0.80

#	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	0.89	4.1e+04	-3.5	4.1	39	65	108	134	64	179	0.49
2	6	0.97	4.5e+04	-3.6	2.1	28	66	302	340	280	394	0.52
3	6	2	9.2e+04	-10.0	10.6	31	43	437	449	351	517	0.55
4	6	2	9.2e+04	-8.9	10.4	18	97	543	623	536	648	0.55
5	6	2	9.2e+04	-9.3	10.1	42	83	654	695	632	762	0.53
6	6	2.7e-71	1.2e-66	227.0	15.7	31	218	791	973	767	973	0.80

Sequence Information

Coding Sequence: ATGTGCACACAGATACATGATCACAGACACAGATCATACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGATCATACCAGACCATGTGCACACAGATCATACCAGACCATGTGCACACATGTCCATGACCACAGACACAGATCAGATTAGACCATGTGCACACAGATCATACCAGACCATGTGCACACATGTGCATGATCAGAGACACAGATCATACCAGACCTTGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCTTGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCTTGTGCACACATGTGCATGATCAGAGACACAGATCATACCAGACCATGTGCACACAGATCATACCAGACCATGTGCACACAGACACAGATCAGACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACATGTGCATGATCACAGATCAGACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGATCATACCAGACCATGTGCACACATGTGCATGATCACAGATCAGACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGACCATGTGCACATACCAGACCATATGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGACCATGTGCACATACCAGACCATATGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACATACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGACCATGTGCACATACCAGACCATATGCACACATGCGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGACCATATGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACATACCAGACCACATGCACATACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGGCCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATATGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGGCCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGACCATATGCACATACCAGACCATATGCACATACCAGACCATGTGCACGCATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACATACCAGACCATATGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATATGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGATCATGCCAGACCATGTGCACACAGGTGCATGATCACAGATCATGCCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACACATGTGCATGATCCCAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCCCAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGATCATGCCAGACCATGTGCACACATGTGCATGATCACAGACACAGATCATACCAGACCATATGCACACATGTGCATGATCCCAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCATGTGCACACAGGTGCATGATCACAGACACAGATCATACCAGACCACGTGCACACATGTTTTGCTGCAACTTCGGAGTGAACGTTTGAATGCCCAGGGAGCTCCTGCTTCATCAAGTGATGACTCAGAGAGCGAAGAAGAGCAAAGCGACGCTTCAGAATCTGAGCTTGACCTTGATAGCTACTATTTCCTGCAGCCAGTCCCCACCAGACAGCGCAGAGCTCTCCTGCGTGCTGCAGGTGTGAGGAAGATAGACTCAGTGGAGAAGGATGAATGCAGAGACATCAGATCGTCTCGAGAGTTCTGTGGCTGTGGCTGTAAAGGCTATTGCGATCCTGACACGTGCTCGTGTTCCCAGGCTGGCATCAAATGTCAGGTGGATCGTCTGAATTTTCCATGTGGATGTTCACGAGATGGCTGTGCCAATTCCAGTGGTCGCATAGAGTTCAATCCAGTGCGCGTGCGGACGCACTTCATCCATACGTTGATGAGGCTGGAActggagaagaagcagaagttgGAGGAAGGTGAGGAGGAAGTTAAACAGCAACATTGGGGTGCTGAAGAAGATCGCTTGTCTCAGTCTAATGGAAAGGATGCAATGTCGTCACCAAAGTTCAATGGAAGCTTGCTGCGAGATGTAAGTCTGGGCTCAGGTGTGGAAGTGGAATCTTGTGTTCATGCAGGATCTTTCACAAATCTACATTATGGTGCACCAGGAGAAGGGCCAGGCAGCGACACAGGAGGGATACCCCCTTCCACAAACACATCATCTTCAGGGTTCGTTGGTGATTTACCTGCAAGAGAAGATTCTCTAGACCTGTACGCATTCAGAGACGAGTGCTACTCTGAGGAGAACAGCAGTGAGTTGTCTACTGAGCATACTGGGGATGGAGATAGGAATAATCCTCGTTTTGGCATTCATCATCAAAACACAAAGCAGGAGTTTGGTGCTTCACCAGGCTTCCACTTCAACCAAACAAGTGGAAGACCATTCACCACTTCTACAGGTATAATGTTTTCTGATTCTGGTTCCTCTGCATATCCTCAGCAAAGTTCCTCTGGGGCACCATTTGCTGAGGAAGCTGCCTCCAAGTACCAGTACTCCACAGCTTTCTCAAGCTTCTCTGGAGCACACCAGAGCTCGGAAAGCTTTAATCATTATGGTACGATGTACGAGTTTGGTGGAGCGAAGGTAGCAACTTCATCAGAAAGGGAAAACAACCAAGCCGCAGACTTCCAGCAGCACCACCACATCACTGGAACCAGTAACGGTTCCTATGAAGGCTTCTCTATGTTGGGAGCAAATAACGAATCTAATTCTGGCAGCTTGGTGCACAACAACCATTACACAAACCTTCACACAGTGCAGTGCCCTATGAGTAGCAAGCTGGAACCATTTTCAGAACTACTGCAGGGTCGCTACTCCTCGTACATGGCAACGGCCAGGGCAGGGTCCTTCGTAGATCCTTCTTCTGTCACATTCACGAGCAATGCTGGCGAAGTCCCTAGGTCTGAGAATGATGGAGTGGAGAAGAACCAGCACACTGGCGAGGCTTCAGGTGCTGGAGATGAGTGTGatgaaaactttggtgaaattaTCAAGAAAACAATGGTGGAAACCGTTTCTGCCTAA
Protein Sequence: MCTQIHDHRHRSYQTMCTHVHDHRHRSYQTMCTQIIPDHVHTDHTRPCAHMSMTTDTDQIRPCAHRSYQTMCTHVHDQRHRSYQTLCTHVHDHRHRSYQTMCTHVHDHRHRSYQTLCTHVHDHRHRSYQTLCTHVHDQRHRSYQTMCTQIIPDHVHTDTDQTRPCAHMCMITDTDHTRPCAHMCMITDQTRPCAHMCMITDTDHTRPCAHRSYQTMCTHVHDHRSDQTMCTHVHDHRHRSYQTICTYQTMCTYQTICTHVHDHRHRSYQTICTYQTMCTYQTICTHVHDHRHRSYQTICTYQTMCTHVHDHRHRSYQTMCTYQTMCTHVHDHRHRSYQTICTYQTMCTYQTICTHAHDHRHRSYQTICTYQTICTHVHDHRHRSYQTICTYQTMCTHVHDHRHRSYQTMCTQVHDHRHRSYQTMCTYQTTCTYQTMCTHVHDHRHRSYQTMCTQVHDHRHRSYQAMCTQVHDHRHRSYQTICTHVHDHRHRSYQTICTYQAMCTQVHDHRHRSYQTICTYQTICTYQTICTYQTMCTHVHDHRHRSYQTICTYQTICTQVHDHRHRSYQTMCTQVHDHRHRSYQTICTQVHDHRHRSYQTMCTQVHDHRHRSYQTMCTQVHDHRSCQTMCTQVHDHRSCQTMCTHVHDHRHRSYQTMCTQVHDHRHRSYQTMCTQVHDHRHRSYQTMCTQVHDHRHRSYQTMCTHVHDHRHRSYQTICTHVHDPRHRSYQTMCTQVHDPRHRSYQTMCTQVHDHRSCQTMCTHVHDHRHRSYQTICTHVHDPRHRSYQTMCTQVHDHRHRSYQTMCTQVHDHRHRSYQTTCTHVLLQLRSERLNAQGAPASSSDDSESEEEQSDASESELDLDSYYFLQPVPTRQRRALLRAAGVRKIDSVEKDECRDIRSSREFCGCGCKGYCDPDTCSCSQAGIKCQVDRLNFPCGCSRDGCANSSGRIEFNPVRVRTHFIHTLMRLELEKKQKLEEGEEEVKQQHWGAEEDRLSQSNGKDAMSSPKFNGSLLRDVSLGSGVEVESCVHAGSFTNLHYGAPGEGPGSDTGGIPPSTNTSSSGFVGDLPAREDSLDLYAFRDECYSEENSSELSTEHTGDGDRNNPRFGIHHQNTKQEFGASPGFHFNQTSGRPFTTSTGIMFSDSGSSAYPQQSSSGAPFAEEAASKYQYSTAFSSFSGAHQSSESFNHYGTMYEFGGAKVATSSERENNQAADFQQHHHITGTSNGSYEGFSMLGANNESNSGSLVHNNHYTNLHTVQCPMSSKLEPFSELLQGRYSSYMATARAGSFVDPSSVTFTSNAGEVPRSENDGVEKNQHTGEASGAGDECDENFGEIIKKTMVETVSA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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