Basic Information

Insect: Sphaerophoria taeniata
Gene Symbol: pol
Assembly: GCA_943591125.1
Location: CALSBT010000033.1:2230301-2283072[-]

Transcription Factor Domain

TF Family: zf-C2H2
Domain: zf-C2H2 domain
PFAM: PF00096
TF Group: Zinc-Coordinating Group
Description: The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [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 22 0.001 0.12 14.1 0.6 1 20 1672 1691 1672 1692 0.96

2 22 2.5e-06 0.00029 22.3 0.8 1 23 1700 1723 1700 1723 0.97

3 22 0.047 5.4 8.9 3.5 1 23 1842 1865 1842 1865 0.98

4 22 0.00021 0.024 16.3 1.0 1 23 1871 1894 1871 1894 0.95

5 22 0.018 2.1 10.2 5.5 1 19 1900 1918 1900 1921 0.95

6 22 4 4.6e+02 2.8 0.6 9 23 2362 2376 2360 2376 0.91

7 22 9.2e-06 0.0011 20.5 3.8 1 23 2382 2405 2382 2405 0.97

8 22 0.0005 0.058 15.1 0.8 1 23 2411 2433 2411 2433 0.97

9 22 0.0072 0.83 11.4 4.6 1 21 2527 2547 2527 2549 0.96

10 22 0.0055 0.63 11.8 1.9 1 23 2555 2578 2555 2578 0.93

11 22 7.6e-05 0.0088 17.6 2.2 3 23 2651 2671 2650 2671 0.97

12 22 0.00014 0.016 16.8 4.9 1 23 2677 2700 2677 2700 0.95

13 22 0.034 3.9 9.3 3.8 1 23 2706 2728 2706 2728 0.97

14 22 0.0021 0.24 13.1 0.3 2 23 2789 2810 2788 2810 0.97

15 22 0.0002 0.023 16.3 4.1 1 23 2818 2841 2818 2841 0.97

16 22 0.02 2.3 10.0 3.0 1 23 2847 2869 2847 2869 0.99

17 22 0.0047 0.54 12.0 3.1 2 23 2995 3016 2994 3016 0.98

18 22 2.6e-06 0.0003 22.3 0.9 1 23 3022 3045 3022 3045 0.97

19 22 8.8e-07 0.0001 23.7 1.2 1 23 3051 3073 3051 3073 0.99

20 22 2.3 2.6e+02 3.6 0.3 2 23 3136 3157 3135 3157 0.93

21 22 1.5e-05 0.0017 19.9 1.3 1 23 3206 3228 3206 3228 0.98

22 22 0.001 0.12 14.1 1.3 1 23 3290 3312 3290 3312 0.97

#	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	22	0.001	0.12	14.1	0.6	1	20	1672	1691	1672	1692	0.96
2	22	2.5e-06	0.00029	22.3	0.8	1	23	1700	1723	1700	1723	0.97
3	22	0.047	5.4	8.9	3.5	1	23	1842	1865	1842	1865	0.98
4	22	0.00021	0.024	16.3	1.0	1	23	1871	1894	1871	1894	0.95
5	22	0.018	2.1	10.2	5.5	1	19	1900	1918	1900	1921	0.95
6	22	4	4.6e+02	2.8	0.6	9	23	2362	2376	2360	2376	0.91
7	22	9.2e-06	0.0011	20.5	3.8	1	23	2382	2405	2382	2405	0.97
8	22	0.0005	0.058	15.1	0.8	1	23	2411	2433	2411	2433	0.97
9	22	0.0072	0.83	11.4	4.6	1	21	2527	2547	2527	2549	0.96
10	22	0.0055	0.63	11.8	1.9	1	23	2555	2578	2555	2578	0.93
11	22	7.6e-05	0.0088	17.6	2.2	3	23	2651	2671	2650	2671	0.97
12	22	0.00014	0.016	16.8	4.9	1	23	2677	2700	2677	2700	0.95
13	22	0.034	3.9	9.3	3.8	1	23	2706	2728	2706	2728	0.97
14	22	0.0021	0.24	13.1	0.3	2	23	2789	2810	2788	2810	0.97
15	22	0.0002	0.023	16.3	4.1	1	23	2818	2841	2818	2841	0.97
16	22	0.02	2.3	10.0	3.0	1	23	2847	2869	2847	2869	0.99
17	22	0.0047	0.54	12.0	3.1	2	23	2995	3016	2994	3016	0.98
18	22	2.6e-06	0.0003	22.3	0.9	1	23	3022	3045	3022	3045	0.97
19	22	8.8e-07	0.0001	23.7	1.2	1	23	3051	3073	3051	3073	0.99
20	22	2.3	2.6e+02	3.6	0.3	2	23	3136	3157	3135	3157	0.93
21	22	1.5e-05	0.0017	19.9	1.3	1	23	3206	3228	3206	3228	0.98
22	22	0.001	0.12	14.1	1.3	1	23	3290	3312	3290	3312	0.97

Sequence Information

Coding Sequence: ATGTCACTTAAGCGTACACCGGTACAAGGGGAAAAAGGAACGTCCGGCTCGGATCAACAATCCACGGGTCAGTCCAACGATGAACATGTCGGGTCAAGCGGAAATCAAGAGCAAACAGGAGCAGGGTCTAATTTATTGACGGGCAGCTCATCATCGGCTAGTCAACAGGATTCCATTGAAGGTCCAGGTTTCAGCAATGTAAGTGAGACGACGCTCACTGGTTCAGATAAGCAAAAGGAAAACCTGATGGACGAGAGGATCATGGAAATAATAGGGGTGAAAACATTAGTTCCAGTTAATCCGACCGCCAACGGTACAGCTAAGAGTGTCGTAGGTGCAGCCGTTCAGGTCACGCCAGAAATTAGATCTGTCATTAACCAGGCAGTATCGGACGCCGTGAAGGCAGAGATACAGAAGGGTCTCACCGATTTCTTCAAGCGAAATAATGTTCCTTCACAAGCGCCAGTAGTCCAGGAAAATCCGACCAGACCGTCAGAGGAAAATAATCATACACACAGTCAACGTTACAGTCAACCACCACCAGCGCTGCCAAGATCGACTCATCTGAACCCCGATTCAAGGTCATTCGTTCCAGTCGGGAACCAAGGTAGAGGCGGGTATACCGATTACGACCAATTCGGGAACTATGTGGATCCGCACTGGAGACAAGGAAACTATGAACGTGGACCGACTCCAAGGCCTTTTCATCCGACGAATTTTAATCCCCGAGAGACGATGCgtcaagcgattcgtatcgacaagtgggggctaaactttgatggccagtcggacgcgctatcggtggaagagttcattttccgcctcgagatactacagagccaacatcactgttcttgggcggacgtcctgcgagactttcatctgttgatatccgggtcggcaaatcaatggtattggcagtaccagaggacaaactatagaccagattggccaaccttgaaggatgcattgctcaggcagttccgaaactcgaagacggattgggacataatgcgagaAATCGGCACACGACTTCAGGGTCCTAATGAACCAAGTGACGATTTCTTTGCCGCAATAAGCAAACTAAGAGCGCAACTCAGGATGCCGGTTATGGAGCAAGACTTAGTGCGAACTCTCAAGAAGAATCTCAATGATAAAGTTGGTAGACTAGTTTATCCTCAGGCCATTGACACCGTGGATCAGCTGCGCAGGGCCTGTAAGGAAGCGGAATACGCTTTCCCAGGCCGGGACAGAGAAGTTCCCAGGCATTCAAGGCCTCAGATCCGATATGCGAACGAGTTAGAAACTGAACAAGAAGCCCAAGAAGAGTATGTAGAGGCGTTTCAGCACCAAGGCTCACGTGTGCAAATGAATCGACATGCCGAGGTCCAATTAGGTCCAGCGGAGATAGGGGACGGAAAATCCGTTCGTTTAATGGGCCGCAGCCAAAATCTAGAAAACGTAAGGAACAAAGTAGAATTAAGGAAAGCGTTTAAACCACTTCATGTTAGATTAAGGGAGTATTATGAAGCTAGAAATAGGATTTTTAATGGTAAGGTTGGGGAAATATCAAAACGAATTAGAAAGGCCAGGGAACGATTTAAATTAAGGAAACAAACCCGAAACAGAATAGCCTCAACAGTAGTAGACCTCCTATCcgatcccagaccacatgctaatgtttggattgccggtaaagaagtcttgggattattagacagtggggccagcgtaagcattctgggcaagggttgtcaagagtttgtccgggatacggggttggtggtgcagcctttcaattccggcgtgaagacggccgacggcaaacaccaggcgatcgtcggCAAGGTTAGAGCGTGCATTAGTTACAATGGGCAAGAAaaaatgatcagtttatacctagtcccgagcttagaccagaagctttatttaggagttgacttttggaaggaatttcagatcgcccctagtttgattagtgctatctcttcgccagaggaagaagtggatttaaagaggtcgcacgacctgacctttaatcagcgagccgccctagaagccgtcaaacagagatttttagatttcgatcgtcacggcttggggaaaacgtcgatagtccagcacgtgatagataccggagacgcgatcccggtgaagcagagacactatcctgtttctccagcggtgcaagctaagctgtatgaagaggtggaccggatgttaaatctaggtgtcatagaagagagtgaaagtccgtggtgttcaccagtggtactcctcaagaagcccggagtggatgggacgattaagtaccgattttgtcttgactcaaggaaagtaaacgcggtgaccaaaaaggacgcctttccgctccctcatgtggatggacttctcagccgattatcggacacctacttcatcagcagcgtggacttaaaggaggccttttggcagataccgctggaggagcagagtagagaaaaaactgctttcgcggtaccggggaggcccttataccagtttagagtcatgccctttgggttgtgtaatgcagcccaaaggttatgtcgcctgatggataaggtcattcccgcccgcctccgggagcgcgtcttcgtatatctggacgatttgctggtcgtatcacccgatttcgaaacccatattagcttgttaggcgaggtagccgactgtctgaggatggccaatctcaccatcaacgtcaagaagtccaagttctgctttaaagagctaaagtacctgggcttcatcgttggtggtgggatgttgaagacagatccggataaaatagaggcagtcgtcaatttccctaagcccaaaaatgctaggcaggttagaaggttcttgggtctcgctgggtggtatcggcgatttataaagaatttctcgagtctgactgctccgttgacggatacgctcaaaaagaaatgtcctaagttcattctgaccaaagaggcagaaagcgccttcgaagagttgaaaagagctcttacctccgctccggtgttggttcgaccagtgttctcgaaaaagttttacatacaatgtgatgcgtctgattccggcatcggggctgtgctttttcaaaagcatgagggtgatcaggaattaccgatagcgtatttttcccagaagctcaactcatgtcaaagaaactatagtgtgaccgagaaggagtgcatggcggctgttatggctatcaaaaagttcaggccctatgtcgagggaatggattttacggtgataaccgaccattcaagtcttaaatggctaatgtcaatgaaggacttgagtggccggctcgctaggtggagtcttaacctacaatcctattccttcgacatagagcaccgtaagggttctctgaacatagtccccgacactctttctcgggcacacttggatgtcctgacacttcattggccggcccctataatagatttagactcgaaagaattcgagtccaaagagtaccaagaccttatagccgcggttaaaagccatgaacaagagctaccagacttgaaaatcgatgacaattacgtatacaaacggacaattccacaagcaactcgcgatgaaattcaaacagagcactcctggtgtctctggatcccatcagctctgactgacgatcttattgcgaaagcacataatcctcctcaagcagggcacggagggatctcgaaaaccttgcaccgtttgcggcaatacttctattggccgaatatgaccatacaggtccgacagttcatagcaagctgcgatacttgcaaacagtccaaatcgtcgaatcagatttcccgaccacccataaacctaagtaattattctttcgaacgtccctttcaaaaaatctacatagattttattggcccataccctcgttccaagaacggaaatgtgtacgtgtttgttgtgcttgaccacttctctaaatttgtttgtttaaaggctctgagagcagccaactctagttcggtaataaaatatttgcgagaagatatctgtaataccttcggtgtacctcaggtgatacactctgataatgggaagcagtttacctccaaagagttccaaaactttttgcaagtctatggtataaggcactttaagactgccaattattcgccacaatcgaatgcatcggaacgagtaaatagaactttattagcagccattcggtcttacctaaaagaagaccagcgcgactgggatatgcatctcagcgacatcgcagcagcgctaagaagttccgtgcattcggccattggggtcaccccgtattatgccctgtttggcgtcaatatgatgatgcacggcagcgggtatgagctggctcgtaggttgaatgctcttgaagaaggtgagttggtaaccctccctcgtcaaaaccggttacacttgctgcgtaccaaactaaaagcatcgattcaagaagcaagcgagaaaactgcgaaaaggtacaatacccgatcccgaaacgtaagcttcgctcccggacaagaaatatataagcgtaacttcgtcctaagcgacgcttccaaacgcttgtccgcaaagttgtgcccaaagtacacgaaatgtcgcgtcgttaagcccatagAGCATCTCAGATCACATCGCAATAAAAATCCTTCTCAAACCGTTGTTGACAAACATACCGATGAACTGTCAAGCAAAGATGTTGCATCTGAATTAGAACAAAAACATGAGCACAAAGACGTTGGAACCAGCTTAGATGCGAGTGCTAGTGAACAATCAACAATTTGGGTGTTTGAGAATCAGCGTTCAACAAGGCGTTCGGTTCGTATTCAGCGAGAGGAATTAAAAACTCCCGATGGTGAAACTGATCAGCAGATACAGTCACATGAAAGTAATGCTGAGGCAGGGGAAATCAAAACTCAGACTAAGAAATCTGAGAAATTCATGCAAGTTGAAAATTCATTGGACGAACAGCATCCGATCCCCGATGAAGAATCGACACGTTCTTATAATTGCCCACATTGTAGCAAGGTATTTAAATACTTATCCCGCCTGAACGAACACATAGTCTGTCACAGCGAGTCCCGGCCTTTTGATTGCACAAATTGCGGAAAATTCTTCAAATCCCCTGGTCAACTTGCACGGCATCTTAAAACAAGTCATAAAGTCGTTACGTTTGGAATTCGCAGAAAAACATTTGGCAGACGTGGTAATTTCAAAAACAAAGCCATCAAATCTTTTATTCGCAATAAAATCGATAACGGTACCAATGCTACTGAGCAAATAATTGAACATCAAAACAAAGAAGAACAAAAAACTGAAGCCGAAGAAAACCAAAAGGGAACCAATCAAATTTGTGAACAAAACAATGAACAAACCGAACATTTACCATCTGATCTTGTTTCTTCATCAAACTCCTTGAAACACCCAAAAAGAAAAACAACAAGTCTCGAAAGTCCTGATTCTTCAAACACGTCAAAAGCAAAGCATAATAAAACCTTGGAAGAGGAAAGAACTTATCGTTGCGAACAATGTGATCTGACTTTTCATGTTAGTGCGCGATTTTACAGCCACATGCGATCCAAGCACGGTATCGAAAGGCCCTTCGCTTGTCAGCTGTGTGGCAGAGGTTTTAAAAGCTGCGGTAATCTTCGAAGTCATGTTATGATCACCCATGAAAAACTCAAACCCTTCAAATGTAACAATTGCAAACGCACATTTTCGTGTAAATCGAATCTAAAGAAACATTTTGCATCGCGTGTTTGGAATCATAGTTGTGGAAAGGAATTCAATAGTCGTCGTGTTGGTATAAAGAAGAAGATATCTGACAGAAGAAGATTAAATTACGAAGATGAAACTGTTGATTCGAATGAAAACGACGAATCAAAACATCGCAATAAAGAAGAAACTGCTATTGAATCGGCAAATGAAAGCCTATTCGTAAATGACAACACTGACCTTGTTTTTAAATCAAATACTGAAACATTAGATGATGGAAAAGCTGACGGCGGCCAAGAAGTGAGCGTCTTGTCAGTTGAAACTCGCGTTGCAACAACTGCCGATGATTCAGTGCAATCAGTGCCCGTCAAACCAGTCCAAGAAGAAGCCAATGATAAAAAACCCACAGATTTTAAAAAAGCTGGAAAACCTAAAAATCCACTCCAATGTCCTCAATGCAACAAAGAAGAAGAACAAGCGAAGGCACAATTATTAAAAGAGACCCTAGGAAACAGAGCTGTGACTCGTTCATTACTTAAACAAAGCGAGCAACGAATAGCAGGGATGCCCGTAGAACGCTCACCAATCAAACCCGACGGGAAAGACTCTCAGGTAACGGATGCTTCAGGTTCTGGGTCAAATCTAGTGCAAGAAGGGCCGGGACAGACCTCATCACAGGGCAGTGGTTCGTCAGGAGTGCAAGAAGGGCCGGGACAGACCTCATCACAGGGCAATGGTTCGTCAGGAGTGCAAGAAGGGCCGCGACAGACCTCATCGACGAGCAGTGGCTTGTCAGGGGTGCAAGGGTCGCCCGGTGGCACCCCTCCTGTAGTTGATCTGACCCAATCGAAGGGACAGAAAAAACATCCCTTAAAGGAAATACTAGAGATAATAGGAGTTGAAACCTTTCGGTCGACAGACCCAAACTTATCTAACCCGATTAGGGAAGGGGCAGAATTTGGAAGAAACCTAGGATCCAGAGGAATGGCAGAGATTACTCCAGAGTTGAGGTCCGCAATCAATGGGGCGGTAGCTGAATCGGTGAAAACCGACATTCAGAAGGGGCTGTCAGAATTTTTCAAAGGCATCAATATTCCTTCGAGATCCGAACAGCCAGTAGGATACAGGGGCGAAACGGCAGTCAGAGTCACGCCGGCGCCTAACCCATTGAATAATAATTTGTTTAGTCAGCCTCCTCCACCAATACCTGACAGGCCACCTCAGCAGGAAGCCCAGCAGGCACTTTGTTCCTATAGAATTCAAGACCAACGTACACCGACACCGCCTTTCCAACCCCTTCCCTTCTTCCTAATGCACTCGCTGTGTCTCTGGCATGAAAAGGGTATACGAAATCCCTTGATATTTGTTTTCCAATCCTATCTTAAAAAGCACTTACACAGCCACAGTAACGATAGGCCATTTAAGTGTACAATTTGTGGCAAGTGCTTCAAATACAAAGTAAGCCTCAAGTCGCATTATATGGTTGAGCATGCAAAGAATAAGCCGTTTAAATGCGACAAATGCCCGCAAGAATTCGTCAACGAATACAATTATCGAGTGCATCGCAATGGACACATAAAAGCAATCAAACGAAAGACCGATGCAAAACAAAGACGCCTAGCAAACGAAATTTCAGGTAAGACTGAGACGAAGAGTACTCCAATCGAAGAAATGGACAAAAGTCTTGAAGTTGCTTGTGAACGAACTGGAAATGTTGATATTGAGAAGATCGATCCAGAGAAGTCAGAAAAGCACATGGAAGAAGCCCAGAACTCGGTTGAGTTGTCCTGTGTACCCAGTAGTTCTTTGAATTCCAATGCAGAACAAGTTCAAAATGATGAACCGAAGAGTACTTTTGAATGTCCTCATTGCGATAAAGTTTACTTGTTTGCTTCGTACCTAAAAAAACATATGCGATGCCACAATGACGAAAGACCGCATGTTTGCAAAACTTGTGGCAAATCCTTTAAAGAATATTGGAGATTAAGGTCTCATGTTATGGCGAAACATGCTTTGACTTTGAAAAAATTCAGGAAGAAGAAGCGAAATCATTTGAGTGATAAACCGGTACTAGAAGAAAAACAAACACAATCACTTTTAAATATGGATGTTCAAGATGGCAATCGAGATCCAAACTCAACAAATATAACTGAAGCGGTTGGTGCTCCAGTGTTGCCACCACCAATGGAAGAAAATCGACCTGTAGTCGAAAACGAAAAACCTCACTGTACGCAATGCGATAGAGTGTTCCAGTATGCGTCACAGCTTGAAACACACATGCGCTCTCACACTGGTGAAAGACCCTACTCCTGTCCCACCTGCAATAAGACCTTTAAACAAACTGGCCATCTTAGGACTCACATTCATTTAACTCACAAAGGTCTAAAGCCATTCCAATGTACAATGTGCTTACGTGGATTTGATAATTTTCATCATTTGAGGGCCCATGAAAAAGCTCATCGCAAAAAACTCAAAAGTTCACTTGTTAAAAGCGAGGCATATTCTACAGTCGAGACATCAACTGCCGAATCCGTCCAAAAAGCTCAAGATATAATTCAAGACCAGATCATTCAAGATTTTGAAAAACTCGAACTTCATCCACTTTTTGGAACTAGTATGTTTGAACCAAATAGTTGCTTGACATGTTCTGAATGTGCACAGACCTTTGAATTGCAATCAGATTTGGATGAGCATATGAAGACTCATAGCGGCGTGGCTACAAGACCCTTTAACTGTTCAATTTGCTACAAGACGTTCAAACAGGAAGCTCACCTCAAGAACCACACCAAAATGAGTCACACGAAAACACGAAATTACAAATGTAATGAATGTAATCGAACGTTCCTTACATTTTACATTCTCAGCAAGCATATGCGATCTCACAAATCTAAAAAGAATAGCACTAATGGTAAATCGAAACGTGGCCATAAGAGAAGAGGCAAAATGAATAAACACAAAAACCTTTTTGAACCGCTGGATATACAAGTCACACCTCCTGAACCTGAGAAGGATATCATTAAAGAACCAACTGATTTAAGTGCTGTGAAAAACAATGTACAAACGAATTGTGCGCTGTGTTCGGCTTTAGTTGATTCACATAACTTAAGCGAGCACATGAAGCAATGTCTTCAAACACCTACATCCAATCATTTCGAAATGAAGCCGGAACCCTTTGAGCAAACTCAACGAAAAGATCATCCACTTTTCGAATCACTTTCAAATCAGGATGACGATAAAACCGATACCGGGGTTGTTAAGCAGTGTTCGGAATGCAACACAGAATTCTGTAGCTTTTCGACTTTTGCTGACCACATGCTAACGCACCAAGTTGAAAGGCCATTCGTTTGTTCAACTTGTGGCAAGGCTTTTAAGAAGAATGCACATCTAAGAAATCACATTATGGTAGTTCATAAGCGAATTCTACCCTACAAATGTGACGATTGTCCGAGAGTCTTTTCCAGCAAGTATAATCTTAACATACACTCAAAAACTCACATCGCTCACAGAGGCAAAAGACGTGTTATTATGAAAAAGAATTATTACAAAGACCCATCCTATCATGCCAAACCTCCTCCAAATGAAAGCCTCAATTTAACAGCAACCACAACAATCAGCCAAAAAACTGAAGATGACTATTCAAACCTGAGTGGAAGTGTTTCAATTGAAAATGAGAACATAGTGCGCTGCACGTTGTGCTACATTTCAGTCCAATCTGATGGCTTATCCAAGCATATGCAAGATTTTCATAATTTGCCCGAATCTTTAACATGTGTGACGGTTAAAAAAGAAAAGTCAGAAGAAGCAGACTCAATAATAAAACAGCAGCCAGTAGCAAGTGAGGCCAGTAGTAAGATTGAAATGACGCGATTTGATTTAACGCAGAAGCGACACTTTAAATGTCCTACTTGTGATAAAGAATTTCCACACCTTTCGAGATTGAATGAACATATGCGAGGGCATAGTGATGAAAGACCATTCATTTGTTTGACACATTTGGTGGATGACATGACGGATTATAGTGTTACTGCTTCAAATTTACAAAGTGACATGCATTTAGAACCACTCATTCCAACGAGGGATGAACAACTGCCAACGTATAATGTTGGTGGTGAAGGCTTGCCACAATTTACACCTGAAGAGACTCATCCGTGTACATTCTGTCCTACAGATTTTACTAACAATTGGGTTTTGAAAGAACACATGAAGACCCATCCCAATGTTAAAAACACACCAAATCAGAATTTCATAACCCAAGGCGACGTATCGCGAAAAATGAAGAAAATGCTCGACAAGAAATCACAAAATATAATTACAATGCTCCAACATTTGGGCATTCTGCAGGAACAACGCAAGGCACAGACCGTCTGCTACATCTGGACGGCAAGTAGTTTTTAA
Protein Sequence: MSLKRTPVQGEKGTSGSDQQSTGQSNDEHVGSSGNQEQTGAGSNLLTGSSSSASQQDSIEGPGFSNVSETTLTGSDKQKENLMDERIMEIIGVKTLVPVNPTANGTAKSVVGAAVQVTPEIRSVINQAVSDAVKAEIQKGLTDFFKRNNVPSQAPVVQENPTRPSEENNHTHSQRYSQPPPALPRSTHLNPDSRSFVPVGNQGRGGYTDYDQFGNYVDPHWRQGNYERGPTPRPFHPTNFNPRETMRQAIRIDKWGLNFDGQSDALSVEEFIFRLEILQSQHHCSWADVLRDFHLLISGSANQWYWQYQRTNYRPDWPTLKDALLRQFRNSKTDWDIMREIGTRLQGPNEPSDDFFAAISKLRAQLRMPVMEQDLVRTLKKNLNDKVGRLVYPQAIDTVDQLRRACKEAEYAFPGRDREVPRHSRPQIRYANELETEQEAQEEYVEAFQHQGSRVQMNRHAEVQLGPAEIGDGKSVRLMGRSQNLENVRNKVELRKAFKPLHVRLREYYEARNRIFNGKVGEISKRIRKARERFKLRKQTRNRIASTVVDLLSDPRPHANVWIAGKEVLGLLDSGASVSILGKGCQEFVRDTGLVVQPFNSGVKTADGKHQAIVGKVRACISYNGQEKMISLYLVPSLDQKLYLGVDFWKEFQIAPSLISAISSPEEEVDLKRSHDLTFNQRAALEAVKQRFLDFDRHGLGKTSIVQHVIDTGDAIPVKQRHYPVSPAVQAKLYEEVDRMLNLGVIEESESPWCSPVVLLKKPGVDGTIKYRFCLDSRKVNAVTKKDAFPLPHVDGLLSRLSDTYFISSVDLKEAFWQIPLEEQSREKTAFAVPGRPLYQFRVMPFGLCNAAQRLCRLMDKVIPARLRERVFVYLDDLLVVSPDFETHISLLGEVADCLRMANLTINVKKSKFCFKELKYLGFIVGGGMLKTDPDKIEAVVNFPKPKNARQVRRFLGLAGWYRRFIKNFSSLTAPLTDTLKKKCPKFILTKEAESAFEELKRALTSAPVLVRPVFSKKFYIQCDASDSGIGAVLFQKHEGDQELPIAYFSQKLNSCQRNYSVTEKECMAAVMAIKKFRPYVEGMDFTVITDHSSLKWLMSMKDLSGRLARWSLNLQSYSFDIEHRKGSLNIVPDTLSRAHLDVLTLHWPAPIIDLDSKEFESKEYQDLIAAVKSHEQELPDLKIDDNYVYKRTIPQATRDEIQTEHSWCLWIPSALTDDLIAKAHNPPQAGHGGISKTLHRLRQYFYWPNMTIQVRQFIASCDTCKQSKSSNQISRPPINLSNYSFERPFQKIYIDFIGPYPRSKNGNVYVFVVLDHFSKFVCLKALRAANSSSVIKYLREDICNTFGVPQVIHSDNGKQFTSKEFQNFLQVYGIRHFKTANYSPQSNASERVNRTLLAAIRSYLKEDQRDWDMHLSDIAAALRSSVHSAIGVTPYYALFGVNMMMHGSGYELARRLNALEEGELVTLPRQNRLHLLRTKLKASIQEASEKTAKRYNTRSRNVSFAPGQEIYKRNFVLSDASKRLSAKLCPKYTKCRVVKPIEHLRSHRNKNPSQTVVDKHTDELSSKDVASELEQKHEHKDVGTSLDASASEQSTIWVFENQRSTRRSVRIQREELKTPDGETDQQIQSHESNAEAGEIKTQTKKSEKFMQVENSLDEQHPIPDEESTRSYNCPHCSKVFKYLSRLNEHIVCHSESRPFDCTNCGKFFKSPGQLARHLKTSHKVVTFGIRRKTFGRRGNFKNKAIKSFIRNKIDNGTNATEQIIEHQNKEEQKTEAEENQKGTNQICEQNNEQTEHLPSDLVSSSNSLKHPKRKTTSLESPDSSNTSKAKHNKTLEEERTYRCEQCDLTFHVSARFYSHMRSKHGIERPFACQLCGRGFKSCGNLRSHVMITHEKLKPFKCNNCKRTFSCKSNLKKHFASRVWNHSCGKEFNSRRVGIKKKISDRRRLNYEDETVDSNENDESKHRNKEETAIESANESLFVNDNTDLVFKSNTETLDDGKADGGQEVSVLSVETRVATTADDSVQSVPVKPVQEEANDKKPTDFKKAGKPKNPLQCPQCNKEEEQAKAQLLKETLGNRAVTRSLLKQSEQRIAGMPVERSPIKPDGKDSQVTDASGSGSNLVQEGPGQTSSQGSGSSGVQEGPGQTSSQGNGSSGVQEGPRQTSSTSSGLSGVQGSPGGTPPVVDLTQSKGQKKHPLKEILEIIGVETFRSTDPNLSNPIREGAEFGRNLGSRGMAEITPELRSAINGAVAESVKTDIQKGLSEFFKGINIPSRSEQPVGYRGETAVRVTPAPNPLNNNLFSQPPPPIPDRPPQQEAQQALCSYRIQDQRTPTPPFQPLPFFLMHSLCLWHEKGIRNPLIFVFQSYLKKHLHSHSNDRPFKCTICGKCFKYKVSLKSHYMVEHAKNKPFKCDKCPQEFVNEYNYRVHRNGHIKAIKRKTDAKQRRLANEISGKTETKSTPIEEMDKSLEVACERTGNVDIEKIDPEKSEKHMEEAQNSVELSCVPSSSLNSNAEQVQNDEPKSTFECPHCDKVYLFASYLKKHMRCHNDERPHVCKTCGKSFKEYWRLRSHVMAKHALTLKKFRKKKRNHLSDKPVLEEKQTQSLLNMDVQDGNRDPNSTNITEAVGAPVLPPPMEENRPVVENEKPHCTQCDRVFQYASQLETHMRSHTGERPYSCPTCNKTFKQTGHLRTHIHLTHKGLKPFQCTMCLRGFDNFHHLRAHEKAHRKKLKSSLVKSEAYSTVETSTAESVQKAQDIIQDQIIQDFEKLELHPLFGTSMFEPNSCLTCSECAQTFELQSDLDEHMKTHSGVATRPFNCSICYKTFKQEAHLKNHTKMSHTKTRNYKCNECNRTFLTFYILSKHMRSHKSKKNSTNGKSKRGHKRRGKMNKHKNLFEPLDIQVTPPEPEKDIIKEPTDLSAVKNNVQTNCALCSALVDSHNLSEHMKQCLQTPTSNHFEMKPEPFEQTQRKDHPLFESLSNQDDDKTDTGVVKQCSECNTEFCSFSTFADHMLTHQVERPFVCSTCGKAFKKNAHLRNHIMVVHKRILPYKCDDCPRVFSSKYNLNIHSKTHIAHRGKRRVIMKKNYYKDPSYHAKPPPNESLNLTATTTISQKTEDDYSNLSGSVSIENENIVRCTLCYISVQSDGLSKHMQDFHNLPESLTCVTVKKEKSEEADSIIKQQPVASEASSKIEMTRFDLTQKRHFKCPTCDKEFPHLSRLNEHMRGHSDERPFICLTHLVDDMTDYSVTASNLQSDMHLEPLIPTRDEQLPTYNVGGEGLPQFTPEETHPCTFCPTDFTNNWVLKEHMKTHPNVKNTPNQNFITQGDVSRKMKKMLDKKSQNIITMLQHLGILQEQRKAQTVCYIWTASSF

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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