Basic Information

Insect: Aphidoletes aphidimyza
Gene Symbol: Zfy1
Assembly: GCA_030463065.1
Location: CM059996.1:44880775-44895009[-]

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 31 0.14 8 7.3 0.0 2 21 171 190 170 191 0.93

2 31 0.038 2.1 9.1 4.6 2 23 249 270 249 270 0.97

3 31 1.7e-05 0.00095 19.6 0.7 1 23 276 298 276 298 0.99

4 31 0.00019 0.01 16.4 0.3 2 23 334 355 333 355 0.96

5 31 0.88 49 4.8 0.1 3 23 409 430 407 430 0.94

6 31 0.00048 0.027 15.1 0.3 3 23 439 459 437 459 0.95

7 31 0.0034 0.19 12.4 0.3 1 23 465 489 465 489 0.97

8 31 0.31 17 6.2 0.1 2 17 531 546 530 547 0.91

9 31 0.00089 0.049 14.2 1.3 2 23 712 733 711 733 0.97

10 31 0.00041 0.023 15.3 0.3 3 23 817 837 815 837 0.95

11 31 0.018 1 10.1 0.9 1 23 843 867 843 867 0.97

12 31 9.3e-05 0.0052 17.3 0.7 2 23 909 930 908 930 0.97

13 31 0.037 2.1 9.1 0.7 2 23 941 964 940 965 0.94

14 31 0.064 3.5 8.4 0.0 2 21 1143 1162 1142 1163 0.93

15 31 5.6e-06 0.00031 21.1 0.5 3 23 1222 1242 1221 1242 0.98

16 31 2.2e-05 0.0012 19.3 1.4 1 23 1248 1270 1248 1270 0.99

17 31 0.00089 0.049 14.2 1.3 2 23 1310 1331 1309 1331 0.97

18 31 4.1 2.3e+02 2.7 0.9 1 17 1336 1352 1336 1354 0.87

19 31 0.63 35 5.2 0.2 1 23 1378 1401 1378 1401 0.93

20 31 0.00075 0.042 14.5 0.2 3 23 1410 1430 1408 1430 0.95

21 31 0.19 11 6.9 1.4 1 23 1436 1460 1436 1460 0.97

22 31 5.6 3.1e+02 2.3 0.2 2 17 1502 1517 1501 1518 0.91

23 31 0.027 1.5 9.6 0.2 2 23 1686 1708 1685 1708 0.95

24 31 0.0053 0.29 11.8 1.5 3 23 1757 1777 1756 1777 0.97

25 31 0.00056 0.031 14.9 2.5 1 23 1783 1805 1783 1805 0.98

26 31 0.016 0.89 10.3 1.2 2 23 1841 1862 1840 1862 0.95

27 31 0.88 49 4.8 0.1 3 23 1911 1932 1909 1932 0.94

28 31 0.00093 0.051 14.2 0.3 3 23 1941 1961 1939 1961 0.95

29 31 0.018 1 10.1 0.9 1 23 1967 1991 1967 1991 0.97

30 31 5.5e-05 0.003 18.0 0.7 2 23 2033 2054 2032 2054 0.96

31 31 0.0023 0.13 12.9 1.9 2 23 2063 2084 2062 2084 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	31	0.14	8	7.3	0.0	2	21	171	190	170	191	0.93
2	31	0.038	2.1	9.1	4.6	2	23	249	270	249	270	0.97
3	31	1.7e-05	0.00095	19.6	0.7	1	23	276	298	276	298	0.99
4	31	0.00019	0.01	16.4	0.3	2	23	334	355	333	355	0.96
5	31	0.88	49	4.8	0.1	3	23	409	430	407	430	0.94
6	31	0.00048	0.027	15.1	0.3	3	23	439	459	437	459	0.95
7	31	0.0034	0.19	12.4	0.3	1	23	465	489	465	489	0.97
8	31	0.31	17	6.2	0.1	2	17	531	546	530	547	0.91
9	31	0.00089	0.049	14.2	1.3	2	23	712	733	711	733	0.97
10	31	0.00041	0.023	15.3	0.3	3	23	817	837	815	837	0.95
11	31	0.018	1	10.1	0.9	1	23	843	867	843	867	0.97
12	31	9.3e-05	0.0052	17.3	0.7	2	23	909	930	908	930	0.97
13	31	0.037	2.1	9.1	0.7	2	23	941	964	940	965	0.94
14	31	0.064	3.5	8.4	0.0	2	21	1143	1162	1142	1163	0.93
15	31	5.6e-06	0.00031	21.1	0.5	3	23	1222	1242	1221	1242	0.98
16	31	2.2e-05	0.0012	19.3	1.4	1	23	1248	1270	1248	1270	0.99
17	31	0.00089	0.049	14.2	1.3	2	23	1310	1331	1309	1331	0.97
18	31	4.1	2.3e+02	2.7	0.9	1	17	1336	1352	1336	1354	0.87
19	31	0.63	35	5.2	0.2	1	23	1378	1401	1378	1401	0.93
20	31	0.00075	0.042	14.5	0.2	3	23	1410	1430	1408	1430	0.95
21	31	0.19	11	6.9	1.4	1	23	1436	1460	1436	1460	0.97
22	31	5.6	3.1e+02	2.3	0.2	2	17	1502	1517	1501	1518	0.91
23	31	0.027	1.5	9.6	0.2	2	23	1686	1708	1685	1708	0.95
24	31	0.0053	0.29	11.8	1.5	3	23	1757	1777	1756	1777	0.97
25	31	0.00056	0.031	14.9	2.5	1	23	1783	1805	1783	1805	0.98
26	31	0.016	0.89	10.3	1.2	2	23	1841	1862	1840	1862	0.95
27	31	0.88	49	4.8	0.1	3	23	1911	1932	1909	1932	0.94
28	31	0.00093	0.051	14.2	0.3	3	23	1941	1961	1939	1961	0.95
29	31	0.018	1	10.1	0.9	1	23	1967	1991	1967	1991	0.97
30	31	5.5e-05	0.003	18.0	0.7	2	23	2033	2054	2032	2054	0.96
31	31	0.0023	0.13	12.9	1.9	2	23	2063	2084	2062	2084	0.97

Sequence Information

Coding Sequence: ATGATTTTAGTTCAACTTGGAGATAGTTGGTATGGCCCACACGAACATGTCAGTCACAGTTTAGTGAAGAGCGAAGTAAATTCGGATGAAGCCAACGAATGTCGAATGGAGCCAATAGAATTTGCTTTTAGCAGTGAACCTTCTCATGATCCATCAAGTACGAAAAGTGACGATGATTCAATTTGTACCGAACCAACTGAATCAGATATTGATAAAGAAAATTCATCGGTGGACAcagaaatcaaattgaactcATTTAACGCATCAGAATACACTTTGGAGAATCAAACAGACTCAGTGGGAATACCAGACACAGTTGAACACAAGCCAATCGCTTTCATCGATGTTCCGGTCGATGGTGAAAAGTCTACTCATGATCTTGGCAGCAGTGAAGACGATGATAAGACTGAAAACATTGTGACAAAGGTCAAGACAAACCGAAAgcgcaaacaaaaatgttcaaaaccaaaaaagaaacagaaaactGTTGCAACGACCCAGGACTGTTGGAAGTGTGATGTTTGTAATGtggaatttccatttgaagccaatttgattgaacatAAAAACGTTTGCCGCCAAGAAGAGAATgctgtttcaaataaaatgccacaAGATGAGCAGGATTCGAATACAGAACCCAACGATGTGGATGACAACTTCGACGACACTTCAtcgattgattcaaatgaCCGTAATACAATGAGTTCTACTCCAAAAGGGGGAAAACTAACTATTGGCGGAGTATGTGGTGTATGCAACAAGAAGTTCATTTGCAAAACTCATCTCAAATATCACATGAATATCCATTTGGGTGTAAAACcgtttaaatgtgaaaaatgtgaaaaagctTACGCCGACAAACGTCAACTCGCCAATCACCGTAGAATACATGAGCAATTGAATGATTCGGATATGCAAAATATGGACAATTTGGAAATCGTTGATAGTTTGGATATCGAAAAGTTGAAATTAACTGAAGACCAACTGAACAGTTTGACATGTccattttgcaataaaaaatttgTAGGAAAATCTGGACTAAGGGGACATATGACAGTTCACAAACAAACCAGATACATGTGTAAACTGTGCCAAAGTTCATTTAATAGTATAGCCAAATATCGCTTTCACAATAAATCAGCCCATCAAACATCTGAGGAAGTGATTGTTCAAGACATTGAAGATAGTAATGATAAAGGGAGCGCAGCTATTTATTGGGCGTGTGAATATTGTAATACGGATTTTGAGCTAGAAGTGAGATTTGCAAGGCATCTGTTGAAAGAGCACAGTGAAGAGAAACTGGACCATTTGTGTTACATATGCAGTGAAAAGTTCAATCAACCAGTTGATTTGTTGGCGCATATGAGAGCCCATCCGGAAAGCAATCAGCACAAGTGCACAGTTGATGGTTGTGATTATGCATTTGCGTACAAAGCCGGTCTCTCCGTTCATTtgttaaaacataaaaatgtcaatggaaaaattattCGGAAGacacaaattgatttaagCGAGGCAACAAAACAACTGGCCATGATCAGCGAGAATGGTCCTAGTGAAACGGGTGAGCCTCATGGAAAATCATTGACTTGTAACATTTGTTCAATGGAATTTACAAGTAAAACAAGTTTGATTTTAGTTCAACTTGGAGATAATTGGTATGGCCCGCACGAACATGTCAGTCACAGTTTAGTGAAGAGCGAAGTAAATTCGGATGAAGCCAACGAATGTCGAATGGAGCCAATAGAATTTGCTTTTAGCAGTGAACCTTCTCATGATCCATCAAGTACGAAAAGTGACGATGATTCAATTTGTACCGAACCAACTGAATCAGATATTGATAAAGAAAATTCATCGGTGGACAcagaaatcaaattaaactcGTTTAACGCATCAGAATATACTTTGGAGTATCAAACAGGCTCAGTGAGAGCAGACACAGTTGAACACAAGCCAATCGCTTTCATAGATGTTCCGGTCGATGGTGAAAAGTCTACTCATGATCTTGGCAGCAGTGAAGACGATGATAAGACTGAAAACATTGTGACAAAGAATATGGACGACCTAGAAATCATTTACGGTATGGATATCGAAAAGTTGAAATTAACTGAAGACCAACTGAACAGTTTAACATGTCCactttgcaataaaaaatgtccagGAAAATCTAGACTAGAGACACATATGAACGTTCACAAACAAACCAGATACATGTGTAAACTGTGCCACAGTTTATTTAACACTATCGCCAATTATCGCTTTCACGATGAATCAGCCCATCAAAAAACTCGGGAAGTGATTGTTCGGGGCTTAAAAGATTGTACTGAGAAAGTCAGTGCGGCTACTTATTGGGCGTGTGAATATTGTAATACGGATTATGAGCTAGAATTGAGATTTGCAAGGCATCTGTTGAAAGAGCACAGTGAAGAGAAACCGGTGCATTTGTGTTACATATGCAGTGAACAGTTCAATCGACCAGCTGATTTATTGGCGCATATGAGAGCTCATCCGGAAAGCAATCAACACAAGTGCACAGTTGATGGTTGTGATTGTGCATTTGCGTACAAAGCCGGTCTCTCCGTTCATTTGGAAAagcataaaaatgtcaatggaGCAATTCTACGAAAGACACATATTGACCTAAGCGaagcaacaaaacaactgGCCATGATCACCCTGAATGGTCCTAGTGAAACGGGTCAACCtcatgaaaaatcattaaCTTGTAACATTTGTTCAAAAGAATTTCCAAGTAAAACAAGTTTTGTAACTCACATTAACACTCACCGAGTACTAGATACatcaaatgaacgaataaaatgcaCAGTGGCTGGATGTAATAAAGAATTTAAAGGAAAGCAAAGTGTATACAATCACATCTCAGTCCATCATCCGGAAGCGATTAAAGAATGTGATATTTTAGTTCAACTTGGAGATAATTGGTATGGCCCGCACGAGCATGTCGGTCAAAGTTTGATCAAGAGCGAAGCAAATTCGGATGAAGCCAACGAATGTCGAATGGAGCCAATAGCAATTGCTTTTAGCAGTGAACCTTCTCATGATCCATCAAGTACGAAAAGTGACGATGATTCAAGTTGTACCGAACCAACTGAATCAGATATTGATAAAGACAATTCATCGGTGGacacagaaataaaattgaactcGTTTAGCGAATCAGAATATACTTTGGAGTATCGAACAGACTCAGTAGGAATACCAGACACAGTTGAACACAAGCCAATCGCTTTCATCGATGTTCCGGTCGATGGTGAAAAGTCTACTCATGATCTTGGCAGCAGTGAAGTCGATGATAAGACTGAAAACATTGTGACAAAGGTCAAGACAAACCGAAAgcgcaaacaaaaatgttcaaaaccaaaaaagaaacagaaaactGTCGCAACGACCCAGGACTGTTggaaatgtgatatttgtagtgtggaattttcatttgaagccaatttaattgaacataaaaacGTTTGCCGCCAAGAAGAGAATgctgtttcaaatgaaatgccacAAGATGAGCAGGATTCGAATACAGAACCCAACGATGTGGATGACAACTTCGACGACACTTCAtcgattgattcaaatgaCCGTAATACAATGAGTTCTACTCCAAAAAGGGAAAAAGGAATTGTTGGCGGAGCATGTGATGTATGCAACAAGAAGTTCGTTCGCAAAAGTGCTCTCAAATATCACATGAATATCCATTTGGGTGTAAAACCGTTTAAATGCGAAGAGTGTGAAAAAGCTTATACATACAAACGTCAACTCGTCAATCACCGTAGAATACATGAGCAATTAAAAGATTCGAATCTGCAAAATATGGACAATTTGGAAATCGTAGACAGTATGGATATGGATATGGATATGGAAAAGTTTAAATTAACTGAGGAGCAACTGAAGAGTTTAACATGTCCactttgcaataaaaaatgtccagGAAAATCTAGACTAGAGACACATATGAACGTTCACAAACGAACCAGATACATATGTAAACTGTGTCACAGTTCATTCAACACTATCGCAAATTATCGCTTTCACGATGAATCAGCCCATCAAAAAACTCGGGAAGTCATTGTTCGAGCCATTGAAGACAATGAGGCTACTTATTTCGCGTGTGAATATTGTAATACGGATTTTGAGCTAGAAGTGAGATTTGCAAGGCATGTGTTAAAAGAGCACAGTGACGAGAAACCGGTGCATTTGTGTTACATATGCAGTGAACAGTTCGATCGGCCAGCTGATTTATTGGCGCATATGAGAGCTCATCCGGAAAGCAATCAACACAAGTGCACAGTTGATGGTTGTTATTGTGCATTTGCATACAAAGCCGGTCTCTCCGTTCATTTAGAAAAGCATAAAAAAGTCAATGGAACAATTACTCGAAAGACACAAATTGATCTAAGCGaagcaacaaaacaactgGCCATGATCACTCTGAATGGTCCTAGTGAAACGGGTGAAGACAATGAAAACTCATTAACTTGTAACAGTTGTTTAAAAGAATTTCCAAGTAAAACAAGTTTGATTTTAGTTCAACTTGGAGATAATTGGTATGGCCCACACGAACATGTCAGTCACAGTTTAGTGAAGAGCGAAGAAAATTCGGATGAAGCCAACCAATGTCGAATGGAGCCAATAGCAATTGCTTTTAGCAGTGAACTCTCTCATGAGCCATCAAGTACGAAAAGTGACGATGATTCAAGTTGTACCGAACCAACTGAAACAGGCATTGGTGAAATAGATTCGTCGGTGGACacagaaattaaattgaactcGTTCAGCGCATCAGAATACACTTTGGAGAATCAAACAGACTCAGTGGGAATACCAGACACAGTTGAACACAAGccaatcgatttcattgatgTTCCGGTCGATGGTGAAAAGTCTACTCATGATCTTGGCAGCAGTGAAGACGATGATAAGACTGAAAACATTGAGACAAAGGTCAAGACAAACCGAAAgcgcaaacaaaaatgttcaaaaccaaaaaagaaacagaaaactGTCGCAACGACCCAGGACTGTTGGAAGTGTGATGTTTGTAATGTGGAATTTCCGTTTGAAGccaatttgattgaacatAAAAACGTTTGCCACCAAGAAGAGAATGctgtttcgaatgaaatgcCACAAGATGACAACTTCGACGACACTTCAtcgattgattcaaatgaCCGCAATACTATGAATTCAAAAACGAGCTCTACTCCAAAAAGGGGAAGAAGAGGTGTTGGTGGAGCATGTGGTGTATGCAATAAGAAGTTCGTTTGCAAAAGTGCTCTCAAATATCACATGAATATCCATTTGGGtgtaaaaccatttaaatgtgaAGATTGTGGAAAGGCTTACATAGACAAACGTCAGCTCACCTGTCACCGTAAAATACATGAGCAATTAGATGATTCAGATTTGCAGAATATGGTCGATCTACAAATCATTCACGGTGTGGATACCGAAAAGTTGAAATTAACTGAAGAGCAACTGAAGAGTTTAACATGTCCactttgcaataaaaaatgtactGGGCAATTTGGATTAAGGGGACATATGACAGCTCACAAACAAACCAGATACATGTGTAAACTGTGCCAAAGTTCATTTAATAGTATAGCCAAATATCGCTTTCACAATGAATCAGCCCATCAAACATCTCAGAATGTCATTGTTCGAGCTCTAAAAGACGATGAGGCTATTTATTGGGCGTGTGAATATTGTAATACGGATTTTGAGCTAGAAGTGAGATTTGCAAGGCATCTGTTGAAAGAGCACAGTGAAAAGAAACTGGACCATTTGTGTTACATATGCAGTGAACAGTTCAATCGACCAGCTGATTTATTGGCGCACATGAAAGCTCATCCGGAAAGCAATCAGCACAAGTGCACAGTTGATGGTTGTGATTGTGCATTTGCATACAAAGCCGGTCTCTCCGTTCATTTGGAAAagcataaaaatgtcaatggaGCAATTCTACGAAAGACACATATTGACCTAAGCGAGGCAACAAAACAACTGGCCATGATTACCTTGAATGGTTCAAGTGAAACGGGTGAagacaatgaaaaatcattaatttgtAACGTTTGTTCAAAAGAATTTACAAGTAAAACAAGTTTGGTGACTCACATCAAGTCTCACCCCGTTCATCCGGAAGTGATGAAAGAATGTGATATGTGTGAAAAAACATTCTGCACAGAAGCAAAATTGGCTGAACATCGATTGAAACATGACACAACAAACAATGGATGTGCTAAGTTTAAGGTGCGAGGCACACGTGGCTTGTGA
Protein Sequence: MILVQLGDSWYGPHEHVSHSLVKSEVNSDEANECRMEPIEFAFSSEPSHDPSSTKSDDDSICTEPTESDIDKENSSVDTEIKLNSFNASEYTLENQTDSVGIPDTVEHKPIAFIDVPVDGEKSTHDLGSSEDDDKTENIVTKVKTNRKRKQKCSKPKKKQKTVATTQDCWKCDVCNVEFPFEANLIEHKNVCRQEENAVSNKMPQDEQDSNTEPNDVDDNFDDTSSIDSNDRNTMSSTPKGGKLTIGGVCGVCNKKFICKTHLKYHMNIHLGVKPFKCEKCEKAYADKRQLANHRRIHEQLNDSDMQNMDNLEIVDSLDIEKLKLTEDQLNSLTCPFCNKKFVGKSGLRGHMTVHKQTRYMCKLCQSSFNSIAKYRFHNKSAHQTSEEVIVQDIEDSNDKGSAAIYWACEYCNTDFELEVRFARHLLKEHSEEKLDHLCYICSEKFNQPVDLLAHMRAHPESNQHKCTVDGCDYAFAYKAGLSVHLLKHKNVNGKIIRKTQIDLSEATKQLAMISENGPSETGEPHGKSLTCNICSMEFTSKTSLILVQLGDNWYGPHEHVSHSLVKSEVNSDEANECRMEPIEFAFSSEPSHDPSSTKSDDDSICTEPTESDIDKENSSVDTEIKLNSFNASEYTLEYQTGSVRADTVEHKPIAFIDVPVDGEKSTHDLGSSEDDDKTENIVTKNMDDLEIIYGMDIEKLKLTEDQLNSLTCPLCNKKCPGKSRLETHMNVHKQTRYMCKLCHSLFNTIANYRFHDESAHQKTREVIVRGLKDCTEKVSAATYWACEYCNTDYELELRFARHLLKEHSEEKPVHLCYICSEQFNRPADLLAHMRAHPESNQHKCTVDGCDCAFAYKAGLSVHLEKHKNVNGAILRKTHIDLSEATKQLAMITLNGPSETGQPHEKSLTCNICSKEFPSKTSFVTHINTHRVLDTSNERIKCTVAGCNKEFKGKQSVYNHISVHHPEAIKECDILVQLGDNWYGPHEHVGQSLIKSEANSDEANECRMEPIAIAFSSEPSHDPSSTKSDDDSSCTEPTESDIDKDNSSVDTEIKLNSFSESEYTLEYRTDSVGIPDTVEHKPIAFIDVPVDGEKSTHDLGSSEVDDKTENIVTKVKTNRKRKQKCSKPKKKQKTVATTQDCWKCDICSVEFSFEANLIEHKNVCRQEENAVSNEMPQDEQDSNTEPNDVDDNFDDTSSIDSNDRNTMSSTPKREKGIVGGACDVCNKKFVRKSALKYHMNIHLGVKPFKCEECEKAYTYKRQLVNHRRIHEQLKDSNLQNMDNLEIVDSMDMDMDMEKFKLTEEQLKSLTCPLCNKKCPGKSRLETHMNVHKRTRYICKLCHSSFNTIANYRFHDESAHQKTREVIVRAIEDNEATYFACEYCNTDFELEVRFARHVLKEHSDEKPVHLCYICSEQFDRPADLLAHMRAHPESNQHKCTVDGCYCAFAYKAGLSVHLEKHKKVNGTITRKTQIDLSEATKQLAMITLNGPSETGEDNENSLTCNSCLKEFPSKTSLILVQLGDNWYGPHEHVSHSLVKSEENSDEANQCRMEPIAIAFSSELSHEPSSTKSDDDSSCTEPTETGIGEIDSSVDTEIKLNSFSASEYTLENQTDSVGIPDTVEHKPIDFIDVPVDGEKSTHDLGSSEDDDKTENIETKVKTNRKRKQKCSKPKKKQKTVATTQDCWKCDVCNVEFPFEANLIEHKNVCHQEENAVSNEMPQDDNFDDTSSIDSNDRNTMNSKTSSTPKRGRRGVGGACGVCNKKFVCKSALKYHMNIHLGVKPFKCEDCGKAYIDKRQLTCHRKIHEQLDDSDLQNMVDLQIIHGVDTEKLKLTEEQLKSLTCPLCNKKCTGQFGLRGHMTAHKQTRYMCKLCQSSFNSIAKYRFHNESAHQTSQNVIVRALKDDEAIYWACEYCNTDFELEVRFARHLLKEHSEKKLDHLCYICSEQFNRPADLLAHMKAHPESNQHKCTVDGCDCAFAYKAGLSVHLEKHKNVNGAILRKTHIDLSEATKQLAMITLNGSSETGEDNEKSLICNVCSKEFTSKTSLVTHIKSHPVHPEVMKECDMCEKTFCTEAKLAEHRLKHDTTNNGCAKFKVRGTRGL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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