Basic Information

Insect: Xiphydria camelus
Gene Symbol: -
Assembly: GCA_963678675.1
Location: OY783200.1:22194374-22198723[-]

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 33 0.002 0.16 13.0 1.0 2 23 120 141 119 141 0.96

2 33 0.0011 0.088 13.8 0.6 2 23 148 169 147 169 0.96

3 33 2.1 1.7e+02 3.5 0.3 1 21 174 194 174 196 0.86

4 33 0.0028 0.23 12.5 0.5 1 23 199 221 199 221 0.95

5 33 0.0058 0.47 11.5 7.4 1 23 283 305 283 305 0.99

6 33 6.6e-06 0.00053 20.8 1.7 1 23 353 375 353 375 0.98

7 33 0.015 1.2 10.2 5.7 1 23 382 404 382 404 0.97

8 33 0.002 0.16 13.0 0.3 2 23 411 432 410 432 0.94

9 33 0.079 6.4 7.9 0.0 1 23 438 460 438 460 0.96

10 33 0.07 5.6 8.1 0.8 2 23 532 553 531 553 0.96

11 33 0.01 0.85 10.7 0.5 1 23 590 612 590 612 0.96

12 33 6.9e-05 0.0056 17.6 1.1 1 23 618 640 618 640 0.98

13 33 0.054 4.3 8.5 0.4 5 23 648 666 647 666 0.95

14 33 2.1e-05 0.0017 19.2 0.3 2 23 713 734 712 734 0.97

15 33 0.0024 0.19 12.7 0.4 1 23 777 799 777 799 0.95

16 33 0.0057 0.46 11.5 3.4 1 23 805 827 805 827 0.97

17 33 0.004 0.32 12.0 2.0 1 20 831 850 831 853 0.92

18 33 4.1e-05 0.0033 18.3 1.9 1 23 857 879 857 879 0.98

19 33 0.0063 0.51 11.4 0.9 1 23 886 909 886 909 0.98

20 33 0.023 1.8 9.6 2.5 1 23 915 937 915 937 0.96

21 33 0.037 3 9.0 0.2 1 23 943 965 943 965 0.95

22 33 0.01 0.81 10.7 0.1 1 23 974 996 974 996 0.97

23 33 0.0038 0.31 12.1 3.2 1 23 1002 1024 1002 1024 0.97

24 33 0.89 72 4.6 0.1 1 19 1033 1051 1033 1053 0.92

25 33 0.0032 0.26 12.3 1.5 2 23 1086 1107 1086 1107 0.97

26 33 0.0053 0.43 11.6 2.7 1 23 1113 1135 1113 1135 0.95

27 33 0.0074 0.6 11.2 5.5 1 23 1171 1193 1171 1193 0.98

28 33 2e-06 0.00016 22.4 0.1 1 23 1199 1221 1199 1221 0.98

29 33 0.0091 0.74 10.9 1.4 1 23 1227 1250 1227 1250 0.97

30 33 0.00026 0.021 15.7 0.1 1 23 1286 1308 1286 1308 0.97

31 33 5.3 4.3e+02 2.2 0.1 2 19 1315 1332 1314 1334 0.87

32 33 0.0029 0.24 12.4 0.0 2 23 1353 1374 1352 1374 0.94

33 33 0.00053 0.043 14.8 1.9 1 23 1383 1405 1383 1405 0.94

#	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	33	0.002	0.16	13.0	1.0	2	23	120	141	119	141	0.96
2	33	0.0011	0.088	13.8	0.6	2	23	148	169	147	169	0.96
3	33	2.1	1.7e+02	3.5	0.3	1	21	174	194	174	196	0.86
4	33	0.0028	0.23	12.5	0.5	1	23	199	221	199	221	0.95
5	33	0.0058	0.47	11.5	7.4	1	23	283	305	283	305	0.99
6	33	6.6e-06	0.00053	20.8	1.7	1	23	353	375	353	375	0.98
7	33	0.015	1.2	10.2	5.7	1	23	382	404	382	404	0.97
8	33	0.002	0.16	13.0	0.3	2	23	411	432	410	432	0.94
9	33	0.079	6.4	7.9	0.0	1	23	438	460	438	460	0.96
10	33	0.07	5.6	8.1	0.8	2	23	532	553	531	553	0.96
11	33	0.01	0.85	10.7	0.5	1	23	590	612	590	612	0.96
12	33	6.9e-05	0.0056	17.6	1.1	1	23	618	640	618	640	0.98
13	33	0.054	4.3	8.5	0.4	5	23	648	666	647	666	0.95
14	33	2.1e-05	0.0017	19.2	0.3	2	23	713	734	712	734	0.97
15	33	0.0024	0.19	12.7	0.4	1	23	777	799	777	799	0.95
16	33	0.0057	0.46	11.5	3.4	1	23	805	827	805	827	0.97
17	33	0.004	0.32	12.0	2.0	1	20	831	850	831	853	0.92
18	33	4.1e-05	0.0033	18.3	1.9	1	23	857	879	857	879	0.98
19	33	0.0063	0.51	11.4	0.9	1	23	886	909	886	909	0.98
20	33	0.023	1.8	9.6	2.5	1	23	915	937	915	937	0.96
21	33	0.037	3	9.0	0.2	1	23	943	965	943	965	0.95
22	33	0.01	0.81	10.7	0.1	1	23	974	996	974	996	0.97
23	33	0.0038	0.31	12.1	3.2	1	23	1002	1024	1002	1024	0.97
24	33	0.89	72	4.6	0.1	1	19	1033	1051	1033	1053	0.92
25	33	0.0032	0.26	12.3	1.5	2	23	1086	1107	1086	1107	0.97
26	33	0.0053	0.43	11.6	2.7	1	23	1113	1135	1113	1135	0.95
27	33	0.0074	0.6	11.2	5.5	1	23	1171	1193	1171	1193	0.98
28	33	2e-06	0.00016	22.4	0.1	1	23	1199	1221	1199	1221	0.98
29	33	0.0091	0.74	10.9	1.4	1	23	1227	1250	1227	1250	0.97
30	33	0.00026	0.021	15.7	0.1	1	23	1286	1308	1286	1308	0.97
31	33	5.3	4.3e+02	2.2	0.1	2	19	1315	1332	1314	1334	0.87
32	33	0.0029	0.24	12.4	0.0	2	23	1353	1374	1352	1374	0.94
33	33	0.00053	0.043	14.8	1.9	1	23	1383	1405	1383	1405	0.94

Sequence Information

Coding Sequence: ATGGGCGAGACGCCGCTGACCCGCGAATCCGACGGTTTTACCACCGATTTTACAGCTAATGAGGAAATCGACATCAAAGATGAACAGCTTTGCATCGGCGCGTTCGTCTCCACCGTAAATCTCGCCAATTCCAGCGACACGGAGGACGAGACCTCCGACGCTCGTCATCTCGATCCTCCCGTCGATCCGCTCTCCGTAGACGGCATTGCTCCGCTGGAGGAACCGTCCGATCGGTGGTGCTCCTTCGTTGAGCTCTCGCCTCACACTTTAGGGAATTCCGTTCCGATCGTTCCAGTTTCCCTCGAGGATGCTTCGCCGGACCAAAAGGCGAAGGACAGTCACACTTGGAATTTCCTGCAGTGCAACATCTGTGAGAAAACCTTCCAACAGAAACTGCGCTTCGTCAACCACATGTCGATACACGCCACCGAGTATCCGCTGTCCTGCCGCGTCTGCCGCAAGAGGTTCAAAGCGAAGGAGAGCCTGGAAGCGCACACGAACGTCCACCTGGTGGAGAGATTCTACTGCATGGTCTGCAATATCCGCTTTGAGAACGAGGCGATCTTCGAGAGGCACAAGGTCGATCACAAGCCCTTCGTCTGCACGGCGTGCCAAGAGACATTCACCGACCAGCGCGACCTCCTGGATCACCACGCCGCTCACGCGGCCCCCGTGCTGCTCGAGTGCGGCTCCTGCGACAGGCTTTTCTTTCCCAAGGAACGGCAGAGGAGCGACTCGTTGTCGGAGCAGCTCATCCGCTGCGACGAGTGCTGCGACCAAACGAGGAGCGAGGAGGCGTTCAAATCGAGCGTCGCGACGTATGCCGGTACGCCGCGCTCGACGAAGTACCGCTGCTACCATTGCCACGAGCAGTTTCGGTACAAATACGCGTACAACAGTCATTTGCTGACGCACAGGACGCCCGGATCGCCCGGGAAGGGCGGCTCGGGAATTCGTGCGATCGGTTCGAGGAACGAGGCCGCGGAGCTCTTCTCCTGCGCGACGTACCCCGACGATCACAGTCTGGTCGAGCATCGGGCGAGCGCCACGGAGAGTTTCATCTGCGACTTCTGCGGGAAGCGCTTCAAGCGGAAGGAGCACATCGCGTGGCACATGATAACACACATGTTCGGAGACCGACCGTTTTGCTGCGACGTATGCCACACGCGCTACAAGAAGAGGGACGCCTTTGAGAAGCATCTGTTGTCCCACTCGCAAGAGCGGTTTATCGAGTGTAACGTTTGCCTGGAAAAATTCAGAGTCCAGGATGATTACAGGAGGCACATGTTCGGGCACGCGAACCTGATGCCGTTCGCGTGCGACGTTTGCCTGCAGCGGTTCTCCGAAGAGGACGGTCTGCTGCAGCACGCGCTCGTTCACGCGGGGGAGCGGGAAAACGATGGCGACGGTCGTTCGAGAGCTCGCGGGGAGGAGGAGTCGATCCGCGTTGACGATTCGAACGACGAAGCGTCGTCCCTCGAGAACCGCACGGCTACTCGCGAAACGCAAGAATCCTTTTCCCACGCGACACACTCGAACGGTCACACGGAAATTCACGCGGAAGCCGAACCGCTTCCTCCCGGCGACAAGCTCCGCTGCAAGTTCTGCGGAATCCACTTCAACGAGGTTCTCTCCTTCGAGAATCACATCCTCATTCACTGCACCCTCAAGCCCTTCCACTGCAAGGACGATTTCGTGAAGCACTTGGTCACCCACGAAGGCGGCGAGGTGAGCGAGGCAAACGTTCGCGCACGAGCGAAGACGTCGTTCACCTGCGACGTGTGCTCGATAAGGTTCCCGCGAAAGTTGGAGATGCTGCGGCACAAACTGCTGCACAGCGAGAAGAAGCGCTTCGAGTGCGGCGTTTGCCGGAAGGGCTTCTACACGAAGCGCAATCTGCTGAAGCACGAGCTCACGCACAAACGGGAGAACGAAGACAGCATTTGTCGCGAGGAGTACGAAGGTAAGAACAATTTTCGAAAGCATTTACGCACGCACGAGGCGGAGAAGACCGGGAACGACTCACTTCCGGAGAACGATGACGAGGAGGAATCGCTTCCGAGGGACGACGGCGAGCACGACGATTCATTGGGAGACGAGGATACCGAAGAGAGAGGGTCGGTCGACGAGACGTTGCAGTGCGACGTTTGCTCGGAGAGattttctcaggagagcgatctTCAGCGCCACGCGTCGACGCACACCGCGAAGAAATCACCGCGGAAGAAGCGTCGCGCGAAGCGCGCTCTTCGGAAACGCGACGTCCCTCGGAAACGCGACGCTCCTCGTCGCAAGAAAGCAAAAGGCGCATCCCCTCCGAAGAAGGTGTTCGTCTGCGACTTCTGCCAGAAGCAGTACGCCGTGAAAGCCAGCCTCGAGCGCCACGTACTCTTCCACGTCGGCGAGAAGGAGTTCTGCTGCCGCACCTGTCCCAAGCAATTTTACTCCGAATTCTCGCTGAACGCCCACGAGCAAACCCACGTCAAGCCGTTCAAGTGCGACGTCTGCAAGAGGTGCTTTCCCACGAAGGAGCGCCTGGCGCTGCACCTGCCGCGTCACACGAAACGGTACCGTTGCAAGCTCTGCCAGCGGGCGTACTACCAGAGGACGAATCTCCTCCGGCACTTGCGCGCCCACGAGCAGGAGGGCAAGCCGTTCCAGTGCGACGTCTGCCTGAAGCAGTTTCCCATACGCCGCAACATGGTGCGGCACAAGCGCCGCATCCACCGCGGCAAGGAGCCGCACCATTGCGACGTCTGTCTCAAGCGATTCTTCCTCAGAGACGATCTGCTCGAGCACATGCTCATCCACAGCGAGAACAAACGGTTCGAGTGCGCGATCTGCCGCAAGGGATTCTACGCGAAGCGCAGCCTACTGGAGCACGAGCTCCTCCACCAGACGGAGAGCCGCGACAAGCCCTTCCGCTGCGAGGTGTGCCTCGAGCAGTTTCCCGAGCAGGAGAGCCTGCTGCGCCACGCGGAGCGTCACGCCTTCCCGAAGCTGTTTCACTGCGACTTCTGCCAGAAGGAGTACTCGCTCGAGACGAACTACCAGAAGCACATGCTCGTCCACGAGGCGGAGAAGAACGTCGGGCCCTTTCGCTGCGACGTCTGCGCCAAGCGGTTTCTGCTGGAGAGCGACCTGCTGCGCCACGCGCCGCTCCACGTGAAGCGGAAACCGCCGCGAAAGAaggagcagcagcagcagcagcagcagcagcaggagAAGCGCGACCCGCCGGAAGGCGAGGGCGAGAAGTGCCACGTTTGCGCGAAGCTGTTCCCCACGACTATCAGCCTGCGGCGCCACATGTTGCTGCACCCCGAGACGAAGCCCTTCCAGTGCAGCGTCTGCCAGAAGGGCTACTATCAAAAGTGCTCGCTGCTGAAGCACGAGCTCGCGCACAAGCGCCACGTCGACAGGCCCTTCCAGTGCGACGTGTGCTTCGCGAACTTCATGTACGAGAAGAAACGCGACAGTCACATGATACGCAACTCGTGCCGCAAGCCGTTCCGCTGCGACTCGTGCCAGAGGGAGTTCTTCAAGAAGCACACGCTCAAGTCGCACCTGCTCACGCACTCCACGGAGCGGCCGTACTCGTGCGATATTTGCCGGAAGGCGTTCAGTCGAAAGGGGAATCTGGATGTGCACATGGCCGTTCACGGTGAGAAGAAGACTTTCAAGTGCCGGCTCTGCACGAATTCTTACAGCTACGACATCACGCTGAAGAAGCACATGCGCGCGGTTCACGGCGTGAGGTTCGGGAAGGAGCTTCGGGCTAACGGAGTCGGCGAGGAGACGTTTACGCGAGAGGAGCCGACGACGGGGAGCGAGCCGGGTTGTCCGGAGATCGCGTACGATTGCGATATCTGTCGGGAAACCTTCCGCGTGAAGGCGAGCCTGGAGGAGCACGTGGCGACGCACTTCGCGCGGGAGACGCTCCGCTGCGACGTCTGTTCGGCGACGTTCGAGCTGCGCGAGGATTACGACAGCCACGTGTCGGGTGGCTCTTGTCGCAAGCTCGCGAGCGACGAGGAACACGGGGATGGAGGGATTCGGTGCGACGTCTGTCGCAAGCCCTTCGCCGGCGAGGACGATCTGAGGAGGCACGCGGTCATTCACGAGCGGCAGAAGAAGACGGGACGGTTTCGCTGCGAGGTTTGCGACAGGAGGTTCAATCTCGAGTATCACTTGACGAGGCACTCGGTCGTTCACCGGAGAAAGAAGAAAACGTAG
Protein Sequence: MGETPLTRESDGFTTDFTANEEIDIKDEQLCIGAFVSTVNLANSSDTEDETSDARHLDPPVDPLSVDGIAPLEEPSDRWCSFVELSPHTLGNSVPIVPVSLEDASPDQKAKDSHTWNFLQCNICEKTFQQKLRFVNHMSIHATEYPLSCRVCRKRFKAKESLEAHTNVHLVERFYCMVCNIRFENEAIFERHKVDHKPFVCTACQETFTDQRDLLDHHAAHAAPVLLECGSCDRLFFPKERQRSDSLSEQLIRCDECCDQTRSEEAFKSSVATYAGTPRSTKYRCYHCHEQFRYKYAYNSHLLTHRTPGSPGKGGSGIRAIGSRNEAAELFSCATYPDDHSLVEHRASATESFICDFCGKRFKRKEHIAWHMITHMFGDRPFCCDVCHTRYKKRDAFEKHLLSHSQERFIECNVCLEKFRVQDDYRRHMFGHANLMPFACDVCLQRFSEEDGLLQHALVHAGERENDGDGRSRARGEEESIRVDDSNDEASSLENRTATRETQESFSHATHSNGHTEIHAEAEPLPPGDKLRCKFCGIHFNEVLSFENHILIHCTLKPFHCKDDFVKHLVTHEGGEVSEANVRARAKTSFTCDVCSIRFPRKLEMLRHKLLHSEKKRFECGVCRKGFYTKRNLLKHELTHKRENEDSICREEYEGKNNFRKHLRTHEAEKTGNDSLPENDDEEESLPRDDGEHDDSLGDEDTEERGSVDETLQCDVCSERFSQESDLQRHASTHTAKKSPRKKRRAKRALRKRDVPRKRDAPRRKKAKGASPPKKVFVCDFCQKQYAVKASLERHVLFHVGEKEFCCRTCPKQFYSEFSLNAHEQTHVKPFKCDVCKRCFPTKERLALHLPRHTKRYRCKLCQRAYYQRTNLLRHLRAHEQEGKPFQCDVCLKQFPIRRNMVRHKRRIHRGKEPHHCDVCLKRFFLRDDLLEHMLIHSENKRFECAICRKGFYAKRSLLEHELLHQTESRDKPFRCEVCLEQFPEQESLLRHAERHAFPKLFHCDFCQKEYSLETNYQKHMLVHEAEKNVGPFRCDVCAKRFLLESDLLRHAPLHVKRKPPRKKEQQQQQQQQQEKRDPPEGEGEKCHVCAKLFPTTISLRRHMLLHPETKPFQCSVCQKGYYQKCSLLKHELAHKRHVDRPFQCDVCFANFMYEKKRDSHMIRNSCRKPFRCDSCQREFFKKHTLKSHLLTHSTERPYSCDICRKAFSRKGNLDVHMAVHGEKKTFKCRLCTNSYSYDITLKKHMRAVHGVRFGKELRANGVGEETFTREEPTTGSEPGCPEIAYDCDICRETFRVKASLEEHVATHFARETLRCDVCSATFELREDYDSHVSGGSCRKLASDEEHGDGGIRCDVCRKPFAGEDDLRRHAVIHERQKKTGRFRCEVCDRRFNLEYHLTRHSVVHRRKKKT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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