Basic Information

Insect: Pieris melete
Gene Symbol: -
Assembly: GCA_963693345.1
Location: CAVNZK010000368.1:281869-287921[+]

Transcription Factor Domain

TF Family: CG-1
Domain: CG-1 domain
PFAM: PF03859
TF Group: Unclassified Structure
Description: CG-1 domains are highly conserved domains of about 130 amino-acid residues containing a predicted bipartite NLS and named after a partial cDNA clone isolated from parsley encoding a sequence-specific DNA-binding protein [2]. CG-1 domains are associated with CAMTA proteins (for CAlModulin -binding Transcription Activator) that are transcription factors containing a calmodulin -binding domain and ankyrins (ANK) motifs [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 8 0.0059 88 3.6 0.1 44 60 27 43 21 71 0.88

2 8 0.0053 79 3.7 0.1 44 60 173 189 156 217 0.89

3 8 0.0063 94 3.5 0.1 44 60 319 335 293 352 0.91

4 8 0.0052 77 3.8 0.1 44 60 564 580 542 608 0.89

5 8 0.0051 76 3.8 0.1 44 60 710 726 687 754 0.89

6 8 0.0053 79 3.7 0.1 44 60 856 872 839 900 0.89

7 8 0.0053 79 3.7 0.1 44 60 1002 1018 984 1046 0.89

8 8 0.0052 77 3.8 0.1 44 60 1247 1263 1229 1291 0.89

#	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	0.0059	88	3.6	0.1	44	60	27	43	21	71	0.88
2	8	0.0053	79	3.7	0.1	44	60	173	189	156	217	0.89
3	8	0.0063	94	3.5	0.1	44	60	319	335	293	352	0.91
4	8	0.0052	77	3.8	0.1	44	60	564	580	542	608	0.89
5	8	0.0051	76	3.8	0.1	44	60	710	726	687	754	0.89
6	8	0.0053	79	3.7	0.1	44	60	856	872	839	900	0.89
7	8	0.0053	79	3.7	0.1	44	60	1002	1018	984	1046	0.89
8	8	0.0052	77	3.8	0.1	44	60	1247	1263	1229	1291	0.89

Sequence Information

Coding Sequence: ATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGGGACTCATATACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagattttttaaaaaagataattacaattacaataacaGACTGGTGAGCTTGTGGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGAATCTTATTGCAGCGCATCAGAAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCATGCGAGTGTTTCACACATAGTTGGCACAAAACCATCCACACCGACTTCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGGTACATTCATCAAATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGGGACTCATATACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagattttttaaaaaagataattacaattacaataacaGACTGGTGAGCTTGTGGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGTATCTTATTGCAGCGCATCAGAAGGACAATTtaggaaatataaatgtggATGTGATTGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACAAAGTTGGCACAAAACCATCCACACCGACTTCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGGTACATTCATCAAATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGAGACTCATACACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagattttttaaaaaagataattacaattacaataacaGACTGGTGAGCTTGTTCACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGAATCTTATTGCAGCGCATCAGAAAGACAATTtaggaaatataaatgtggATATGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACATAGTTGGCACAAAACCATCCACACCAACATCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGGTACATTCATCAAATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGGGACTCATATACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagatttttaaaaaagataattacaattacaataacaGACTGCGCATCAGAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACATAGTTGGCACAAAACCATCCACACCAACATCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGGTACATTCATCAAATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGGGACTCATATACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagattttttaaaaaagataattacaattacaataacaGACTGGTGAGCTTGTGGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGAATCTTATTGCAGCGCATCAGAAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACATAGTTGGCACAAAACCATCCACACCAACATCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGGTACATTCATCAAATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGGGACTCATACACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagattttttaaaaaagataattacaattacaataacaGACTGGTGAGCTTGTGGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGGATCTTATTGCAGCGCATCAGGAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACAAAGTTGGCACAAAACCATCCACACCGACTTCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGGTACATTCATCAAATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGGGACTCATATACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagattttttaaaaaagataattacaattacaataacaGACTGGTGAGCTTGTGGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGAATCTTATTGCAGCGCATCAGAAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACATAGTTGGCACAAAACCATCCACACCAACTTCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGGTACATTCATCAAATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGGGACTCATATACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagattttttaaaaaagataattacaattacaataacaGACTGGTGAGCTTGTGGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGAATCTTATTGCAGCGCATCAGAAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACATAGTTGGCACAAAACCATCCACACCAACATCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGACTGGTGAGCTTGTGGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGGATCTTATTGCAGCGCATCAGAAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACAAAGTTGGCACAAAACCATCCACACCGACTTCTGGCGAGCAAACGATTGTTTGTGTAAGCATGGGTACATTCATCAAATGGTCAATCACTCGGATCCTGACAACCCCTTTGTTGCTGAAGATGGGACTCATACACAAAGATTTAAATCTCAATGGAGGGCAGTaaagagattttttaaaaaagataattacaattacaataacaGACTGGTGAGCTTGTGGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGAATCTTATTGCAGCGCATCAGAAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACATAGTTGGCACAAAACCATCCACACCGACTTCTGGCGAGCAAACGATTCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGGATCTTATTGCAGCGCATCAGGAAGACAATTtaggaaatataaatgtggATGTGATCGAATGGATTCAGCATTTGAATGAAACCCCAAGCGAGTGTTTCACACAAAGTTGGCACAAAACCATCCACACCGACTTCTGGCGAGCAAACGATTGTTTACTGGTGAGCTTGTCGACACATGATGTACCACTAATAAAACTACATGGAGATGTAAACTTTATACTCACGCAATTATACCAAGCTAGCAACTTTGGTGATATAGAAGTGTACGCGGTGATCCAGCTTTGGGATCTTATTGCAGCAACaatatttaatgtCGATGAAACCAGTTTATGCACTGTCCCGACCAAAAATACAAAGGTGTTTGCTCAAACTGGTCGTAAACAAGTGGCTAGAGTCACTTCAGCTGAAAAAGGTGACACCACAACAGCAGTAGTTTGCGGCTCTGCTACTGGAAACTTTATACCACCGATGTTTATATTTCGCAGAGTGCCAATGAAGATGGAGTTGATGGATGGTGCACTTCCCGGTTCCGCTTATGCATGTAATACGACTGGCTGGATGAAATTGGGTGTCTTTGAGCAATggtttgataattttttaactcACGTGAAGCCTTCAAAAGACGATCCAGCAATGTTGATTTTGGATAGCCACCTCTCATACAAAAAATTTGAATGTGGTGCTAAAGGCGCGAGAAAAACATGTGCTTATTATGTGCCTGCCACCGCATTGCACCCATAA
Protein Sequence: MVNHSDPDNPFVAEDGTHIQRFKSQWRAVKRFFKKDNYNYNNRLVSLWTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWNLIAAHQKDNLGNINVDVIEWIQHLNETPCECFTHSWHKTIHTDFWRANDCLCKHGYIHQMVNHSDPDNPFVAEDGTHIQRFKSQWRAVKRFFKKDNYNYNNRLVSLWTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWYLIAAHQKDNLGNINVDVIEWIQHLNETPSECFTQSWHKTIHTDFWRANDCLCKHGYIHQMVNHSDPDNPFVAEDETHTQRFKSQWRAVKRFFKKDNYNYNNRLVSLFTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWNLIAAHQKDNLGNINVDMIEWIQHLNETPSECFTHSWHKTIHTNIWRANDCLCKHGYIHQMVNHSDPDNPFVAEDGTHIQRFKSQWRAVKRFLKKIITITITDCASEDNLGNINVDVIEWIQHLNETPSECFTHSWHKTIHTNIWRANDCLCKHGYIHQMVNHSDPDNPFVAEDGTHIQRFKSQWRAVKRFFKKDNYNYNNRLVSLWTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWNLIAAHQKDNLGNINVDVIEWIQHLNETPSECFTHSWHKTIHTNIWRANDCLCKHGYIHQMVNHSDPDNPFVAEDGTHTQRFKSQWRAVKRFFKKDNYNYNNRLVSLWTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWDLIAAHQEDNLGNINVDVIEWIQHLNETPSECFTQSWHKTIHTDFWRANDCLCKHGYIHQMVNHSDPDNPFVAEDGTHIQRFKSQWRAVKRFFKKDNYNYNNRLVSLWTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWNLIAAHQKDNLGNINVDVIEWIQHLNETPSECFTHSWHKTIHTNFWRANDCLCKHGYIHQMVNHSDPDNPFVAEDGTHIQRFKSQWRAVKRFFKKDNYNYNNRLVSLWTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWNLIAAHQKDNLGNINVDVIEWIQHLNETPSECFTHSWHKTIHTNIWRANDCLCKHGLVSLWTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWDLIAAHQKDNLGNINVDVIEWIQHLNETPSECFTQSWHKTIHTDFWRANDCLCKHGYIHQMVNHSDPDNPFVAEDGTHTQRFKSQWRAVKRFFKKDNYNYNNRLVSLWTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWNLIAAHQKDNLGNINVDVIEWIQHLNETPSECFTHSWHKTIHTDFWRANDSSNFGDIEVYAVIQLWDLIAAHQEDNLGNINVDVIEWIQHLNETPSECFTQSWHKTIHTDFWRANDCLLVSLSTHDVPLIKLHGDVNFILTQLYQASNFGDIEVYAVIQLWDLIAATIFNVDETSLCTVPTKNTKVFAQTGRKQVARVTSAEKGDTTTAVVCGSATGNFIPPMFIFRRVPMKMELMDGALPGSAYACNTTGWMKLGVFEQWFDNFLTHVKPSKDDPAMLILDSHLSYKKFECGAKGARKTCAYYVPATALHP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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