Basic Information

Insect: Pammene aurita
Gene Symbol: -
Assembly: GCA_947086415.1
Location: OX352302.1:13051507-13094158[-]

Transcription Factor Domain

TF Family: MH1
Domain: MH1 domain
PFAM: PF03165
TF Group: Unclassified Structure
Description: The MH1 (MAD homology 1) domain is found at the amino terminus of MAD related proteins such as Smads. This domain is separated from the MH2 domain by a non-conserved linker region. The crystal structure of the MH1 domain shows that a highly conserved 11 residue beta hairpin is used to bind the DNA consensus sequence GNCN in the major groove, shown to be vital for the transcriptional activation of target genes. Not all examples of MH1 can bind to DNA however. Smad2 cannot bind DNA and has a large insertion within the hairpin that presumably abolishes DNA binding. A basic helix (H2) in MH1 with the nuclear localisation signal KKLKK has been shown to be essential for Smad3 nuclear import. Smads also use the MH1 domain to interact with transcription factors such as Jun, TFE3, Sp1, and Runx [2, 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 19 0.38 2.1e+03 0.4 0.1 50 100 849 897 836 899 0.81

2 19 0.067 3.7e+02 2.8 0.0 92 102 1265 1275 1244 1276 0.82

3 19 0.013 72 5.1 0.0 76 102 1341 1369 1331 1370 0.69

4 19 0.013 72 5.1 0.0 76 102 1435 1463 1425 1464 0.69

5 19 0.013 72 5.1 0.0 76 102 1529 1557 1519 1558 0.69

6 19 0.071 3.9e+02 2.7 0.1 92 102 1592 1602 1576 1603 0.81

7 19 0.013 72 5.1 0.0 76 102 1668 1696 1658 1697 0.69

8 19 0.013 72 5.1 0.0 76 102 1762 1790 1752 1791 0.69

9 19 0.013 72 5.1 0.0 76 102 1856 1884 1846 1885 0.69

10 19 0.071 3.9e+02 2.7 0.1 92 102 1919 1929 1903 1930 0.81

11 19 0.013 72 5.1 0.0 76 102 1995 2023 1985 2024 0.69

12 19 0.013 72 5.1 0.0 76 102 2089 2117 2079 2118 0.69

13 19 1.7 9.3e+03 -1.7 0.0 77 101 2179 2205 2169 2207 0.67

14 19 0.02 1.1e+02 4.5 0.0 78 102 2274 2300 2263 2301 0.65

15 19 0.013 72 5.1 0.0 76 102 2366 2394 2356 2395 0.69

16 19 4.7 2.6e+04 -3.1 0.1 78 101 2462 2487 2454 2488 0.63

17 19 0.013 72 5.1 0.0 76 102 2554 2582 2544 2583 0.69

18 19 0.013 72 5.1 0.0 76 102 2648 2676 2638 2677 0.69

19 19 0.013 72 5.1 0.0 76 102 2742 2770 2732 2771 0.69

#	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	19	0.38	2.1e+03	0.4	0.1	50	100	849	897	836	899	0.81
2	19	0.067	3.7e+02	2.8	0.0	92	102	1265	1275	1244	1276	0.82
3	19	0.013	72	5.1	0.0	76	102	1341	1369	1331	1370	0.69
4	19	0.013	72	5.1	0.0	76	102	1435	1463	1425	1464	0.69
5	19	0.013	72	5.1	0.0	76	102	1529	1557	1519	1558	0.69
6	19	0.071	3.9e+02	2.7	0.1	92	102	1592	1602	1576	1603	0.81
7	19	0.013	72	5.1	0.0	76	102	1668	1696	1658	1697	0.69
8	19	0.013	72	5.1	0.0	76	102	1762	1790	1752	1791	0.69
9	19	0.013	72	5.1	0.0	76	102	1856	1884	1846	1885	0.69
10	19	0.071	3.9e+02	2.7	0.1	92	102	1919	1929	1903	1930	0.81
11	19	0.013	72	5.1	0.0	76	102	1995	2023	1985	2024	0.69
12	19	0.013	72	5.1	0.0	76	102	2089	2117	2079	2118	0.69
13	19	1.7	9.3e+03	-1.7	0.0	77	101	2179	2205	2169	2207	0.67
14	19	0.02	1.1e+02	4.5	0.0	78	102	2274	2300	2263	2301	0.65
15	19	0.013	72	5.1	0.0	76	102	2366	2394	2356	2395	0.69
16	19	4.7	2.6e+04	-3.1	0.1	78	101	2462	2487	2454	2488	0.63
17	19	0.013	72	5.1	0.0	76	102	2554	2582	2544	2583	0.69
18	19	0.013	72	5.1	0.0	76	102	2648	2676	2638	2677	0.69
19	19	0.013	72	5.1	0.0	76	102	2742	2770	2732	2771	0.69

Sequence Information

Coding Sequence: ATGAAGCCGCGAGGGGCGAGCGTCATGCACGCCTTCACCGCGCTCACCATGCTCACCATGGCTAACGCTCAAACAACATGTAACCAAGGAATGGGGCGAGTGATGTACGAACGGCTTCCTAATCAACAGCTTCACGGATTCGACGATGATGTCGTACGAGAAACTGCCCCGCCTTTTCGAGTGCTGGAAAAGTGCCAGGACTTGTGTTTACGGGATCGCTCCGGAAACAGTTTAGTCAGGACGTGCAACTCTATCGATTTCCAACCTGGAGCGCGCATAGCGGCCTTCAGTCCTGAGCCGGAGTATGAAGAGTCGACGTGCTATTTGACGAGAGAGCAAGCTGCCCCTGAAGGCATTGGAACTCTCATGATCGTACCCAACAGCGTTCATTTCAACGAAATCTGCTTATCATCAAACCGCCCTGAACGAGAATGTCCTTCTCGCCGCTATGTCTTCGAAAGACACGCGAGAAAACGGTTGAAACTTCCATCATCAGACCTCAAAGAGATCATGGTCGCTAACCGAACCGAGTGCGAAGACAAATGCTTAGGGGAGTTCAGCTTTGTATGCCGCTCCGCTACGTACGACTCTGCTTTGAGGACCTGTTCCCTTAGTAGATTCACTAGGAGAACCCATCCTGAACTTTTGGAAGATGACCATAATGCCGATTACTTGGAGAATACTTGTCTTAACGCGGAAAGGAGATGCGATGGCCTCGCAGTATTCATTAAGGAAGAAAATAAGCGTCTTGGAGGTCCTTTTGAAGCTGACGTTTTCTCGAATATGACTTTGGACGAATGCCAGTCTATGTGCGTCCGTGCTGAAAAATATTTCTGTCGATCGATTGAACATGACGCAATGACACGCCAATGTGTACTTTCCGAAGAAGATTCCGTTTCTCAAAAGGATGACGTGACTGTCAGCGCATCGCTCACCCATCACTTTTATGACCTTGTTTGTCTTGACAATCTTTCTCATCGGGTGACAGCTCGCGGCACGGAGTACCCGGACAACAGCGTGACGTCACACCTGTTCTCCCCGGGCCGGCGGCCGGACACCGCCTTCCAGCGCTACCGGAACAGCCGGATCACCGGAGAGTTCCATTCCGAGATCACCGGACGGTCCCTTAGCGAGTGTCTCGACGAATGCCTTAGACAAACCAGCTTTCAATGCAGATCGGCGGTGTACAGTGATCGCGCCAGGACTTGCCGCCTCAGCCGCTACAATCAGAAGGATGGCATGAGATTACTTTACGATCCCGATTTTGATTACTACGAGAACCTGATGCACCAGCTAGTGAGTGGTGAGGCTGATGCTAGCGGCGGATCGCAGGCTCCATGGGGTCGACCTTCTACTACAGGAGGTAGCGGTGACCGCGACCGTGACCGCGACCGCGACCGATACCCCGACGACAGCTACTCGGACGACGACCGGTACGGCGGCAGACCCGACCGGTACCCGGACGATCGCTACCCCGCCGGGCCCGACTACCCAGACCGATACAACCCGGGCTACGACCGATACCCTGACGACAGATACCCCGATGACAGATACCCTCCTGGTGTAGGATTCAGTCCTGCTGATAGATATCCAATAGATAGATATCCTAGTTCAGATCGGTATCCACCCGCCATTGATCGTTATCCTCCAGGCGCTGATAGATATCGCCCTGGGTATTCAGGCGTTGATAGATATCCTCCACGCGATAGATACCCAACCAGCGAATCCCTACCCTACCCCGGACCAAACAGATATCCCTTCCTCGACTATCCAACTACTAACGACATAGGCCGTTATCCACCTCAAGAGCGCTACCCTGTCAGCAGATACCCCAATATTGATCTATACCCTGATAGATACCCCGTCGATCGGTATCCAGCTGACAGATACCCGATCCGCGGTAGATACCCGTCCAGACCCGGGAACCGTTATCCTGACAGATTCGATCAGGACCGATATCCCAGCACTAGCGACTGGGGACGGTACCCGTACGGCAGCCGGTACCCCGTGGGGGTGAACCGGGACCCGGTGCCGTTAGGCGGGGACCGTTACCCGGATCTGTATGACAAGTATCCGCCGACCGGATCGTCATATCCTGGAGGTTATGGCCGCGGCGGAGGTTATTATGGTGGTTCTGGTTATCCAGGTGGAGACCGGTACCCAGACAGAGGAGTTAGCCCAGGCGCTGATAGGTATCCTGTTGGTGTAGAGCCTAGACCAATCTATCCTGTAAGACGTCCTGTGGACAGACCTGGAGGTGGTTATCGTGACACCTATCCTCCTGGTGTTAACAGACCGATCGGTGGACCAAGTTATGGTTACGAGCCAGATGGCCCTATCGGCCCTATTGGAGCACCAATTGGACCGGTAGGCATTCCGATTGGTAACCCACTTGGCGGTGCTCCAGTAGGTGGACCTCCAGTGGGCCACAGGCCGTGGCAAGGCTCTCGTTGCGAAGAAGATAGTTTCAGACAAGTTGGTCGGCAACGCATGCAGAGGAGATTTGTGCGAAGATTCACGACTGCACATTCGTTGGCGCACTGCCAGAGGGAATGTATTGAGGCGAGGGATTTCACCTGTCGGGCATTTAACTACAGGGATGTGCCTTATGGGAGCGAACCGCGCGACAACTGCGAGCTCAGCGACCGAGACACGCGAGAGCTGGACGCTGCGAATCCCGCGCATTTTGATAATACCGCAGACTACGATTTTTACGAGAGGGCGCTTGGACGCATCGCCGATGACTGCTTGGACGTGTCCCAAGTGTGCAATGAAGACGGGATGGAGTTCACGCTCCGGCTTCCCGAAGGTTTCTTCGGAAGGATGTACACGTATGGCTTCTATGACCGCTGTTTCTTTAGAGGGAACGGCGGAGTGTCCAACGTCTTGCGGATTACAGGAGCCCATGGATACCCAGAATGTGGGACGCAGCGTTTAGGAGACACAATGACGAACATTGTGGTGGTACAATTCAGCGACAACGTCCAGACGTCGCGCGACAAGCGTTTCAACCTGACATGTCTGTTCCGGGGCCCCGCGGAGGCGGTGGTCACCTCCAACTACATCGGCGCAGGTTTTGGGTATGATCTCATCGACAGGTCAGGAAGCCCCATACCGATAGAATATCTGCCAGAGGAGAGCTCCCTCAACTCGAAGGTCCGGCTGATGATCCTGTACCAGGGCCGACCAACCACGACTATCGCTGTCGGAGACCCGCTAACTTTCAGGCTTGAGGCTCAGGATGGCTACAACTATGCGACGGACATTTTCGCAACGAATGTCATTGCGAGGGACCCGTATTCCGGAAGATCGGTGCAGCTGATTGACAGAGTGGGATGCCCGGTAGACCCTGACGTGTTCCCAGAACTGGATAAGGGTCGAAGTGGGGACTCGCTAGAAGCCCGCTTTAACGCTTTCAAGATCCCAGAATCCAACTTCTTGGTGTTCGAGGCGACGGTCAGGACGTGTCGCGAAGGCTGTCAGCCGGCGTATTGTCCGAGCCACACAGGCCGCTCCGAGCCATCCTTCGGCCGCCGTCGACGAGACGTCAACGGGACGCTCACGATCGCCAACGACACAGCCAAAGTCAACGACTCGAAGACCGACGATGCGGAGGAGAACGGAGATGCAGTGTACAAGGTGTCGTTTGAAGATGCGAAGGTGGACAACTATTTGAAGGAGGAGGTTGAGACGCCCAGCCATGTCAGGAAGATGATTGAAGTTTTCGACAATCGCAACGAGTTGTTGGAAGAGAATGGACCTGACTCATCGCCAGTGGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTGGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATTACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCGTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAAGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTGGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTGGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTGGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTGGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTGGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTAGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCCTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGTGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTCGTCGTGGCTGTAGGGGTTTGCGTGTCGCTGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCTTCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCATATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGACTGGACTCATCGCCAGTGGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGTCGTCGTGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGTGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGATAAACACCGAGCTGATAGAAGAGTGTAGATTGGACTCATCGCCAGTCGTCGCGGCTGTAGGGGTTTGCGTGTCGCCGCATCACTACCGCGCGCTCCTCGTCGCCCTCTGCGTGTTGTTGTCCTTATTGCTGGCGATGCTGCTCGCCGCCTTGTATATTTACAGACGCTACTGGCGCGTGGTCCGCAAGAATATCCAAGCATCGAGCGCAGCGCCTCCCCTGCGGCCCGTCACGCCGGGCCCGCGCCCCACTCGGCCCTCGCTGTTCTCCGCCTCGCACCTGCACAAACCTTTCTCACTGAGTGGTCTAGGCAGGACGTTCGCCGAAGTCGGCGAAGAGTCCGGCTCCGCGGGCCGCCTGGCCAACGCCTTTGACGACGGAAGCGAGCCCATCTACACCGATCCCTCTCTCTTCGAGCGCTCTCGGTCGCTCCGATCTCTCCACTCCCTGGATCTGAAGCCCGAGCGACGCAATCACTAA
Protein Sequence: MKPRGASVMHAFTALTMLTMANAQTTCNQGMGRVMYERLPNQQLHGFDDDVVRETAPPFRVLEKCQDLCLRDRSGNSLVRTCNSIDFQPGARIAAFSPEPEYEESTCYLTREQAAPEGIGTLMIVPNSVHFNEICLSSNRPERECPSRRYVFERHARKRLKLPSSDLKEIMVANRTECEDKCLGEFSFVCRSATYDSALRTCSLSRFTRRTHPELLEDDHNADYLENTCLNAERRCDGLAVFIKEENKRLGGPFEADVFSNMTLDECQSMCVRAEKYFCRSIEHDAMTRQCVLSEEDSVSQKDDVTVSASLTHHFYDLVCLDNLSHRVTARGTEYPDNSVTSHLFSPGRRPDTAFQRYRNSRITGEFHSEITGRSLSECLDECLRQTSFQCRSAVYSDRARTCRLSRYNQKDGMRLLYDPDFDYYENLMHQLVSGEADASGGSQAPWGRPSTTGGSGDRDRDRDRDRYPDDSYSDDDRYGGRPDRYPDDRYPAGPDYPDRYNPGYDRYPDDRYPDDRYPPGVGFSPADRYPIDRYPSSDRYPPAIDRYPPGADRYRPGYSGVDRYPPRDRYPTSESLPYPGPNRYPFLDYPTTNDIGRYPPQERYPVSRYPNIDLYPDRYPVDRYPADRYPIRGRYPSRPGNRYPDRFDQDRYPSTSDWGRYPYGSRYPVGVNRDPVPLGGDRYPDLYDKYPPTGSSYPGGYGRGGGYYGGSGYPGGDRYPDRGVSPGADRYPVGVEPRPIYPVRRPVDRPGGGYRDTYPPGVNRPIGGPSYGYEPDGPIGPIGAPIGPVGIPIGNPLGGAPVGGPPVGHRPWQGSRCEEDSFRQVGRQRMQRRFVRRFTTAHSLAHCQRECIEARDFTCRAFNYRDVPYGSEPRDNCELSDRDTRELDAANPAHFDNTADYDFYERALGRIADDCLDVSQVCNEDGMEFTLRLPEGFFGRMYTYGFYDRCFFRGNGGVSNVLRITGAHGYPECGTQRLGDTMTNIVVVQFSDNVQTSRDKRFNLTCLFRGPAEAVVTSNYIGAGFGYDLIDRSGSPIPIEYLPEESSLNSKVRLMILYQGRPTTTIAVGDPLTFRLEAQDGYNYATDIFATNVIARDPYSGRSVQLIDRVGCPVDPDVFPELDKGRSGDSLEARFNAFKIPESNFLVFEATVRTCREGCQPAYCPSHTGRSEPSFGRRRRDVNGTLTIANDTAKVNDSKTDDAEENGDAVYKVSFEDAKVDNYLKEEVETPSHVRKMIEVFDNRNELLEENGPDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSGRGCRGLRVAALLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCKGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSGRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSGRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSGRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVSVSPHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVPIAGDAARRLVYLQINTELIEECRLDSSPVVVAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVVAVGVCVSLHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSILLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYSRRGCRGLRVAASLPRAPRRPLRVVVLIAGDAARRLVYLQINTELIEECRLDSSPVVAAVGVCVSPHHYRALLVALCVLLSLLLAMLLAALYIYRRYWRVVRKNIQASSAAPPLRPVTPGPRPTRPSLFSASHLHKPFSLSGLGRTFAEVGEESGSAGRLANAFDDGSEPIYTDPSLFERSRSLRSLHSLDLKPERRNH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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