Basic Information

Insect: Habrosyne pyritoides
Gene Symbol: Znf131
Assembly: GCA_907165245.1
Location: OU015614.1:6737500-6750938[-]

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 34 0.032 2.4 9.2 0.5 2 21 161 180 160 181 0.92

2 34 0.069 5.1 8.2 0.4 1 23 214 237 214 237 0.93

3 34 0.0038 0.28 12.1 4.4 2 23 243 264 242 264 0.95

4 34 0.0049 0.36 11.8 3.3 2 21 268 287 267 288 0.94

5 34 0.00073 0.054 14.4 0.4 2 23 332 354 331 354 0.95

6 34 0.01 0.77 10.8 0.3 3 23 362 381 361 381 0.97

7 34 2.1 1.6e+02 3.5 1.1 1 23 387 409 387 409 0.86

8 34 0.0059 0.44 11.5 0.5 1 23 415 438 415 438 0.97

9 34 0.0065 0.48 11.4 0.6 1 23 447 470 447 470 0.95

10 34 0.0093 0.69 10.9 6.1 1 23 479 501 479 501 0.98

11 34 0.00011 0.0078 17.0 1.6 2 21 617 636 616 637 0.95

12 34 0.19 14 6.8 5.4 1 23 667 689 667 689 0.98

13 34 0.00027 0.02 15.8 1.5 1 23 694 716 694 716 0.97

14 34 0.026 1.9 9.5 3.4 2 21 720 739 719 740 0.91

15 34 2e-06 0.00015 22.4 0.2 1 23 752 775 752 775 0.97

16 34 2.4e-06 0.00017 22.2 3.3 1 23 781 803 781 803 0.98

17 34 0.029 2.1 9.4 0.7 5 23 813 831 812 831 0.97

18 34 0.00059 0.044 14.7 2.5 1 23 850 872 850 872 0.99

19 34 1.6e-06 0.00012 22.8 1.0 2 21 996 1015 995 1016 0.94

20 34 0.24 18 6.4 0.3 3 23 1021 1041 1020 1041 0.95

21 34 0.023 1.7 9.7 0.2 1 23 1046 1069 1046 1069 0.96

22 34 3.5e-05 0.0026 18.6 0.3 1 23 1074 1096 1074 1096 0.96

23 34 0.00072 0.053 14.4 0.6 1 23 1132 1155 1132 1155 0.93

24 34 0.00016 0.012 16.5 2.3 1 23 1161 1183 1161 1183 0.98

25 34 2 1.5e+02 3.6 1.3 1 23 1217 1240 1217 1240 0.93

26 34 5.2e-05 0.0039 18.0 0.8 2 21 1366 1385 1365 1386 0.93

27 34 0.00023 0.017 15.9 0.6 3 23 1421 1442 1419 1442 0.96

28 34 7.1e-05 0.0052 17.6 0.3 2 23 1448 1469 1447 1469 0.97

29 34 1.8 1.3e+02 3.7 0.9 3 20 1474 1491 1473 1493 0.91

30 34 7.1e-06 0.00052 20.7 1.0 1 23 1519 1542 1519 1542 0.95

31 34 0.00065 0.048 14.5 0.5 1 23 1548 1570 1548 1570 0.95

32 34 0.15 11 7.2 0.1 1 23 1576 1598 1576 1598 0.97

33 34 0.0031 0.23 12.4 1.4 1 23 1604 1627 1604 1628 0.94

34 34 0.00028 0.02 15.7 0.3 3 23 1634 1655 1632 1655 0.95

#	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	34	0.032	2.4	9.2	0.5	2	21	161	180	160	181	0.92
2	34	0.069	5.1	8.2	0.4	1	23	214	237	214	237	0.93
3	34	0.0038	0.28	12.1	4.4	2	23	243	264	242	264	0.95
4	34	0.0049	0.36	11.8	3.3	2	21	268	287	267	288	0.94
5	34	0.00073	0.054	14.4	0.4	2	23	332	354	331	354	0.95
6	34	0.01	0.77	10.8	0.3	3	23	362	381	361	381	0.97
7	34	2.1	1.6e+02	3.5	1.1	1	23	387	409	387	409	0.86
8	34	0.0059	0.44	11.5	0.5	1	23	415	438	415	438	0.97
9	34	0.0065	0.48	11.4	0.6	1	23	447	470	447	470	0.95
10	34	0.0093	0.69	10.9	6.1	1	23	479	501	479	501	0.98
11	34	0.00011	0.0078	17.0	1.6	2	21	617	636	616	637	0.95
12	34	0.19	14	6.8	5.4	1	23	667	689	667	689	0.98
13	34	0.00027	0.02	15.8	1.5	1	23	694	716	694	716	0.97
14	34	0.026	1.9	9.5	3.4	2	21	720	739	719	740	0.91
15	34	2e-06	0.00015	22.4	0.2	1	23	752	775	752	775	0.97
16	34	2.4e-06	0.00017	22.2	3.3	1	23	781	803	781	803	0.98
17	34	0.029	2.1	9.4	0.7	5	23	813	831	812	831	0.97
18	34	0.00059	0.044	14.7	2.5	1	23	850	872	850	872	0.99
19	34	1.6e-06	0.00012	22.8	1.0	2	21	996	1015	995	1016	0.94
20	34	0.24	18	6.4	0.3	3	23	1021	1041	1020	1041	0.95
21	34	0.023	1.7	9.7	0.2	1	23	1046	1069	1046	1069	0.96
22	34	3.5e-05	0.0026	18.6	0.3	1	23	1074	1096	1074	1096	0.96
23	34	0.00072	0.053	14.4	0.6	1	23	1132	1155	1132	1155	0.93
24	34	0.00016	0.012	16.5	2.3	1	23	1161	1183	1161	1183	0.98
25	34	2	1.5e+02	3.6	1.3	1	23	1217	1240	1217	1240	0.93
26	34	5.2e-05	0.0039	18.0	0.8	2	21	1366	1385	1365	1386	0.93
27	34	0.00023	0.017	15.9	0.6	3	23	1421	1442	1419	1442	0.96
28	34	7.1e-05	0.0052	17.6	0.3	2	23	1448	1469	1447	1469	0.97
29	34	1.8	1.3e+02	3.7	0.9	3	20	1474	1491	1473	1493	0.91
30	34	7.1e-06	0.00052	20.7	1.0	1	23	1519	1542	1519	1542	0.95
31	34	0.00065	0.048	14.5	0.5	1	23	1548	1570	1548	1570	0.95
32	34	0.15	11	7.2	0.1	1	23	1576	1598	1576	1598	0.97
33	34	0.0031	0.23	12.4	1.4	1	23	1604	1627	1604	1628	0.94
34	34	0.00028	0.02	15.7	0.3	3	23	1634	1655	1632	1655	0.95

Sequence Information

Coding Sequence: ATGAATACGACCCGGCAAGTGGATGTGAAGGCTTTGGTTTCGCACATATTGCGAGGAGACGGCATTGATAAATGCCGAATATGCATGGGTGACACGACGGAAGGTCAAGTGTACCTTGGAGACACTGTAATGCTGGATGGGGAGAGGCCTGTTACCCTGGCTGAACTTCTGGAGACCATAACTGGCGTGGAGGTGCAGATGGACGATGACCTGCCAGGAGGGCTATGTTCGACCTGCTCCTCCTCAGCGATAGAGGCTGGCCACTTCAGAGAACTTTGCCGTACGGTATCAGTAAAATGGAATACAACCTTGGAACTCCTTAACACCATACCATTAAAAAGACCAGTCAAATCCCTAAAAATGTTTGCAATCTTAGTAGAGAATGATATTTGTATATTAGATGAACCATTCGAAGAATTAACATCTAAAATCAATGTCAAAGATAATACAAAACCTGATTATGCTAAAACCCAACATTGTGTATGTCCAAACTGCGGTAAACAATTCCAGTATGGCCAATCTTTGGCACAACATTTGAAAGAATCAACAGATTTCATACGAGCGTGCTATGTCTGTGCAGAGATAATGAGTAGAGATGATTTGGTCAAACATTTGAAAAAAGTCCACAACCGGCAGCCATTTGATTGCAAGAAATGTCCAGCATTATTTCAGTCACAGGAACAATATAAAGTCCACTTGGGCAAGGCTCACGCACCTGGAGCATGCACATGTGGTGACTGTGGACGTTCCTTCAGGTCAATGCATGCATACCATGCCCATTTATCAATACATGCACCCAAGACATGCCCTGGTTGCGATAAAATGTTCCGCAACCAAAGATGCTATCTACACCATGTCAAACAATGCTGTAATCTTGACAAGAATCGCCAAGACAAGTTCCATACTAAAACTAAAGTAACGGTCATGGTTAAAAATGAAAAGAACAACAGAAACATCAAGGTTGGACTTCGAGGTAGTGCTGAAAAGGAATGCATATGTGATTACTGCAACAAGACATTCGCTGGGAAGAAATCTGTCGCAGCTCACATCCAAATAGTTCACATGAAGAACACACATAGACCATGTGCTTACTGCGGAAAATCTTATGCTGCTGCACACATGACTGTGCACATGAAGAAGCATGAGTCAAATGAGACTTTTACTTGTGAATACTGTGGGTTAATTCTCAAGTCCAGGTTAGGTCACAGCCAGCACTTGCGGCTCCACACAGGCGAGAAGCCATACGCGTGCAAGTTCTGCGGGGAGACGTTCTCAGCATCATCACGGCGCTCTGAACACATACGGAAGGCACATAAGAGTTCGGAAATTGTACTGAAGCATGCGTGTGAATTATGTCCGGCTAGGTTCAGATTACCGTATCGTTTGAAGAACCATATGTCTTCAGTACATGGGGATGGTGAGGTATCCTTCCAATTTGAGTGTAAGGAATGTCAAGAGAAGTTTAGTAGTTGCCGTGGACTGTTACACCATAGCAGGAAACATCAGCAGACTATCGAGACAACGCCCACGCTGCCCAGCAGACTATGCATCTACTGCGTATCAAAATTATTAGATTTCATACCATTTATGCAATTGTGCGCAGAGTCAAATAGAAAGTGGAGTCGAGTGGTAGAACTGTTGAATTTACCTCAAACAGTTAATAAAAGTGTCCACGTTGTGTTATCTAATGATTGCGAGAAAAAGGAGCTGCTCGCGTGTCCGAAAATTACAAACAGAACCATCAAAGAAGCATTGAGGGTGTTGAAACTACGTCTGATCAGGAAAAAGCTTTACAAGCGGAGGGCCGATCATGAGAGACGAATGAAAATGGTCCATGACTCGAGGCTGAAGTGTCCGGAATGCGATAAACGCTTCCATACCGCGTTCCGATTAAATAAACACATGAGAAACATAAAGAAGAAGATGTGTTCGCGCTGCTTTATGGTATTAGATATAGAGGAGTTTAAAACACATTCGCAGATGCATAATGTGCGTGTTTATACTTGCGATATTTGTTTCGCGTGCTTCGAAAAGAAGAGATATTTCTTGACGCACAAATTGAAGCATTCGAGAGGGAAACACGTTTGTGTTGAATGCAAACTATCGTTCTCGAAATGGAGTAAGCTAATCTCGCATCTATCCAGACACAAAAGGTGTATTTGCTCCACTTGTGGCAAGAAATTCTCAAATAAGGTATGTTACCTCAACCATGCGAAAGTTTGTGCTGAATCCACAGATCTAGACCTAGCGAAATTTATCTGTGATTATTGCGGCAAAGAGTACGCACGGAAAGCAACATTGAAAATTCACATAAAGACAATTCACGTGGAAGGGGCGAAATATCAATGTGACAAGTGTGGCAAAACATTTACAAATAGATCACATTTTGTGGAGCATGGCAACACTCACGAAAAGGTCGCTGATAGATACGTATGCGAGTGTGGAGTGAACTACAGTAGTCGGAGAGGCTACGAGAGGCATATGAAAAGGCATTTGATGGAACATACTGATAAACCGCAAGTTTTAAAGACGAAAAGTTATATCGAATATCGTTGTGTTGTTTGCGAGGAGACTTTTACCAAACTAAAAGATTTTAAATATCATACCAGGACTCACTGGAGCTATGATTCGAGTTTCGTTGACGAACCTGATATGGAAATTGAGGTTGTCGAGGAGACGGCTTTGCCTCGAGGGCTGTGCAGAGTATGCTCTGAAGACATCATCACCGCATTCCACATCAAGGAACTGTGGAAATTCTCCGCCCAACAGTGGACCGCGGCGACCACGTATTTCTCCCAAATCTACGACCCTACAGATGAAGACAAAAGTTACTTTGTCTTCTATAATGGCGGAGAGAACACCATTGTTAAGGATCAAGTTGAGCGGATTCCAAACATACGAGAAGCACTCGAACGATTGAACGGAAAGTTCGAGTTTGACAACCCCAAACCGGCGAGAATAAGACGGTCCAAAGATCTTTGTTGCCAGTGTCCGGATTGTGGCAAGGCGTTTACTAATCCATTTTATTTAAATAAACACTTGAGGAATTCTAAAAGAGCATGCAACGATTGTGGGCTCGTATTATTAAAGAAGAATTTGAGCAAACATTTGTCCAAAGCCCACAATATTATCGTTTACGCCTGCAATCGTTGCAACGAGCTGTTCGACGACGAGGAATCGTTGATGCAACATTGGCTCAAATCCCACGGCGCTAAAAAGTTCTCCTGCGAAGATTGCGGACGGAGTTTCACAAATGAACGGGGATTGAGCGCCCATTGGTACTCGCACAGCCTTTTCCATTGCAAATCTTGCAATCAAAGTTTCGAAAATCGCAAATGCTGTAAGTACCATGAAAAAAATTGCATCTCGGAACACCAAACAACCTCTTCATCGTTCGAATGCGATTATTGTGGTGTTAAATACAAAAAAAAACCCTCTCTGAAGATTCATATAGTCCAAAAACATTTGAATATCCTCCCGTTCGTTTGCGAGACGTGTGGGAAGCGTACATCAACTAAAGCTCACATGAGATCACACGAAATGACACACAAGAAAGAGAGGAAGATATACGAGTGTTACTGCGGAGCGAAATTACGATCAGAGCTAGGATACGTATTGCACCATAGAATACACAGCGGGGAGAAGCCCTTCACGTGTGAAGAGTGCGGAGATAAATTTCTGTCCTCTTCCCGTCGGTTAGATCATATGAAGAGAAAGCATAGGGGCTCTAATGGGCTCCCGTATGCCTGTGAGAAATGTGCATCGCGATTTGTAAAGGATGAAGTCCTATGCCCCCCAGGAGTTTGCGTTGGTTGCGCCAGCACTGCTCTCGCTGCCCAAGAGTTCAGTATCTTTGTGAGAAACACCCAAAAAATGTGGCACAAAGCAGTCGCCAATTTATCAGTTATGTCCACCACACCAGCTCCTAACGTCAAATCTTTATACGCCTTCGTCAGAAAAAGTGATCTTACAATACAAACGGTTAAGGACTTTGCAGGCGGTGATGTGAAAACCGTTTTAAACCGACTCAAAAACCGATTATGTAAAAAACCCATGGATAAGAAACCAAGAAACGCGCGCACTGGACCCACTTGCTCATGCCCTGATTGTGGCAAAACTTTCATGAGTCCATATTACTTGAATATGCATTTAAAAAACAGTGGACAGAAGGACGCTTGCTTATTGTGCGGCGCTGTAGTCTTTAGAGGTCGCGAAATGCGTGACCACCTTTCAGCAGTACACAAAGAGAAAATGATTATCTGTAAATATTGTCCTATGCTATTTAGCACTCAATCAAAACTATCAAAACACGTAAAAAAGGCGCACAGCATGGGGATATTGACCTGTAGTGATTGCGGGAGGACCTTTCCAAGAAACGCCTCGTTTGATTTACATTTGCAAATGCATGCTGTTCGAATATGTCGAGCATGTGGACTGCAGTTCACCAATCGGGCTTGTTACAGAGAACATCGCTCTCAGTGCGAACCCGATGCGAAACCTGACGTGCAATCCGTGCCGCGAAACAGACGGTCAAACATTCGCGACCCGGCACAGTTTACTTGCGATCATTGCGGCAAAACTTACAATTCTCGGCCGCAATTAAAAAATCACATAATATGGATACACATGGACATTAGACCACATCAATGCCAATGGTGTGGAAAACGCTTCTATACGCCAGCCAGGTTGGCTGAACACACCGTTGTCCATACACGGGTCAGAAACTTCGAGTGTGACATTTGTGGCGCGAAATTAGTTTCCAAAATGGCCGCGGTTTATCATAGGAGGCGTCATACGGGGGAAAAGCCGTACAAGTGTGACGATTGTGGGGAGTCCTTCATATCGGCTTCAAGGAGGTCGGAACATGCAAAAAGGCGGCATCATGTGTTAAGGATTAATTGCACTCAATGTCCAGGAACTTTTGTGAGACGTTACGATTTAAAAAAACATATTGAGAGAGTACATAAGACAGATGAGGTTGCGAAAAGGAAAGACTATGTCGTGCTGTGCAAGACTGAGAATTGA
Protein Sequence: MNTTRQVDVKALVSHILRGDGIDKCRICMGDTTEGQVYLGDTVMLDGERPVTLAELLETITGVEVQMDDDLPGGLCSTCSSSAIEAGHFRELCRTVSVKWNTTLELLNTIPLKRPVKSLKMFAILVENDICILDEPFEELTSKINVKDNTKPDYAKTQHCVCPNCGKQFQYGQSLAQHLKESTDFIRACYVCAEIMSRDDLVKHLKKVHNRQPFDCKKCPALFQSQEQYKVHLGKAHAPGACTCGDCGRSFRSMHAYHAHLSIHAPKTCPGCDKMFRNQRCYLHHVKQCCNLDKNRQDKFHTKTKVTVMVKNEKNNRNIKVGLRGSAEKECICDYCNKTFAGKKSVAAHIQIVHMKNTHRPCAYCGKSYAAAHMTVHMKKHESNETFTCEYCGLILKSRLGHSQHLRLHTGEKPYACKFCGETFSASSRRSEHIRKAHKSSEIVLKHACELCPARFRLPYRLKNHMSSVHGDGEVSFQFECKECQEKFSSCRGLLHHSRKHQQTIETTPTLPSRLCIYCVSKLLDFIPFMQLCAESNRKWSRVVELLNLPQTVNKSVHVVLSNDCEKKELLACPKITNRTIKEALRVLKLRLIRKKLYKRRADHERRMKMVHDSRLKCPECDKRFHTAFRLNKHMRNIKKKMCSRCFMVLDIEEFKTHSQMHNVRVYTCDICFACFEKKRYFLTHKLKHSRGKHVCVECKLSFSKWSKLISHLSRHKRCICSTCGKKFSNKVCYLNHAKVCAESTDLDLAKFICDYCGKEYARKATLKIHIKTIHVEGAKYQCDKCGKTFTNRSHFVEHGNTHEKVADRYVCECGVNYSSRRGYERHMKRHLMEHTDKPQVLKTKSYIEYRCVVCEETFTKLKDFKYHTRTHWSYDSSFVDEPDMEIEVVEETALPRGLCRVCSEDIITAFHIKELWKFSAQQWTAATTYFSQIYDPTDEDKSYFVFYNGGENTIVKDQVERIPNIREALERLNGKFEFDNPKPARIRRSKDLCCQCPDCGKAFTNPFYLNKHLRNSKRACNDCGLVLLKKNLSKHLSKAHNIIVYACNRCNELFDDEESLMQHWLKSHGAKKFSCEDCGRSFTNERGLSAHWYSHSLFHCKSCNQSFENRKCCKYHEKNCISEHQTTSSSFECDYCGVKYKKKPSLKIHIVQKHLNILPFVCETCGKRTSTKAHMRSHEMTHKKERKIYECYCGAKLRSELGYVLHHRIHSGEKPFTCEECGDKFLSSSRRLDHMKRKHRGSNGLPYACEKCASRFVKDEVLCPPGVCVGCASTALAAQEFSIFVRNTQKMWHKAVANLSVMSTTPAPNVKSLYAFVRKSDLTIQTVKDFAGGDVKTVLNRLKNRLCKKPMDKKPRNARTGPTCSCPDCGKTFMSPYYLNMHLKNSGQKDACLLCGAVVFRGREMRDHLSAVHKEKMIICKYCPMLFSTQSKLSKHVKKAHSMGILTCSDCGRTFPRNASFDLHLQMHAVRICRACGLQFTNRACYREHRSQCEPDAKPDVQSVPRNRRSNIRDPAQFTCDHCGKTYNSRPQLKNHIIWIHMDIRPHQCQWCGKRFYTPARLAEHTVVHTRVRNFECDICGAKLVSKMAAVYHRRRHTGEKPYKCDDCGESFISASRRSEHAKRRHHVLRINCTQCPGTFVRRYDLKKHIERVHKTDEVAKRKDYVVLCKTEN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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