Basic Information

Insect: Bombyx mandarina
Gene Symbol: ZBTB41
Assembly: GCA_003987935.1
Location: NW:154919-164529[+]

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 31 3.5e-05 0.0016 18.3 0.6 2 21 158 177 157 178 0.93

2 31 1.4 65 3.8 2.0 1 23 211 234 211 234 0.92

3 31 0.00012 0.0055 16.6 0.5 2 23 240 261 239 261 0.95

4 31 1.2 54 4.1 3.0 2 21 265 284 264 285 0.92

5 31 0.016 0.72 10.0 1.0 2 23 327 349 326 349 0.94

6 31 0.0073 0.33 11.0 0.6 1 23 382 404 382 404 0.98

7 31 0.0059 0.27 11.3 0.8 1 23 410 433 410 433 0.96

8 31 0.0045 0.2 11.7 1.5 1 23 442 465 442 466 0.94

9 31 0.013 0.57 10.3 2.2 1 23 473 496 473 496 0.96

10 31 6.5e-05 0.003 17.5 0.4 3 21 562 580 560 581 0.95

11 31 3.7e-05 0.0017 18.2 2.3 1 23 612 634 612 634 0.97

12 31 0.00035 0.016 15.2 5.3 1 23 638 660 638 660 0.96

13 31 1.7 78 3.6 0.5 6 21 667 682 666 683 0.92

14 31 0.065 3 8.0 1.1 1 23 693 716 693 716 0.90

15 31 1.7e-05 0.00079 19.3 0.4 1 19 722 740 722 742 0.96

16 31 0.0011 0.051 13.6 1.2 2 21 854 873 853 874 0.93

17 31 0.064 2.9 8.0 1.1 3 23 907 928 906 928 0.95

18 31 3.5e-05 0.0016 18.3 0.4 1 23 933 955 933 955 0.97

19 31 0.12 5.2 7.2 6.2 1 21 958 978 958 979 0.95

20 31 0.0043 0.2 11.7 0.4 1 23 991 1014 991 1014 0.94

21 31 2e-05 0.00091 19.1 1.3 1 23 1020 1042 1020 1042 0.99

22 31 0.23 10 6.3 1.5 1 23 1076 1099 1076 1099 0.94

23 31 1.4e-05 0.00063 19.6 0.8 2 21 1224 1243 1223 1244 0.93

24 31 0.27 12 6.1 0.4 1 23 1277 1299 1277 1300 0.92

25 31 7.2e-05 0.0033 17.3 2.3 2 23 1306 1327 1305 1327 0.97

26 31 5.9 2.7e+02 1.9 4.9 2 20 1331 1349 1331 1351 0.93

27 31 5.2e-06 0.00024 20.9 0.7 1 23 1377 1400 1377 1400 0.95

28 31 0.0015 0.067 13.2 0.4 1 23 1406 1428 1406 1428 0.92

29 31 0.21 9.5 6.4 0.1 1 23 1434 1456 1434 1456 0.97

30 31 0.0023 0.1 12.6 0.3 1 23 1462 1485 1462 1485 0.96

31 31 0.00068 0.031 14.3 0.6 2 23 1492 1514 1491 1514 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	31	3.5e-05	0.0016	18.3	0.6	2	21	158	177	157	178	0.93
2	31	1.4	65	3.8	2.0	1	23	211	234	211	234	0.92
3	31	0.00012	0.0055	16.6	0.5	2	23	240	261	239	261	0.95
4	31	1.2	54	4.1	3.0	2	21	265	284	264	285	0.92
5	31	0.016	0.72	10.0	1.0	2	23	327	349	326	349	0.94
6	31	0.0073	0.33	11.0	0.6	1	23	382	404	382	404	0.98
7	31	0.0059	0.27	11.3	0.8	1	23	410	433	410	433	0.96
8	31	0.0045	0.2	11.7	1.5	1	23	442	465	442	466	0.94
9	31	0.013	0.57	10.3	2.2	1	23	473	496	473	496	0.96
10	31	6.5e-05	0.003	17.5	0.4	3	21	562	580	560	581	0.95
11	31	3.7e-05	0.0017	18.2	2.3	1	23	612	634	612	634	0.97
12	31	0.00035	0.016	15.2	5.3	1	23	638	660	638	660	0.96
13	31	1.7	78	3.6	0.5	6	21	667	682	666	683	0.92
14	31	0.065	3	8.0	1.1	1	23	693	716	693	716	0.90
15	31	1.7e-05	0.00079	19.3	0.4	1	19	722	740	722	742	0.96
16	31	0.0011	0.051	13.6	1.2	2	21	854	873	853	874	0.93
17	31	0.064	2.9	8.0	1.1	3	23	907	928	906	928	0.95
18	31	3.5e-05	0.0016	18.3	0.4	1	23	933	955	933	955	0.97
19	31	0.12	5.2	7.2	6.2	1	21	958	978	958	979	0.95
20	31	0.0043	0.2	11.7	0.4	1	23	991	1014	991	1014	0.94
21	31	2e-05	0.00091	19.1	1.3	1	23	1020	1042	1020	1042	0.99
22	31	0.23	10	6.3	1.5	1	23	1076	1099	1076	1099	0.94
23	31	1.4e-05	0.00063	19.6	0.8	2	21	1224	1243	1223	1244	0.93
24	31	0.27	12	6.1	0.4	1	23	1277	1299	1277	1300	0.92
25	31	7.2e-05	0.0033	17.3	2.3	2	23	1306	1327	1305	1327	0.97
26	31	5.9	2.7e+02	1.9	4.9	2	20	1331	1349	1331	1351	0.93
27	31	5.2e-06	0.00024	20.9	0.7	1	23	1377	1400	1377	1400	0.95
28	31	0.0015	0.067	13.2	0.4	1	23	1406	1428	1406	1428	0.92
29	31	0.21	9.5	6.4	0.1	1	23	1434	1456	1434	1456	0.97
30	31	0.0023	0.1	12.6	0.3	1	23	1462	1485	1462	1485	0.96
31	31	0.00068	0.031	14.3	0.6	2	23	1492	1514	1491	1514	0.95

Sequence Information

Coding Sequence: ATGACAAGACAAGTGGATGTGAAAGCATTAATTTCCCATCTAGTCAGAGGGGATGGCACCGAAAAATGTCGTATTTGTATGGGTGAAACAACAGAGGGCCAAGTTTACCTTGGAGATACTGTAATGGTGGACGGAGAGAAGCCCGTGACCTTAGCTGAACTATTAGAACAAATCACGGGAGTCGAGGTAACAGTGGAAGATAACCTGCCCGACGTTCTATGCTCGGCCTGCTCATTCTCAGCATTATCCGCAGCAGAGTTCAGAAACTTCTGCCAGAAAGCCATAGAGCAATGGCATAACACAGTAAAATTACTGGAGGAGGTCACCACCTTTCATCCTGTAAACGCATCCAAGATTTATGCTGTCGTATCTGACAACGAAATATCCATCACCGAAGACTCattaagacaaaataaaacaatcaaacatTCGCCTATTAAAAGTAAAGAATATGGTAAAAGCTTACAATGCTCATGTCCGAACTGTGGGAAGACATTTTCATATGCATCAGATTTGTATGATCATTTGAAAGGATCGACGGACTTGACTCGGGCTTGCTATGTGTGCGCAAGGATAATGTCTGAAGATGATCTGGTGGAGCATCTAAgagaaaaacacaataaaaagcCATTCAACTGTAACAAATGTGCTGTTCTGCTCCGCTCGTACAAACATTACAAGAAGCACATGGCAGACGCTCACAGGCCCGGTGTGTGTACGTGTGGGGACTGTGGACGATCATTCAAATCTCTGCCGGCATACAACGCTCATCTATCAGTACACACTCCAAAGACCTGTCCAAAGTGCTCTAAACTGTACCGAAACCAAACTTGTTACCTTTATCACGTTAAAAGGTGCTGTGAGTTGAGCCGGGAAAGCCGGGAAATACATCAAACGAAGAATAAACTATCGGTTTTGGTTAAGAGTGATCAGAGGTCAGTCAAAGTTGGTCTCCGGGGCAGTAGGAACACTGAATGTATATGTGACTATTGTCAGAAGAGGTTTGCCGGAAAGAAATTTGTAGCGACTCACATTCAGATTGTGCATATGAAATCCACTCACCGCCCCTGCGTGTATTGTGGAAAATACCTCGCTGCTGCTCACATGCCAGTCCACTTGAAGAGACATGAAACATCGGAGACCTTCAAATGTGAACTATGCAATATTGTACTAAAATCGAAACTAGGCTATCAACAACATCTAAGACTACACTCCGGAGAGAAACCTTATGTGTGTAAATACTGCGATGAAAGATTCTCTGCTTCGTCAAGGCGGTCGGAGCATGTCCGCAAGGCACACAGACAGAGTGATACGGTCTTGAGACACTCATGTGCCGTCTGTCCTGCTAAGTTCAGGCTACCCTACCAGCTCAGGAAGCATGTTTCCTCCGTACATCACATAGACAAACCAGGGTCCTTTGATTGtgaaatttgcaaagtaaaattTGCAAGTTGTAGAGCTCTATTGGTTCACCACAGAAACATTCACACAACGGCCAATTATTTGGCCAACATTGGGCTCGAGAAAAACGCGGCTACTCTCTACGTTGTAGCCGCAAAAGATTTTCGAACTTACCGCAGCAAGAGAAAGATTGAAAATCACTCGCAACTTGTAAAAGATTTGGGAGCCAAAATCAGTACGCGGTCGGCACGCATGAAAGGTCCAGAACGTTCCAGAATGGCTTGTCCCGAATGCGGGAAGTGTTTTAAGAACGCGGTGCGGTTTAATGCTCACATTAGGAATTTGAAAATGAAGTATTGCACGCAGTGCGGACGTTTAGTGAACTTGAATTCTTACGGAGCTCACGCTGAAAATGATCACAACGCGAGGGTGTTCCGATGTAAGAAATGCCCGGAGGTGTTCGCGAGGTATTCGTATTTGGAAAAACACAAAACCAAGCACATCGGTGTACATTGCTGCGTTGAGTGTAAACGTAGCTTTCGCAACGCAACGAGTCTGTGGACGCACTTACGGAAACACCAACCGGCGGTGTGTGCTTGCGGTAAAAAGTTCACGAATGGAATATGTTTTAGAAAACACGGAAAAACGTGCCCAAGTAACAGGGGCGCCGTTCGATACGTCTGCGACTATTGCTCGAAAGAATACAGCGTTAGGACTACCCTCAAATTTCACATATTCAATGCGCACATGTCGCTAAAGAAATTCCAGTGCGATAAATGCGGAAAGGTTTTCGGTAATCGTTCGCACTTGGAGGAACATGGGCTGGCGTGGTTTCAGGTGGCGGACGAAGACGCCCTTCCACCCGGGGTCTGCAGGCATTGCTCCGAGGATACCATGGCCGCTTACAACTTCAGACAGCTGTGTGATACATCGAAAAAGCGTTGGTCCAGTGCCGCGGAGCTTCTATCGCGGATTCACGCGAACGCCGACAGTGGAACTCTCTTTTTCCTATACGACGACGCTATCTTGCTCCTGAAAGACAAAATAAGCACCACAGATACAAGAGCGGCCTCAGATTTGCTGAACTCGAAGTTTGACGAGGAAACAGAGCAGAAACCGCGCAAATACCAAAGATCGTATCAGCCGCCTCTAGAATGTTCTTGTCCCGAGTGCGGCAAGACCTTCCAGAACGTTCAGTATTTGAACTATCATTTGAAGAGTTCGTTGAATTGCGCGTGTAGAACCTGCGCTTTGGTCATGCAGAAGAGATTCATTCCGGAGCACATGAGGGTCGAGCATGGCGTCTCCGTGGCTCACTGTCGGATGTGTTACGCGGTTTTCGAAGACCAAGAGTCAGTTAAGCGTCACTTGCTATCGTCTCACGGCCCTAATTCGTTCTCTTGCAATACGTGCGGCACCGGCTTCAGCGGCCAGAGAGCCTTGCGCGCTCACATGTACTCGCACACGTTGTTCGACTGTAAGTCCTGCTCCAGGACATTTGAGAATCGTAAATGCTTCAAGCATCACCAGAGAGGATGCAAACGCGAGGTCTCGCCAATTGAATCCACGTTCATATGCGACTATTGTAAAAtagaatataacaaaaaaccATCTCTGAAAGTGCACATAATACAGAAACATTTGAACGTGTTGCCGTATGTTTGTCAGAAGTGCGGGAAGCGGGCGTCGACCGTCGCGCATTTGCAGTCGCACCTCAGGACCCATAACCACGTGAGGAAGGTGTTTGAGTGTCACTGCGGTGCTAAAATGACCACGGAATTGGGTTATCGGCTCCACCAGAGGATACACTCTGGCGAGAAGCCGTACGAGTGCAAGAGGTGCGGCGAAAGGTTTTTGTCGTCTTCGAGGCGCTTAGACCACATCAAGAGGCGGCACATGGGCACCCAGAACATGCCGCACGCATGCGACAAGTGCCCCGCGAGATTTCTAAGAGAAGATCCCCTGTGTCCCAACGGGGCCTGCGTCTCGTGCGCCAGCTCCGCCCTGGCTGTCCAAGAGTTCAGAATGTTCGTTCAGAACTCACAAAAATCCTGGTACAAAGTTATAAATAGCCTGTCCAGTATAACGGCGCCGGTCGTACCACAGGTGAAGTCTTTATGCGCATTCGTGAGCTCGAACGACTTGAGCGTGCAAATCACGAAGAATTACACGACTGGCGACCCTAAAGCGTTGGTTAACAGGTTCCAAAGTAGAATTTCCAGGAAGCCACCGAAGAGATTGCGCGTGGACCGCACCGGTCCTGACTGTGCGTGTCCTGACTGCGGGAAAACCTTCTCCAGCCCCCATTTCTTGAACGCTCATCTCATGAACAGCGGGCAGAAGGAAGCCTGCCTCATTTGTGGGGATGTTGTCTTAAGACGCGACCCCATGCTTGCGCACATGAAAACCGTCCACAAAAGCACCTTTTACCTGTGCAAGGAATGCCCCTTGCTTTTTACAACCGAAGCCGACCGCGTTCAGCACGTTGCCAAACATCACAAGCCCGGCGCCCTGACATGCTCCGACTGCGGTAGAACCTTCCCTAGGAAAGAGTCCTTTGATCACCACACGCAAATGCACATGGTGCGAACTTGTCGCTCCTGCGGCTGTCAGTTCACTAACCGCGGTTGCTACAGGGAGCACAGGTCCCAGTGCGAGCCGGAGGCCAAGCCCGATGTCCATGGTCTCCCGCGGACGAAGCGCTACAACGTACGCGATCCCGCCTCGTTTACTTGCGATTACTGTAATAAGACATACTCCTCGCGACCTCAACTGAAGAATCATATACTCTGGATCCACATGGACATTCGACCTCACCAGTGCCAGTGGTGCGGCAAACGTTTCTACACTCCGGCTAGATTGGCGGAACATTCTGTGGTCCACACGCGCGTCAGGAACTTCGAATGTGATATTTGCGGTGCGAAATTGGTCAGTAAAATGGCTGCGGTTTACCACAAAAGGCGGCACACGGGAGAGAGGCCCTACAAGTGCGATGATTGCGGCGAGGGCTTCATATCCGCCTCGCGTAGGACGGAGCACGCCAAGCGAAGGCACAACAGGGGTAAGAGGCTTCAGTGCCCCGAATGTCCGGCGACGTTTATCAGGAAATGTGAGGTTCAAAAGCACAGGATCAAAGCCCACGGCGTTACTGAAGTTTATAACATTATAACAGATATGAAATCGTGA
Protein Sequence: MTRQVDVKALISHLVRGDGTEKCRICMGETTEGQVYLGDTVMVDGEKPVTLAELLEQITGVEVTVEDNLPDVLCSACSFSALSAAEFRNFCQKAIEQWHNTVKLLEEVTTFHPVNASKIYAVVSDNEISITEDSLRQNKTIKHSPIKSKEYGKSLQCSCPNCGKTFSYASDLYDHLKGSTDLTRACYVCARIMSEDDLVEHLREKHNKKPFNCNKCAVLLRSYKHYKKHMADAHRPGVCTCGDCGRSFKSLPAYNAHLSVHTPKTCPKCSKLYRNQTCYLYHVKRCCELSRESREIHQTKNKLSVLVKSDQRSVKVGLRGSRNTECICDYCQKRFAGKKFVATHIQIVHMKSTHRPCVYCGKYLAAAHMPVHLKRHETSETFKCELCNIVLKSKLGYQQHLRLHSGEKPYVCKYCDERFSASSRRSEHVRKAHRQSDTVLRHSCAVCPAKFRLPYQLRKHVSSVHHIDKPGSFDCEICKVKFASCRALLVHHRNIHTTANYLANIGLEKNAATLYVVAAKDFRTYRSKRKIENHSQLVKDLGAKISTRSARMKGPERSRMACPECGKCFKNAVRFNAHIRNLKMKYCTQCGRLVNLNSYGAHAENDHNARVFRCKKCPEVFARYSYLEKHKTKHIGVHCCVECKRSFRNATSLWTHLRKHQPAVCACGKKFTNGICFRKHGKTCPSNRGAVRYVCDYCSKEYSVRTTLKFHIFNAHMSLKKFQCDKCGKVFGNRSHLEEHGLAWFQVADEDALPPGVCRHCSEDTMAAYNFRQLCDTSKKRWSSAAELLSRIHANADSGTLFFLYDDAILLLKDKISTTDTRAASDLLNSKFDEETEQKPRKYQRSYQPPLECSCPECGKTFQNVQYLNYHLKSSLNCACRTCALVMQKRFIPEHMRVEHGVSVAHCRMCYAVFEDQESVKRHLLSSHGPNSFSCNTCGTGFSGQRALRAHMYSHTLFDCKSCSRTFENRKCFKHHQRGCKREVSPIESTFICDYCKIEYNKKPSLKVHIIQKHLNVLPYVCQKCGKRASTVAHLQSHLRTHNHVRKVFECHCGAKMTTELGYRLHQRIHSGEKPYECKRCGERFLSSSRRLDHIKRRHMGTQNMPHACDKCPARFLREDPLCPNGACVSCASSALAVQEFRMFVQNSQKSWYKVINSLSSITAPVVPQVKSLCAFVSSNDLSVQITKNYTTGDPKALVNRFQSRISRKPPKRLRVDRTGPDCACPDCGKTFSSPHFLNAHLMNSGQKEACLICGDVVLRRDPMLAHMKTVHKSTFYLCKECPLLFTTEADRVQHVAKHHKPGALTCSDCGRTFPRKESFDHHTQMHMVRTCRSCGCQFTNRGCYREHRSQCEPEAKPDVHGLPRTKRYNVRDPASFTCDYCNKTYSSRPQLKNHILWIHMDIRPHQCQWCGKRFYTPARLAEHSVVHTRVRNFECDICGAKLVSKMAAVYHKRRHTGERPYKCDDCGEGFISASRRTEHAKRRHNRGKRLQCPECPATFIRKCEVQKHRIKAHGVTEVYNIITDMKS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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