Basic Information

Insect: Ceratina calcarata
Gene Symbol: Claspin
Assembly: GCA_026724355.1
Location: JAKKRE010000012.1:8327089-8339462[+]

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 30 6.4e-06 0.00078 20.3 0.7 1 23 1598 1620 1598 1620 0.98

2 30 0.016 1.9 9.7 3.7 1 23 1643 1666 1643 1666 0.96

3 30 0.00023 0.029 15.4 0.5 2 23 1673 1695 1672 1695 0.96

4 30 0.014 1.7 9.8 0.7 2 21 1711 1730 1710 1731 0.91

5 30 0.029 3.6 8.8 0.0 2 23 1826 1847 1825 1847 0.94

6 30 0.015 1.8 9.8 0.6 2 23 1854 1876 1853 1876 0.91

7 30 0.00037 0.045 14.8 0.1 1 23 1940 1963 1940 1963 0.96

8 30 0.19 24 6.2 0.4 1 23 1969 1992 1969 1992 0.92

9 30 0.21 26 6.1 1.5 1 23 2005 2027 2005 2027 0.97

10 30 2.7e-05 0.0033 18.3 2.5 3 23 2071 2092 2070 2092 0.97

11 30 0.0089 1.1 10.4 1.4 2 23 2150 2173 2149 2173 0.95

12 30 5.4 6.6e+02 1.7 0.0 2 23 2182 2204 2182 2204 0.83

13 30 0.12 14 6.9 0.1 2 23 2211 2233 2210 2233 0.95

14 30 2.3e-05 0.0028 18.6 1.2 1 23 2241 2263 2241 2263 0.98

15 30 0.4 49 5.2 1.1 2 23 2291 2314 2290 2314 0.93

16 30 0.00089 0.11 13.6 1.5 1 23 2317 2340 2317 2340 0.97

17 30 0.0034 0.42 11.7 0.4 2 23 2347 2369 2346 2369 0.96

18 30 0.0016 0.19 12.8 3.9 1 21 2390 2410 2390 2411 0.95

19 30 0.0047 0.57 11.3 1.8 2 23 2425 2446 2424 2447 0.93

20 30 0.55 67 4.8 1.4 1 23 2450 2473 2450 2473 0.96

21 30 0.038 4.7 8.4 1.2 2 23 2480 2503 2479 2503 0.92

22 30 1.2 1.4e+02 3.8 0.1 2 23 2511 2533 2511 2533 0.94

23 30 9.1 1.1e+03 1.0 0.0 2 23 2540 2562 2539 2562 0.89

24 30 0.39 48 5.3 2.7 2 23 2571 2593 2571 2593 0.96

25 30 0.081 9.9 7.4 0.2 2 23 2599 2621 2598 2621 0.93

26 30 0.26 31 5.8 0.0 1 23 2682 2705 2682 2705 0.96

27 30 0.5 61 4.9 1.2 1 21 2730 2750 2730 2751 0.93

28 30 0.86 1e+02 4.2 1.3 2 23 2846 2868 2845 2868 0.93

29 30 0.58 70 4.7 0.3 2 23 2875 2897 2874 2897 0.94

30 30 2.1 2.5e+02 3.0 1.9 1 23 2908 2930 2908 2930 0.92

#	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	30	6.4e-06	0.00078	20.3	0.7	1	23	1598	1620	1598	1620	0.98
2	30	0.016	1.9	9.7	3.7	1	23	1643	1666	1643	1666	0.96
3	30	0.00023	0.029	15.4	0.5	2	23	1673	1695	1672	1695	0.96
4	30	0.014	1.7	9.8	0.7	2	21	1711	1730	1710	1731	0.91
5	30	0.029	3.6	8.8	0.0	2	23	1826	1847	1825	1847	0.94
6	30	0.015	1.8	9.8	0.6	2	23	1854	1876	1853	1876	0.91
7	30	0.00037	0.045	14.8	0.1	1	23	1940	1963	1940	1963	0.96
8	30	0.19	24	6.2	0.4	1	23	1969	1992	1969	1992	0.92
9	30	0.21	26	6.1	1.5	1	23	2005	2027	2005	2027	0.97
10	30	2.7e-05	0.0033	18.3	2.5	3	23	2071	2092	2070	2092	0.97
11	30	0.0089	1.1	10.4	1.4	2	23	2150	2173	2149	2173	0.95
12	30	5.4	6.6e+02	1.7	0.0	2	23	2182	2204	2182	2204	0.83
13	30	0.12	14	6.9	0.1	2	23	2211	2233	2210	2233	0.95
14	30	2.3e-05	0.0028	18.6	1.2	1	23	2241	2263	2241	2263	0.98
15	30	0.4	49	5.2	1.1	2	23	2291	2314	2290	2314	0.93
16	30	0.00089	0.11	13.6	1.5	1	23	2317	2340	2317	2340	0.97
17	30	0.0034	0.42	11.7	0.4	2	23	2347	2369	2346	2369	0.96
18	30	0.0016	0.19	12.8	3.9	1	21	2390	2410	2390	2411	0.95
19	30	0.0047	0.57	11.3	1.8	2	23	2425	2446	2424	2447	0.93
20	30	0.55	67	4.8	1.4	1	23	2450	2473	2450	2473	0.96
21	30	0.038	4.7	8.4	1.2	2	23	2480	2503	2479	2503	0.92
22	30	1.2	1.4e+02	3.8	0.1	2	23	2511	2533	2511	2533	0.94
23	30	9.1	1.1e+03	1.0	0.0	2	23	2540	2562	2539	2562	0.89
24	30	0.39	48	5.3	2.7	2	23	2571	2593	2571	2593	0.96
25	30	0.081	9.9	7.4	0.2	2	23	2599	2621	2598	2621	0.93
26	30	0.26	31	5.8	0.0	1	23	2682	2705	2682	2705	0.96
27	30	0.5	61	4.9	1.2	1	21	2730	2750	2730	2751	0.93
28	30	0.86	1e+02	4.2	1.3	2	23	2846	2868	2845	2868	0.93
29	30	0.58	70	4.7	0.3	2	23	2875	2897	2874	2897	0.94
30	30	2.1	2.5e+02	3.0	1.9	1	23	2908	2930	2908	2930	0.92

Sequence Information

Coding Sequence: ATGGACAGTGCCGAAAATGAATCAAACGTACAATGCGAGCTTAGACAATCAGGATTTCACACTACGACTGACAAAACTTTAGAAACTGAGGATGAGGCACTTGTTCTGAAAAGTAGTGGGTCGAATACTGAAGTTAATAATTTTGGCACTGATAACAGTGAAGGAGTGGTATGTAACAAAATAAGAGAAAAAGAGCTTGAGCAGGTAGACAAAAGACAGAACAATGATTTAGACAGTGAAACAGACACTGATATATCTAATAAGGATAAACATGAACAATCTTCCGATCGCGAGAATAAAAGACTTGAAAACATTAATGTTAGCAATAAGAAACTTAGGATTGTGGACAGCGACTCAGAAGATGAAGAAATATTTTCTAGATCAAGAAGTAAATCTAGAAAGCAGTCAAAGAATACAAGAATTATTAACAAATTCTTTGACAGTGATTCCAATGACAGTATTGGCAGTGACACTGAAGGAACAGCTTCGAACAAAGTTGTTTCACAGATGAAAAGTAGATTTCAATCTTTAATAGATTCAGAATCAGAAGAGGATGATCAAGAAGGAAGACAGGATGAAGAGCCTTTGAGTCCTGATATGTATAATAAGAAAACGAAGAAGCATAAAAGTGAAAGTTCAAAACCTGAAAAGAAAAAACTTTCAGTAAGAGCTTCTAAAGAGGAAGCCATGAAACAAATAAAAAGTGAGACTCAACGTCTGATAAGAGAGTCAAGGATTTCGCTTCCATATCACAGGCCAAAACAAAGGACATTGCAAGAATTTTTAAGCAGGAAAAAGGTAATGTCAGTTCTTCCAAAAGCACCTACAATGGCAGCCAAATTGAAGATGTCCTCTGCCATTGTCGATGAAATGTTAAAAGAAAAAGAGAAAGAAGCAGAAGTGTTTTACAAGTCCTCCGATTCAGAGGAAGAAGAAGGCTGTGTTCTAAAAAAAAATGAAGAGGAGATGAATGCAACATGCATACAGGAGGCGAAAAAGGATAACGTTTCCCGAAAATTGTTTACGGAAGATGATTCAACAGGAACTGAAAGTAATGATGAGAGGGATAATACAAATGTGATGGATGTTACTTTAACCGAACCTGTAGAAATAAATAGAGAAAATATAAATGAGGAACAAGTAAGTAGAGAACGCGTGCCGAAGTTTCTTGAGGATGATACTTCGTCTAAATTAATTAGTAAGGATAATTTAATTATATTTGAAAGTGCTAAAGAAGCGGATAGTGAAAGTGCAATGGATATAACTTTAACTGAAATAGCTGAAATTGAAGATAATAAAAAAATAGTAAACGACGAAGTAGATACAAGTGACTTCGCAACAATAGAAAGTCATTCCAAGCTCGAGATAATTCCGAAAACAGTTGATTTGTTACAAAAACATGCCTCTGATAATGAAACAGCAGACGTAATTGAAACCGATAAACAGAGTTCAGAAAATTTGAACAAAGAATCGACAGCCTCGACTTCGAAAGTGAGCGAGGATTATGCAAACATGATCAAATTATCATTGGGAGTAGACACAGATGAATCCGACGATTATAAGGAATATGGATTGCCACCACCGAAGTTCGATGACTCGCCGAATATTAATCAGAATAAGACCTTGTGGAACATGAAACCTAAATTAAGAGGCAATCCAGGCACACTGATAGACTTAACGAGCGATGTCAGGCCGTCTAAGAAAGGGATAGACGATTTGATAGACCGATTTGTACATAAACATTCAAAAGCCAATGAGCGCGTTAAGGAGACTAACGTTACGACTGTACAAGTGAAAGAATCTCCTAACGGCATGTCAATAGTTAAAGAAACGCTTCCGTATCGATTGCCAAACACAGTAGAAGAAGATCCGAAGTTGAACAAGCCGGGAGCGAAGTTAGTGAAATTGAAAGAAGAATTGAAGCATAAAATGGCATTAAAGCGTGACGAAGAATGGAAGCTGAGAGAACAAGAAATGAAGGAGCAAGAAATAGAGTGGAACGAAAGCATAAACGAAGAAGATAGTTTCACTGAAGTTTATTCACCGAGTACAGAATCTCACAAAAGCGACGAAGATGAACCGATAGAGGATGACGTGCATATGAAGAAAGaaaagaagaaaaggagcgcgtttatagactatgaagctgaagtcagtgaggatgacatcgaaaacgataccgatgacatcgaggacgaagatgaagacgatgcacaagaggaaaagctcggcttggaagacgaagatgaagatgaggacagtgatactaatgaGCAGAATAAAACGTTTAAACGTATCATAGTACCCTTAGAAGAGGATTCAAGATCTTCGATGATTGACAGTGATAAAAATGATCGTGAAGATAATCTTCCTCGAACCACGTCGCTGAACATGTTTCGTAGAAACAGCAACGAAAGCGAAAGTAATATTTCAATTTCTCAAGTTCCGAAAACAATTCAGACGCCACAAACTAAATCCAATAGCTTCAGTCTTGTCTCTCCCGCGACACAATTGACAGCGTTAAACGCGTATGTAGAAGATGGAGAGACTCCTAAAAAGGGGAAACAGATCAGCCACGGATTCGATTCCATTGCAAGGCTGATTAATACTCAAGAAGATGTCCTAGATGAAGATCTCATAGGTTTATGTTCCGGCAAATTTCCTGAGAGTAAATTCGGTCTGAACTTTACGAAAGAAACCAACGTTAGCGACTCCCAATTATTGGACATATGTTCAGGAAAGTTTACTACGCAGCCAAACAACGATATGAATTTAGTTGACAGTTTAAACGAGGCACCTCAGAATATGCAAATCTCAGAGGAAAAGTCTGGTAAGAAACGAGAAGAACAGTTAAAGGAGAAGACGCCTTGTCATAAGTTCCGAGTTTTATCTTCCGACGAAGAAGATGCAGCGGAAGAAATTAAACGATCAAAGAAGAAGAAAAAGGTGATACAATTAAATGTGTCTGAAGATGAGGAAGAAAATGGCTCCGCAGCGAGTAGCGAGGATGAAGAGGTCGAAGAAGAAATCGATGATGAGAGATTTATAGATTACGATTCGGATGAGAATGAAATAATTGTACCAAAGAAGAATATTAAAGAGTATGCAGCTAAATTTTTAGAGGAGGAGGCTGAGCTCAGTGAAAGCGACGGAGGTGAAGTTTCTGCGGACGAAGATGAACAGGAGTTAGATAAATTTGAAGTGGAAGATGGAGACGATGAAGACATCGATGAGGCACAAGTGAAAGATCAAGTAGGGAAGCTTCATATGAGGCAGCTGCTGGACGAGGACCAAAGAGAAGTGAAAATGCTCCAGGATTTATTATTCGAAGACGGAGATTTGTACAGTGAAACTGGGAGGGAAAGAAAATTCAGATGGAGAAATATAGATAAACAGGATGATAACAATGATCTTCAACCATTGGAGGAGAAAGATGGCTTGCTGGATCTATCAGACAATGAGGAGGAAGTGAATTGGCGTAAAATGAGATACGAAAGGGAAAAGTTTTTAGCAGAAAAGAAGGCAAGTTCAGGTACTGAGATCGAAGACACTTTAAACAGTCAAATATTTAAAGTTGGCATGAAGATTGTAAAGAAAAGGCGTATTGACGAGAACCGAAAAGAAGAAACTTTGGTAGAAACAATCGATTCTAAAGTGGAGTCAAGAATGCCTCGTACTATAGCAGAAATGATAAATGCTACAAAATTTGGTGATAAAACACACGTGATACATACTGCTATGAAGAAGCATTCGTTTCTTGCAAGAGGAGAAAAATCGTTAGAGCGTTTGGCCTCTTTAGCCAAACAAAGGTCTGCACCGCTACCTTCCTTAAAAAGGAAGAATTTTGTTTTTGCACATGTTGATTTGAACACAGAGAATGCTGATAACTCTATGGAGGGTACGGATGAAATGGAGGAGGTCGTGCACGATCGGAGCGACGAAACAAGTGCCTGTGTACAAGATGGCGCCGTGCGGTGTCGCAGCAAGCCGTGGATCCCCGCTCCGGAGGATGTGATCCGAGGGAGAACGAGAAGAAGGCCGAGTCCGGGCCAAACGAGCCTTTTTCAGTTTCACTGCCACGAGGGACACCGGATTATCCAACATCCTCGGGCCAGTATCGCCACCGTCTTCGTGGCCACGCCGACGATGGAGTCCAGGGAACGCTACCAGGAGCTCTGCAGACTTTGTGCATCCTACGACGCCGTCAAGATGGACATCTTCGGTCAGGAGGGCAAGAACAGACAGCTCGTTGACAAAATACAAGCCTGTCTGCCGTTTAAGATTGCTGAAGATGATCGACTACCAAAATGCCTCTGTTATCGTTGCATGTACAATTTGGAAAATTTCTACGATTTTCGAACAGCATGCGTCAATGCAGTGGCCCTCCTGGAGAGGTGTCTACCACCCTCAGAATTGAATGGAAATGTTACAACCACCTTGGCATGTAACGATTCAGAGCTCTTTGAAAGAAGGGAGAGTATACCACTGTTGATACCAGAAGCTCCCATTGTGAATCCCAATGCTGCCTTAGGCACGCCACCCAGATTGAATTCTGATGGGGAAGCGGACCACGATGTTGAAGACATGGTTGACAACAGTGGAACAGACGAAGGAACGATGATGGATGACAACGACGATCATCGTTCGGAAGAATATGAGTTGGATATGGAAACGAATCCCAGCGATTTCTTGGAAATGACCTCGATAGTTGCGGAAGAGCCTGAAGAGTCAGAATTGAGGCAGCAGAAGTTTGTCAACTTAGCCGAGCAGTCTCAACAACAACACGAGGTTTACGTTTGTTCCTTATGCGATAAAGCATTTAGCTCGAAGGGCCATTTATCCTTGCACGCACGTATTCACGTGGGTGCCGGCGATGTGATCGGTGAAAAAGTCCTCACAGACGATCATACGTCGTATAAAAGGCCGTATCAGTGCGATCTCTGTCACAAATCTTATTCCACCGCGAAGCATCGTTGGGGACACGTTTCCACGACTCACAGAGGACATCCGGCAGTGACCTGCGGTTATTGTTCGCGGATCTATTCGACCCGAACGAATTTAGAAGAACATATAAAATCGCGTCACGCAGGCCTTCCAGCACCTACGGAAATTCAACCGGACAATAGATGCCAGTGCAACGTATGCGGGAAGATTTGTACAGATATCGTAGAACTAAATAATCACGGTAAAATTTGTGGAGGACAGAGATTTGATACGCCAACGAAAAACGAAACAATTAGTGATAATAAAATTCTGGACAGCTCTGAAGCATCTAGCATTGCTAGCGATGATGATATCAAGGACTACAGAAACGCGGAAGCAAAGTTAGCAAAGAATCCTCAGTTGACAATTTTAAAGCAAGCATTAACAAAAGGAGAGTCTCTTAAACGAGATTTCGAAGATAAATATATGAACTGCAAGCCAAACAAATATCTCAAAACAGAACACACCGATGCTCAAAATTCCAAGAAGTGGTACTGCGAATCTTGTCCTCAAGCGTTTTCGTCGGTAGAAGACTTAAAAGAACACGAAGCTGTTCACGATGCGGACAAGCCGTTTATTTGCATCCTGTGTAGAAAGGATTTTGTGCTTAAGTCTTCCCTGAGCAGGCACATTCAAACTTTGCATGGCATCGATCCAGCTCCGATCGTAGAAAGCGACAAATGTTTGAAGAGGTTCTTACCAGGTTGGAATGAATCCATAGATTTTGATTCATACGAAGGTAAGATGGCCTTGCCGTTATCTCCGAACGCGAACATAGAGAACGAAGAAGAGCACGAGAGCGGACAAGAGAACCTTATCGAAATCGAGACCGTGTTCGTCTGCGAAGTTTGTACCCGCGATTTCAATGACCGCGCGTCCCTCTGGCTCCACATCCGCGCTACTCACAAAGAATTCGCTGCGTTCGCTTGCGGCGTTTGCCTAAAGATTTGCGCGGACAACACGCAACTTCTCAACCACGTTAGCTTGTATCACGGTGGCTCGAAATTATTGCTGTCCGAGCAAAGAAGATACAGTTGTACCATTTGCGGCCGGCAGCACGACTCTAGGAAAAAATTGATCACCCACGTGTCGATACACAACCTGGATCAAAGCTATGATCCTGCGACTTTTGTCCAGTTGAACACTAATTATTACGGGGAAAGTATGAACGGTAATGAAACCGCGGAACAAATGCTCGATTTTGAAGAAGATATGGACAAAGTGGATTGTCACATCTGTTATAAATCATTTCCTACCGAAGATCATTTAATAAGACATCAGAGGAACGCGCACAAGTCGGAGCCATTGGTACCAACGGGTGATTTAAATTCGCCGAATATGAACGGAGGAAACCGGGCTCAGTATCATCTGTTCTTTGTTTGCGAACTCTGTGGCAGTTCTCATCCGAGCAAATGGGAACGTTGGTTACACGTCAGTTCTACGCACGAAGACGAGCCGAGCATAAAATGCGACCGCGAGGATTGCGGTAAAATCTTCGCTACGAAGTCTCTCCGAAACGATCACACTCAACATCATGCGATTCAAGGCTCGTCGCCTAACACCTGCGAGATTTGCGGCAAGCTTTGGGGCAGCAGAGTCGATTACTGGAAACACGTGATGGGCGTTCACTCGGACACCGTACCATTAATCTGCGGCGTTTGTTTAAAAGTGTTCCCGAACGTATTGCAACTAAGCAATCACGTGAAGTCGAAACACTGGCCGCTGACGAACGGCGATTTTAGTTGCGACATTTGCGGCAGGCCGTATTCGAATAAATCTAAAATGTCCAGGCACAGGAAGATTCACGGATTCGATGATAATTATGATAATGGAAACGAGGACAACAGCGAGAACAAAATCGATGGAGGAACGAAGGAGCCGGAACTGCGTTGCGAGCTCTGCACGGATATGGTGTTTGCTACTTTAGAAAAATTATGCAATCACAGGCGGATGGTGCACGGTCTGTTCCCCTGCGATCTATGCAACAAGTATTATGGAAGAACCTCGCATTTATGGAAACATGTAAATAGAGTTCATAAGGGCCACGCAGACATAACTTGTCCATACTGCATGAAGACCAGTGCGTCGAAAGATCATCTAGCGGCGCACATCTCTAAGATCCATCGATACGAACACGATTCCGCAAATGGTAGCACTACGTACAAGAACGAAGAAGTCAATTTGCACTACTGTGAAAAGTGCAACAAGGGATTCCACAAACGATACCTCTTACGTAGACACATGAAAGGATGTCAAAATTATAGGAAAGATCCAAGCGCGTTATTAACGAGATGCAGAGCCTGTGAGAGAATATTCAAAGATCGTGCGAGTTTACAGAAACACATTGAAAATCATCATAGCACGTATACTTGCCATCTCTGCGAGGAAACGGTCACTTCGAAATTGGGAATCATGACGCATAATCGAATGAAACATATGAATCATCCGGATTTGACGTGTAACTTTGGTTCCTGTAAAAAGTTATTCAGGACTCAGGAAGATTTAGAATCTCACAAGAAAGATCATAGGTATCACACGACTCCAAATGTCTGTGACTACTGCGGTGACACTGTGGAGAATAAATTGAAACTGAAAATGCACGTACTGTCGCTTCATCGCAATGAGATCGGCGTTTCCTGCGGAGTGTGTTTAATTCCGATGAGAGACCCGAAAGAGCTCAAGAACCACGTAGAGAATGTACATTCCATGGTATTAACGAAACCCAATACGTGTCAAGTCTGCGGCAAACAATATGCTTCCAAGTGGAAGGCGTTCGATCACACGAAAAAGTGTCACGGGAAAGTGTTTTCGACCTGCAAGCAGTGTCTAGCCGTTTTCACAGATAAATCGTCAATCATCGAACATTATCAAGCAATACACAATATTACTCAAGATCAACTTCCCGCGTTAGAAACTAGATTCGAAATAATTGGTAGGAGGCCTCCTGCCGACATGGGCTCTCCCCCTAGAAGTGTTAAAGACGAGCCGGATGATTCTGAATATTTTGTTGACATGTTATACGAGGATCCGAACGAGGAGAAGCAGTCCCCGTCGCGCACTTTTAGTTGCGAAATGTGTCCCGAAATGCTCGTGAATGGCGATGCTCTCGCGGTACATTATCTAAAGGTACACAACACAGACCCGGTGCCGATATTCGAACGATTGCCGCCGGAAGAACTGAAAAGAGTAATGGGCAAGATAAAATTCTATTGTAAAAATTGCTTACAACAATTTTACACGAAGACGTTGTACTGGACCCACGTCGAAACTTGCAAACCAATCATACGGCTGGACGAATTGTTTCCTAATCAAATCGAGAAGTTGAGAAGAGATGGTCTCTTGAAAAATAATAATTTGATCAAGAACGAAGAAGAGCCCGCGTCGAATTTGAACATCCCCGATTTCAATCTGTTCGAGGGTATAAATCTCCAGTTATCGGGTCAGAGGCCTCTTCCCAATCTTATGCCGCTACCGCAGAGGACGAAGTCGACGATGAAATGTTCGAGGAAAGACTCCAGGAAAGTGTACGACGAATCGACGAATACGGAGTGTGCCTGTGAGGTGTGCGGAAAACAGTGGCCAGCGAAGAAGCATTTGTGGCAACACCTGATCCGTTTCCATCGCACGGAAGCTGCGGTCACTTGCGGAGTGTGTCTGAAACTTTGTAAGGACTATGATGATCTCTCGGAGCATTTGAAAGCCGCGCATGAGGCGATCCTTTCGACCGAAGGAAATAATTTCACGTGCAAAATTTGTGGCAGATATCACAACGCGCGCAGTAAATTGTTATTGCATACGAGCATTCACATCGGCCACGCGGGTACTAGCACTTGGTGTCCGAAGTGCAGGAAGAATATCACGGACGAGAGTGTTCACGCTTGCACCGAGAAAATTGAAGAAGCGGAACAACTGCAGAATAACGAAAAGGCAGAGGGAAGTCTGATAGCTGATGATGGAATGATCGAAGAGGTGGAGGAAGGCGAGTTTGAATCCGAAGCGGAAGAGGACGAAGAAGAGAACATAGAATCCGATGCGGAGGAATCTGAAAGTGGTGGTAGCAGTACCGAGGTCGAAGAAGAGAACGAATCGGAGGGTGAATCCAGAGCGACTGGAGAGGTCACATATAATTCTGAGAGTGAAGATTCGCAAGAGGAGATAGACAATTTGGAAATCGGTCAGACTAATATGCAACACTACCTTCTAGGTCATCTTCAAGAAACTAAGAACGCTGAAGCTGAAAAACATGCAGATTTATCCGACGACGACGACGACGAGCCTCCTGTCCTTAGTCCCATGATGCCTATGCTCGCTGAGAACACGCCTGCAGGGCAGTCAGCAAGCCACCAATTTAGTCCCTCGGCTGGGAACAAAGAGGAGTTCTCTCCGAAACCTATAAACCTCTATGAAAATCATCTACCCAACAACAAATCTTCTAAATTCGAGCCTGAGGCATTCGTGAATCGCAGTGACGAAGATACTGAGGACACGAAAAACGAGTCTGATGAAAATTCCGTCGAAGACAACGAAGAAATTGAGGAGTACGAAGAGAACGAGGATGTCGAAGCTAACGAGCAAAACGAAGACGAATTGGATGAGGAGATGGAATTTGAAGAGAGCGAAGAAATCGAGGCAGATCGTGAAGATAACGAGCAAGTCGAGGCTAATCGAGAGAACGATGAATTCGAGAAAACGAAAGATGACGATAGGAACGATGAGACGGTAGAGGAATCGGAAGATGTCAACCAGAACGCGGAGATGGATGAATTAGGAGGGGTCGATGGAAATGAAGTAGAAGATTCAGATCAAGAAGAAGGTGACGATGCCGAATCGATCGATCTAGAAAGAGCAGTAATTATGATGGATGATGGAGATCAATTGGTGATACAGCAGGAAATGTTGGAGGACGACGGTAACGAGAACTCGAATGAAGAATTTGTTTATTCTACACTTAGGTACAGCACGGAAGAGGACAGTGAAGACGCTAGGAAATGA
Protein Sequence: MDSAENESNVQCELRQSGFHTTTDKTLETEDEALVLKSSGSNTEVNNFGTDNSEGVVCNKIREKELEQVDKRQNNDLDSETDTDISNKDKHEQSSDRENKRLENINVSNKKLRIVDSDSEDEEIFSRSRSKSRKQSKNTRIINKFFDSDSNDSIGSDTEGTASNKVVSQMKSRFQSLIDSESEEDDQEGRQDEEPLSPDMYNKKTKKHKSESSKPEKKKLSVRASKEEAMKQIKSETQRLIRESRISLPYHRPKQRTLQEFLSRKKVMSVLPKAPTMAAKLKMSSAIVDEMLKEKEKEAEVFYKSSDSEEEEGCVLKKNEEEMNATCIQEAKKDNVSRKLFTEDDSTGTESNDERDNTNVMDVTLTEPVEINRENINEEQVSRERVPKFLEDDTSSKLISKDNLIIFESAKEADSESAMDITLTEIAEIEDNKKIVNDEVDTSDFATIESHSKLEIIPKTVDLLQKHASDNETADVIETDKQSSENLNKESTASTSKVSEDYANMIKLSLGVDTDESDDYKEYGLPPPKFDDSPNINQNKTLWNMKPKLRGNPGTLIDLTSDVRPSKKGIDDLIDRFVHKHSKANERVKETNVTTVQVKESPNGMSIVKETLPYRLPNTVEEDPKLNKPGAKLVKLKEELKHKMALKRDEEWKLREQEMKEQEIEWNESINEEDSFTEVYSPSTESHKSDEDEPIEDDVHMKKEKKKRSAFIDYEAEVSEDDIENDTDDIEDEDEDDAQEEKLGLEDEDEDEDSDTNEQNKTFKRIIVPLEEDSRSSMIDSDKNDREDNLPRTTSLNMFRRNSNESESNISISQVPKTIQTPQTKSNSFSLVSPATQLTALNAYVEDGETPKKGKQISHGFDSIARLINTQEDVLDEDLIGLCSGKFPESKFGLNFTKETNVSDSQLLDICSGKFTTQPNNDMNLVDSLNEAPQNMQISEEKSGKKREEQLKEKTPCHKFRVLSSDEEDAAEEIKRSKKKKKVIQLNVSEDEEENGSAASSEDEEVEEEIDDERFIDYDSDENEIIVPKKNIKEYAAKFLEEEAELSESDGGEVSADEDEQELDKFEVEDGDDEDIDEAQVKDQVGKLHMRQLLDEDQREVKMLQDLLFEDGDLYSETGRERKFRWRNIDKQDDNNDLQPLEEKDGLLDLSDNEEEVNWRKMRYEREKFLAEKKASSGTEIEDTLNSQIFKVGMKIVKKRRIDENRKEETLVETIDSKVESRMPRTIAEMINATKFGDKTHVIHTAMKKHSFLARGEKSLERLASLAKQRSAPLPSLKRKNFVFAHVDLNTENADNSMEGTDEMEEVVHDRSDETSACVQDGAVRCRSKPWIPAPEDVIRGRTRRRPSPGQTSLFQFHCHEGHRIIQHPRASIATVFVATPTMESRERYQELCRLCASYDAVKMDIFGQEGKNRQLVDKIQACLPFKIAEDDRLPKCLCYRCMYNLENFYDFRTACVNAVALLERCLPPSELNGNVTTTLACNDSELFERRESIPLLIPEAPIVNPNAALGTPPRLNSDGEADHDVEDMVDNSGTDEGTMMDDNDDHRSEEYELDMETNPSDFLEMTSIVAEEPEESELRQQKFVNLAEQSQQQHEVYVCSLCDKAFSSKGHLSLHARIHVGAGDVIGEKVLTDDHTSYKRPYQCDLCHKSYSTAKHRWGHVSTTHRGHPAVTCGYCSRIYSTRTNLEEHIKSRHAGLPAPTEIQPDNRCQCNVCGKICTDIVELNNHGKICGGQRFDTPTKNETISDNKILDSSEASSIASDDDIKDYRNAEAKLAKNPQLTILKQALTKGESLKRDFEDKYMNCKPNKYLKTEHTDAQNSKKWYCESCPQAFSSVEDLKEHEAVHDADKPFICILCRKDFVLKSSLSRHIQTLHGIDPAPIVESDKCLKRFLPGWNESIDFDSYEGKMALPLSPNANIENEEEHESGQENLIEIETVFVCEVCTRDFNDRASLWLHIRATHKEFAAFACGVCLKICADNTQLLNHVSLYHGGSKLLLSEQRRYSCTICGRQHDSRKKLITHVSIHNLDQSYDPATFVQLNTNYYGESMNGNETAEQMLDFEEDMDKVDCHICYKSFPTEDHLIRHQRNAHKSEPLVPTGDLNSPNMNGGNRAQYHLFFVCELCGSSHPSKWERWLHVSSTHEDEPSIKCDREDCGKIFATKSLRNDHTQHHAIQGSSPNTCEICGKLWGSRVDYWKHVMGVHSDTVPLICGVCLKVFPNVLQLSNHVKSKHWPLTNGDFSCDICGRPYSNKSKMSRHRKIHGFDDNYDNGNEDNSENKIDGGTKEPELRCELCTDMVFATLEKLCNHRRMVHGLFPCDLCNKYYGRTSHLWKHVNRVHKGHADITCPYCMKTSASKDHLAAHISKIHRYEHDSANGSTTYKNEEVNLHYCEKCNKGFHKRYLLRRHMKGCQNYRKDPSALLTRCRACERIFKDRASLQKHIENHHSTYTCHLCEETVTSKLGIMTHNRMKHMNHPDLTCNFGSCKKLFRTQEDLESHKKDHRYHTTPNVCDYCGDTVENKLKLKMHVLSLHRNEIGVSCGVCLIPMRDPKELKNHVENVHSMVLTKPNTCQVCGKQYASKWKAFDHTKKCHGKVFSTCKQCLAVFTDKSSIIEHYQAIHNITQDQLPALETRFEIIGRRPPADMGSPPRSVKDEPDDSEYFVDMLYEDPNEEKQSPSRTFSCEMCPEMLVNGDALAVHYLKVHNTDPVPIFERLPPEELKRVMGKIKFYCKNCLQQFYTKTLYWTHVETCKPIIRLDELFPNQIEKLRRDGLLKNNNLIKNEEEPASNLNIPDFNLFEGINLQLSGQRPLPNLMPLPQRTKSTMKCSRKDSRKVYDESTNTECACEVCGKQWPAKKHLWQHLIRFHRTEAAVTCGVCLKLCKDYDDLSEHLKAAHEAILSTEGNNFTCKICGRYHNARSKLLLHTSIHIGHAGTSTWCPKCRKNITDESVHACTEKIEEAEQLQNNEKAEGSLIADDGMIEEVEEGEFESEAEEDEEENIESDAEESESGGSSTEVEEENESEGESRATGEVTYNSESEDSQEEIDNLEIGQTNMQHYLLGHLQETKNAEAEKHADLSDDDDDEPPVLSPMMPMLAENTPAGQSASHQFSPSAGNKEEFSPKPINLYENHLPNNKSSKFEPEAFVNRSDEDTEDTKNESDENSVEDNEEIEEYEENEDVEANEQNEDELDEEMEFEESEEIEADREDNEQVEANRENDEFEKTKDDDRNDETVEESEDVNQNAEMDELGGVDGNEVEDSDQEEGDDAESIDLERAVIMMDDGDQLVIQQEMLEDDGNENSNEEFVYSTLRYSTEEDSEDARK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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