Basic Information

Insect: Epinotia brunnichana
Gene Symbol: Atpalpha
Assembly: GCA_963854355.1
Location: OY977952.1:5535747-5563663[-]

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 10 0.013 4.8e+02 2.5 0.0 164 182 635 653 628 657 0.86

2 10 0.013 4.8e+02 2.5 0.0 164 182 677 695 670 699 0.86

3 10 0.013 4.8e+02 2.5 0.0 164 182 719 737 712 741 0.86

4 10 0.013 4.8e+02 2.5 0.0 164 182 761 779 754 783 0.86

5 10 0.013 4.8e+02 2.5 0.0 164 182 803 821 796 825 0.86

6 10 0.013 4.8e+02 2.5 0.0 164 182 845 863 838 867 0.86

7 10 0.013 4.8e+02 2.5 0.0 164 182 887 905 880 909 0.86

8 10 0.013 4.8e+02 2.5 0.0 164 182 929 947 922 951 0.86

9 10 0.013 4.8e+02 2.5 0.0 164 182 971 989 964 993 0.86

10 10 0.013 4.8e+02 2.5 0.0 164 182 1013 1031 1006 1035 0.86

#	of	c-Evalue	i-Evalue	score	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	10	0.013	4.8e+02	2.5	164	182	635	653	628	657	0.86
2	10	0.013	4.8e+02	2.5	164	182	677	695	670	699	0.86
3	10	0.013	4.8e+02	2.5	164	182	719	737	712	741	0.86
4	10	0.013	4.8e+02	2.5	164	182	761	779	754	783	0.86
5	10	0.013	4.8e+02	2.5	164	182	803	821	796	825	0.86
6	10	0.013	4.8e+02	2.5	164	182	845	863	838	867	0.86
7	10	0.013	4.8e+02	2.5	164	182	887	905	880	909	0.86
8	10	0.013	4.8e+02	2.5	164	182	929	947	922	951	0.86
9	10	0.013	4.8e+02	2.5	164	182	971	989	964	993	0.86
10	10	0.013	4.8e+02	2.5	164	182	1013	1031	1006	1035	0.86

Sequence Information

Coding Sequence: ATGGGTATGAGTGTTGAGTCGGTCTTGCATCGAGGTGCGCGCCGGCCGGCCAAACACTCTCAGCATGGCCGTACCGACTCGTACCGCGTCGCCACGATCGGCCTCATTAAGGACGATAATAGAACTGCCGATGGACAGTACAagACTCGCCGGAAGCCTCCCGCGAAGAAGCGGAAAGCAGGAGATTTAGATGACCTAAAACAGGAGTTGGATATTGATTTTCACAAAGTATCTCCCGAGGAACTATACCAAAGATTTCAAACACATCCAGAAAATGGCCTTAGTCACGCAAAAGCGAAAGAGAACCTTGAAAGGGATGGTCCAAACGCACTCACGCCACCTAAGCAAACGCCCGAAtgggtgaaattttgtaaaaatTTGTTCGGTGGTTTTGCGTTATTACTGTGGATTGGTGCTATTCTATGCTTTATAGCCTATGGAATTCAGGCAAGTACCGTAGAAGAACCAGCGGACGACAATTTATACCTCGGCGTTGTATTGGCAGCGGTCGTAATCGTGACAGGCATCTTTTCCTACTACCAAGAAAGCAAGTCGTCCAAGATCATGGAGTCGTTCAAGAATATGGTCCCTCAGTTCGCCACCGTCATCCGGGAGGGAGAGAAGCTGACGCTGAGGGCTGAGGATCTGGTGCTAGGCGACATTGTTGAGGTGAAATTCGGCGACCGTATTCCAGCTGATATCCGTATCATCGAAGCGCGCGGTTTCAAAGTGGACAACTCGAGTTTGACCGGCGAATCGGAACCTCAATCGCGTGGCTCGGACTTCACCAATGAGAATCCCCTTGAGACCAAGAACTTGGGTTTCTTCTCTACCAACGCCGTTGAGGGCACCGCTAAGGGAATCGTCATCTGCTGTGGAGATAACACCGTGATGGGCCGTATCGCTGGTCTGGCTTCCGGCCTGGACACCGGGGAGACTCCCATCGCCAAGGAGATCCACCACTTCATCCACCTGATCACGGGCGTGGCCGTCTTCCTGGGCGTGACCTTCTTCGTCATCGCGTTCATCCTCGGCTACCACTGGCTCGACGCTGTCATCTTCCTTATCGGTATCATCGTAGCCAACGTGCCCGAAGGTCTACTGGCCACCGTGACCGTATGCCTGACCCTCACCGCCAAGCGCATGGCCTCCAAGAACTGCCTGGTGAAGAACCTCGAGGCCGTGGAGACCCTGGGCTCCACCTCCACCATCTGCTCCGACAAGACCGGCACGCTCACGCAGAACAGGATGACCGTCGCCCACATGTGGTTCGACAACCAGATCATTGAGGCTGATACCACTGAGGATCAGTCTGGAGTACAGTATGACCGCACCAGCCCCGGCTTCAAGGCCCTCGCCAAGATCGCGTCCCTGTGCAACCGCGCGGAGTTCAAGGGCGGCCAGGACGGCGTCCCCATCCTGAAGAAGGAGGTCGCCGGCGACGCCTCCGAGGCCGCGTTGCTCAAGTGCATGGAGCTGGCGCTCGGAGACGTGCTGTCCATCCGGAAACGCAACAAGAAGGCCACCGAGATCCCCTTCAACTCCACCAACAAGTACCAGGTGTCGGTCCACGAGAGCGACGACCCCAGCGACCCGAGACACCTGCTCGTCATGAAGGGTGCCCCCGAGAGGATCTTGGAGCGCTGCAGCACCATCTTCATTGGTGGAAAGGAAAAGGTTCTGGACGAAGAGATGAAGGAGGCATTCAACAACGCGTACCTCGAGCTCGGCGGCCTCGGCGAGCGCGTGCTCGGCTTCTGCGACCTGCAACTGCCCTCGGACAAGTACCCCATCGGGTACAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTGGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCTCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGTTCAACATTGATGACGTCAACTTCCCCGTCGACAACCTGCGCTTCGTCGGCCTCATGAGCATGATCGACCCGCCCCGCGCCGCCGTGCCCGACGCTGTTGCCAAGTGCCGATCGGCTGGTATCAAGGTTATCATGGTGACTGGTGACCACCCCATCACCGCCAAGGCCATCGCCAAGTCCGTGGGCATCATCTCGGAGGGCAACGAGACCGTTGAGGACATCGCCGCCCGCCTGAACATCCCTGTCTCCGATGTGAACCCGCGCGAGGCCAAGGCTGCTGTTGTTCACGGCACCGAGCTCAGGGATATTGGCTCGGATCAGCTTGATGAGATTCTGAAGTACCACACCGAAATCGTATTCGCCCGCACCTCCCCGCAACAGAAGCTGATCATCGTCGAGGGTTGCCAGCGGCTCGGAGCCATCGTGGCGGTCACCGGCGACGGCGTCAACGACTCGCCCGCGCTGAAGAAGGCCGACATCGGTGTCGCCATGGGCATCGCTGGCTCTGACGTCTCCAAACAGGCCGCGGACATGATCCTGCTGGATGACAACTTCGCTTCCATCGTGACGGGCGTGGAGGAGGGCCGCCTGATCTTCGACAATCTGAAGAAGTCCATCGCCTACACGCTCACGTCCAACATCCCCGAGATCTCCCCCTTCCTCGCCTTCATCCTGTGCGATATCCCGCTGCCCCTCGGCACTGTAACCATCCTTTGCATCGATCTTGGAACTGACATGGTGCCTGCTATATCATTGGCGTATGAGGCGCCCGAGTCCGATATCATGAAGCGGCAACCGCGGGACCCTTACCGCGACAACCTCGTGAACAGAAGGTTGGCACGCCTGCACCAAGGGGTCCACGCTTACTAG
Protein Sequence: MGMSVESVLHRGARRPAKHSQHGRTDSYRVATIGLIKDDNRTADGQYKTRRKPPAKKRKAGDLDDLKQELDIDFHKVSPEELYQRFQTHPENGLSHAKAKENLERDGPNALTPPKQTPEWVKFCKNLFGGFALLLWIGAILCFIAYGIQASTVEEPADDNLYLGVVLAAVVIVTGIFSYYQESKSSKIMESFKNMVPQFATVIREGEKLTLRAEDLVLGDIVEVKFGDRIPADIRIIEARGFKVDNSSLTGESEPQSRGSDFTNENPLETKNLGFFSTNAVEGTAKGIVICCGDNTVMGRIAGLASGLDTGETPIAKEIHHFIHLITGVAVFLGVTFFVIAFILGYHWLDAVIFLIGIIVANVPEGLLATVTVCLTLTAKRMASKNCLVKNLEAVETLGSTSTICSDKTGTLTQNRMTVAHMWFDNQIIEADTTEDQSGVQYDRTSPGFKALAKIASLCNRAEFKGGQDGVPILKKEVAGDASEAALLKCMELALGDVLSIRKRNKKATEIPFNSTNKYQVSVHESDDPSDPRHLLVMKGAPERILERCSTIFIGGKEKVLDEEMKEAFNNAYLELGGLGERVLGFCDLQLPSDKYPIGYKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKFNIDDVNFPVDNLRFVGLMSMIDPPRAAVPDAVAKCRSAGIKVIMVTGDHPITAKAIAKSVGIISEGNETVEDIAARLNIPVSDVNPREAKAAVVHGTELRDIGSDQLDEILKYHTEIVFARTSPQQKLIIVEGCQRLGAIVAVTGDGVNDSPALKKADIGVAMGIAGSDVSKQAADMILLDDNFASIVTGVEEGRLIFDNLKKSIAYTLTSNIPEISPFLAFILCDIPLPLGTVTILCIDLGTDMVPAISLAYEAPESDIMKRQPRDPYRDNLVNRRLARLHQGVHAY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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