Basic Information

Insect: Ceraclea dissimilis
Gene Symbol: Aper1
Assembly: GCA_963576895.1
Location: OY756378.1:12216980-12229363[-]

Transcription Factor Domain

TF Family: Runt
Domain: Runt domain
PFAM: PF00853
TF Group: Beta-Scaffold Factors
Description: The AML1 gene is rearranged by the t(8;21) translocation in acute myeloid leukemia [1]. The gene is highly similar to the Drosophila melanogaster segmentation gene runt and to the mouse transcription factor PEBP2 alpha subunit gene [1]. The region of shared similarity, known as the Runt domain, is responsible for DNA-binding and protein-protein interaction.In addition to the highly-conserved Runt domain, the AML-1 gene product carries a putative ATP-binding site (GRSGRGKS), and has a C-terminal region rich in proline and serine residues. The protein (known as acute myeloid leukemia 1 protein, oncogene AML-1, core-binding factor (CBF), alpha-B subunit, etc.) binds to the core site, 5'-pygpyggt-3', of a number of enhancers and promoters.
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 28 0.051 2e+02 1.9 0.0 12 48 56 92 48 96 0.86

2 28 0.27 1.1e+03 -0.4 0.0 16 50 163 197 154 200 0.87

3 28 0.14 5.5e+02 0.5 0.0 16 50 254 288 245 292 0.88

4 28 0.53 2.1e+03 -1.3 0.0 16 47 345 376 338 381 0.82

5 28 0.53 2.1e+03 -1.3 0.0 16 47 436 467 429 472 0.82

6 28 0.01 41 4.2 0.0 16 51 527 562 517 565 0.91

7 28 0.53 2.1e+03 -1.3 0.0 16 47 618 649 611 654 0.82

8 28 0.01 41 4.2 0.0 16 51 709 744 699 747 0.91

9 28 0.53 2.1e+03 -1.3 0.0 16 47 800 831 793 836 0.82

10 28 0.01 41 4.2 0.0 16 51 891 926 881 929 0.91

11 28 0.14 5.5e+02 0.5 0.0 16 50 982 1016 973 1020 0.88

12 28 0.53 2.1e+03 -1.3 0.0 16 47 1073 1104 1066 1109 0.82

13 28 0.53 2.1e+03 -1.3 0.0 16 47 1164 1195 1157 1200 0.82

14 28 0.01 41 4.2 0.0 16 51 1255 1290 1245 1293 0.91

15 28 0.53 2.1e+03 -1.3 0.0 16 47 1346 1377 1339 1382 0.82

16 28 0.01 41 4.2 0.0 16 51 1437 1472 1427 1475 0.91

17 28 0.53 2.1e+03 -1.3 0.0 16 47 1528 1559 1521 1564 0.82

18 28 0.53 2.1e+03 -1.3 0.0 16 47 1619 1650 1612 1655 0.82

19 28 0.53 2.1e+03 -1.3 0.0 16 47 1710 1741 1703 1746 0.82

20 28 0.14 5.5e+02 0.5 0.0 16 50 1801 1835 1792 1839 0.88

21 28 0.53 2.1e+03 -1.3 0.0 16 47 1892 1923 1885 1928 0.82

22 28 0.53 2.1e+03 -1.3 0.0 16 47 1983 2014 1976 2019 0.82

23 28 0.14 5.5e+02 0.5 0.0 16 50 2074 2108 2065 2112 0.88

24 28 0.53 2.1e+03 -1.3 0.0 16 47 2165 2196 2158 2201 0.82

25 28 0.14 5.5e+02 0.5 0.0 16 50 2256 2290 2247 2294 0.88

26 28 0.53 2.1e+03 -1.3 0.0 16 47 2347 2378 2340 2383 0.82

27 28 0.33 1.3e+03 -0.7 0.0 16 48 2438 2470 2430 2475 0.83

28 28 0.015 59 3.7 0.0 11 50 2648 2687 2642 2691 0.88

#	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	28	0.051	2e+02	1.9	12	48	56	92	48	96	0.86
2	28	0.27	1.1e+03	-0.4	16	50	163	197	154	200	0.87
3	28	0.14	5.5e+02	0.5	16	50	254	288	245	292	0.88
4	28	0.53	2.1e+03	-1.3	16	47	345	376	338	381	0.82
5	28	0.53	2.1e+03	-1.3	16	47	436	467	429	472	0.82
6	28	0.01	41	4.2	16	51	527	562	517	565	0.91
7	28	0.53	2.1e+03	-1.3	16	47	618	649	611	654	0.82
8	28	0.01	41	4.2	16	51	709	744	699	747	0.91
9	28	0.53	2.1e+03	-1.3	16	47	800	831	793	836	0.82
10	28	0.01	41	4.2	16	51	891	926	881	929	0.91
11	28	0.14	5.5e+02	0.5	16	50	982	1016	973	1020	0.88
12	28	0.53	2.1e+03	-1.3	16	47	1073	1104	1066	1109	0.82
13	28	0.53	2.1e+03	-1.3	16	47	1164	1195	1157	1200	0.82
14	28	0.01	41	4.2	16	51	1255	1290	1245	1293	0.91
15	28	0.53	2.1e+03	-1.3	16	47	1346	1377	1339	1382	0.82
16	28	0.01	41	4.2	16	51	1437	1472	1427	1475	0.91
17	28	0.53	2.1e+03	-1.3	16	47	1528	1559	1521	1564	0.82
18	28	0.53	2.1e+03	-1.3	16	47	1619	1650	1612	1655	0.82
19	28	0.53	2.1e+03	-1.3	16	47	1710	1741	1703	1746	0.82
20	28	0.14	5.5e+02	0.5	16	50	1801	1835	1792	1839	0.88
21	28	0.53	2.1e+03	-1.3	16	47	1892	1923	1885	1928	0.82
22	28	0.53	2.1e+03	-1.3	16	47	1983	2014	1976	2019	0.82
23	28	0.14	5.5e+02	0.5	16	50	2074	2108	2065	2112	0.88
24	28	0.53	2.1e+03	-1.3	16	47	2165	2196	2158	2201	0.82
25	28	0.14	5.5e+02	0.5	16	50	2256	2290	2247	2294	0.88
26	28	0.53	2.1e+03	-1.3	16	47	2347	2378	2340	2383	0.82
27	28	0.33	1.3e+03	-0.7	16	48	2438	2470	2430	2475	0.83
28	28	0.015	59	3.7	11	50	2648	2687	2642	2691	0.88

Sequence Information

Coding Sequence: atgatagaatccACAGTATTATGGTCTTTAGCCTTAGGAATAGTTTTCGCAGATTCTGGAAGGCCAAATGATGGGATATGTGACTGGCCAGAAAACGCAGACTGCGTTCATGAAGACATAATAATTCCAACTCCAGGCACATGCGATACCACAAGACCACCACCAATCTGTCCAGAACATGATCCAAATGGATTAGCAGTCCATTTACCACATCAATACGACTGCACGAAATTTTACAAATGTGACTGGGGTGTGCTTTACTTGTTTGACTGTCCAGGGAGCCTACATTTTAATCCAAAACTCGAAGTGTGTGATTGGCCGAATGTAGCAGGTTGCGAATGCGCAGGTGGGGGAGTCACAGAACCATCAGCAAACACGACAGCAGCTCCCCCAAACACAACAGTCCCTGATGAGATAACTGTCACCACAACAGAATCAAATCCTGATACCTGCGATAAGGCGGCGCCTCCACCAACGTGTCCTGAACACGACCCAACTGGATTGGCCGTCCATCTGCCTCACCAATACGACTGCACGAAATTTTACAAATGTGATTGGGGAGTAGCCCATGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTTCCGGAGGAGGAGAAACAGAAGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGATGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGGGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgATTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGATGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGGGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgATTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGATGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGGGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTTCCGGAGGAGGAGAAACAGAAGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGATGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGGGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgATTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGATGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGGGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgATTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGTTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGATTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgtgaTTGGGGAGTAGCTCATGTCTTCGATTGTCCAGCTGGTTTGCACTTCAATCCTAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGTTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACGGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGAGGAGGAGAAACAGATGCGCCCACGTCGCCACCTACAGATGCTCCAACAGATACCACACCAGGCACATGTGACCGATCATCACCACCACCAACTTGCCCCGAACACGATCCAAACAGATTGGCCGTCCATTTGCCTCACCAATATGACTGcacgaaattctacaagtgcgACTGGGGAGTGCCATACGTCTTCGATTGTCCAGCTGGTTTGCACTTCAACCCCAAATTGCAAGTTTGCGACTGGCCAAAGGATGCTGGTTGCGAGTGTGCCGGCGGAGGAGAAACCGATTCGCCCATGTTGCCACCTACAGATGCCCCAACTAACTCACCTCCGCCTGAGCCAACTACAGATTCTGGAACAACCTctGATACTCCTACAGTGCCTTCCAGCTGCCATCCATCAATTCCGCCACCAGTTTGTCCTGAAGAATGTACGGAAGCCGTTCACTTACCACATCAGTTTAACTGTTCTCTCTTCTACCAATGCGATCTTGGTAAACCAGTTTTGAAAGAATGTCCAAGTGGACTCCATTTCAATCCAGAGCTCGAAGTTTGCGATTTGCCATCGCACGCCGGATGTGAATGCGCTGAAATAGATATACCTTCGGTAACTACTGCAGAACCCGAATTACCCCCATCAACTGCGGAACCAGAATTACCTCCATCAACTGCAGAACCTGATTCACCACCGTCTACTCAATCACCATTAATCTGTGATCCATCGTCTCCAAAACCGATTTGCCCAGAACACGATCCTAATGGCTTAGCCGTCCACTTACCTCACGAATATGACTGCACAAAATTCTACAAATGTGATTGGGGTGTTTTGTATCTCTTCGATTGTCCCGCAGGACTGCATTTTAATCCTGTTTTGGAAGTCTGTGATTGGCCTGCTGCCGCTGGCTGTGCGTGCGCGACAACCAAAATTTGA
Protein Sequence: MIESTVLWSLALGIVFADSGRPNDGICDWPENADCVHEDIIIPTPGTCDTTRPPPICPEHDPNGLAVHLPHQYDCTKFYKCDWGVLYLFDCPGSLHFNPKLEVCDWPNVAGCECAGGGVTEPSANTTAAPPNTTVPDEITVTTTESNPDTCDKAAPPPTCPEHDPTGLAVHLPHQYDCTKFYKCDWGVAHVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECSGGGETEAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPDGLHFNPKLQVCDWPKDAGCECAGGGETDGPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPDGLHFNPKLQVCDWPKDAGCECAGGGETDGPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPDGLHFNPKLQVCDWPKDAGCECAGGGETDGPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECSGGGETEAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPDGLHFNPKLQVCDWPKDAGCECAGGGETDGPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPDGLHFNPKLQVCDWPKDAGCECAGGGETDGPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDVPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVAHVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDVPTDTTPGTCDRSSPPPTCPEHDPNGLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDAPTSPPTDAPTDTTPGTCDRSSPPPTCPEHDPNRLAVHLPHQYDCTKFYKCDWGVPYVFDCPAGLHFNPKLQVCDWPKDAGCECAGGGETDSPMLPPTDAPTNSPPPEPTTDSGTTSDTPTVPSSCHPSIPPPVCPEECTEAVHLPHQFNCSLFYQCDLGKPVLKECPSGLHFNPELEVCDLPSHAGCECAEIDIPSVTTAEPELPPSTAEPELPPSTAEPDSPPSTQSPLICDPSSPKPICPEHDPNGLAVHLPHEYDCTKFYKCDWGVLYLFDCPAGLHFNPVLEVCDWPAAAGCACATTKI

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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