Basic Information

Insect: Lathronympha strigana
Gene Symbol: MLXIP
Assembly: GCA_949128165.1
Location: OX421909.1:11327184-11351327[+]

Transcription Factor Domain

TF Family: bHLH
Domain: HLH domain
PFAM: PF00010
TF Group: Basic Domians group
Description: A basic helix-loop-helix (bHLH) is a protein structural motif that characterizes one of the largest families of dimerizing transcription factors.It should not be confused with the helix-turn-helix domain.The motif is characterized by two α-helices connected by a loop. In general, transcription factors including this domain are dimeric, each with one helix containing basic amino acid residues that facilitate DNA binding. In general, one helix is smaller, and, due to the flexibility of the loop, allows dimerization by folding and packing against another helix. The larger helix typically contains the DNA-binding regions. bHLH proteins typically bind to a consensus sequence called an E-box, CANNTG. The canonical E-box is CACGTG (palindromic), however some bHLH transcription factors, notably those of the bHLH-PAS family, bind to related non-palindromic sequences, which are similar to the E-box. bHLH TFs may homodimerize or heterodimerize with other bHLH TFs and form a large variety of dimers, each one with specific functions.https://en.wikipedia.org/wiki/Basic_helix-loop-helix
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 12 7e-08 5.3e-05 24.2 0.0 2 31 605 636 604 646 0.83

2 12 2e-06 0.0015 19.6 0.0 8 35 655 684 650 690 0.80

3 12 0.00012 0.094 13.8 0.0 8 31 699 722 694 734 0.82

4 12 8.7e-05 0.066 14.3 0.0 10 32 745 767 741 778 0.81

5 12 7.9e-05 0.059 14.5 0.0 10 31 789 812 785 822 0.80

6 12 2e-06 0.0015 19.6 0.0 8 35 831 860 826 866 0.80

7 12 4e-06 0.003 18.6 0.0 8 32 875 899 870 910 0.82

8 12 7.9e-05 0.059 14.5 0.0 10 31 921 944 917 954 0.80

9 12 3e-06 0.0023 19.0 0.0 8 31 963 988 958 998 0.81

10 12 5.4e-06 0.0041 18.2 0.0 8 31 1007 1030 1002 1036 0.87

11 12 4.1e-13 3.1e-10 41.0 0.1 4 53 1030 1081 1028 1081 0.92

12 12 4.2 3.2e+03 -0.7 0.1 13 32 1084 1103 1084 1111 0.89

#	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	12	7e-08	5.3e-05	24.2	0.0	2	31	605	636	604	646	0.83
2	12	2e-06	0.0015	19.6	0.0	8	35	655	684	650	690	0.80
3	12	0.00012	0.094	13.8	0.0	8	31	699	722	694	734	0.82
4	12	8.7e-05	0.066	14.3	0.0	10	32	745	767	741	778	0.81
5	12	7.9e-05	0.059	14.5	0.0	10	31	789	812	785	822	0.80
6	12	2e-06	0.0015	19.6	0.0	8	35	831	860	826	866	0.80
7	12	4e-06	0.003	18.6	0.0	8	32	875	899	870	910	0.82
8	12	7.9e-05	0.059	14.5	0.0	10	31	921	944	917	954	0.80
9	12	3e-06	0.0023	19.0	0.0	8	31	963	988	958	998	0.81
10	12	5.4e-06	0.0041	18.2	0.0	8	31	1007	1030	1002	1036	0.87
11	12	4.1e-13	3.1e-10	41.0	0.1	4	53	1030	1081	1028	1081	0.92
12	12	4.2	3.2e+03	-0.7	0.1	13	32	1084	1103	1084	1111	0.89

Sequence Information

Coding Sequence: ATGGGACAGCTGCAGGTTATTAAGAAACAAAATACTTTAGTGTGCCAGTTCGCGTCGCCGTTAGACGTTGATACTCACGTTAAACCAGAGACAACAATATTAGAGGGGAAGTATTGGAAACGTAGGGCGGAAGCAGTGATAGCAGAATATAAAAAATGGAGAATGTTTCATATAATGCGTCTCCTGGGGAAAGGGGACACCTCCGTCCAAGATGcgATATCGGACATGGACACGGTGGAGTCGTTCTCCCAGTGCAGCGACTTCGCTGCGAACATGCTGACGGATGAGGACTACCTAACCTTCATGAGTGACACGCTATTCTCTACCATATCCAGCCACCAGCCGTTCGCGTTCCCGGACTCGAGGGAGATCGCAAGAGGTGCCAGTTTAGCAGACTTCATTCAACCAAGTTTAGGACCATTACAACCTAATCTTGACGATTTTATGGACACATTGGAGCCTCTACAAGACTTTGCAGATCTATTCTCAACTCCGCGCCTTCCGCCTGTGCCCGAGGAGCCAGCGCTTCCAGCCGAGGACACCATGTTCCGAAACAGCATGTCCGTGGACTCGTATGGGCACGGCTACGGCCTGTCCGCCACACACGCCAGTGCTACCATGCCCACCAACCAAATGACCATTCACGGTTCACCCAATAATACTCAAATGATGTCAATATCTGATCAAACCATAAAGAACGAGCATATGCAGATGTACGAGAACAACCGGTTGTACGTCCAGACGGACATGCAGAACAACATGATCAACCAGGAGGTCATGCCGTACTCGTTCGAGCAGAACTCGCCGCAAGCGCAGACAAGTCATATGAATAATGTGTTTGAGCCGAAGCGAGTGCAGTACACGTCAAAAGTTATATCACAACCGGATCCCGCCTTCAAGTATAATACAGtagtgCCCCCCTCGCAAACGGCTCCCGAAACAGTCTCACTATTacagcaaccagttcaaaatcaAAAGTACGCCTCCACCATCGTCATCCAAGGCCGCAGCGGTTACGCACGCGAAAAACCACGGCCAAGGCTGGCCATGTACTCGAGTCAGCTACCCAACAACCAGTACACGAACTATGGGCAGCAGAGCCCGAACTCGCAAGTTGATAGGACGCAGAGGCCGCAGCAGATGCACTACTTACAGCCGAGCCCAGTCGAGTTTAAGGCGAAGCCGACGGGTGCGGTCAACGCGCGCTCGTTTAAGATGCCGTCGCCGCCGCTGCCTAATAATTCGCAACAGggTACGTCGACAGCGGGACGAAACAAGGATCAATACCGCTCGCACAGCTTACCGTTGGGCGCGCAGCTCAACGCCGATTGGACAGTGAGCgctcccgcgcccgcgcccgcccccgcccccgctcCCGTCCTCGCGCCCGCTCCCGCGCCCCCGCCTGGGCATACGCACGAGGCCGCAGCCGCTGCTGCGCAGAGGCACAGTGCAAGGGCTCGCGAACTGAACACGAACACGCTGCGTATCCGCTCGCGTTCGTCGTCTAGTGGCGTGCTGgacgcggcgggcgcggcgacCGCAACGGGCGCGCGTCGGCCGCCGCCGCTCTGCAGCGTGGCCTCGGAGCCCGCGCTGCCACAGGCCAGCGTCATGCTCGCACAGCTGTTGAGCGCGCAACACTCGCAAAGTGTATACAAGCTAAACAGCACCGGCGACGAAGCTGACCCCAAGTCCCCCCACAGGCTAGGGCAACCGTCTCCCATCGGCAGCGACGTCATGTCCCCCCACCAGAGCCTATCACCTCCCGTCTCACCTGATGGCGAACGAGCGGGATCGCCTCGCGAATCACGCCGCACGCACATGCACGCGGAACAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACACTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTGCTAAGGTAACTGCTTCCACTGTACGTACTAGCCGCACGCTCGTGCACGCGGAACAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTACTAAGGTAACTGCTTCCACTGTACCTACTAGCCGCACGCTCGTGCACGCGGAACAGAAGCGGCGCTACAAGATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATATCGCACCTCAACGCCAACCCCGCTGCTAAGGTAACTGCTCCCACTGTACCTACTAGCCGCACGCTCGTGCACGCGAAACAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTGCTAAGGTAACTGCTCCCACTGTACCTACTAGCCGCACGCTCGTGCACGCGAAACAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTGCTAAGGTAACTGCTTCCACTGTACCTACTAGCCGCACGCTCGTGCACGCGGAACAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTACTAAGGTAACTGCTTCCACTGTACCTACTAGCCGCACGCTCGTGCACGCGGAACAGAAGCGGCGCTACAAGATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTGCTAAGGTAACTGCTCCCACTGTACCTACTAGCCGCACGCTCGTGCACGCGAAACAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTGCTAAGGTAACTGCTTCCACTGTACCTACTAGCCGCACGCTCGTGCACGCGGAACAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTGCTAAGGTAACTGCTTCCACTGTACCTACTAGCCGCACGCTCGTGCACGCTGAACAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTGCTAAGAAGCGGCGCTACAACATCAAGACCGGCTTCGACACGCTTCAGGCGCTCATACCGCACCTCAACGCCAACCCCGCTGCTAAGATAAGCAAAGCTGCCATGTTACAAAAAGGTGCAGAGTACATAAAACAGTTGAAGGCTGAGAGGAaccaaataaaagaagaaatgGAGAGTTTACGACAACAAATTGAATGCTTGAACAATTCTATATCGAACTGCCACTCGCTGCTGCCGGCGACGGGCGCGCCGGTGtcgcgcgcgcgcgccggccgCCTGCGCGAGATGTTCGCGCGGCACGTGGCCACGCGCACCATGCACACCTGGAAGTATTGGCTGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGGTAAGCGTTCACAGTTTAGCGTAGTGTGCGCGGCGCTGGTGGACTCGTTCAGCGCGTGCGTGTCGTGCGGCAGCGGCGCCGACCTGGTGCGCACCACGCTGCTGTGGGCCGAGCAGCACTGCTCGCTCGTCGAGATGCGCCCGGCCGTCCTAAACTCCCTCCGCGTGCTGTGCACCACCACGGACATCCTGTCGACGCCGGAGCGCCTGCCGGAAGAGGCGCGAGCCGCGGCGGCCGGCAGCGCGGCCGTCAAGACCGAGCCCACCTAA
Protein Sequence: MGQLQVIKKQNTLVCQFASPLDVDTHVKPETTILEGKYWKRRAEAVIAEYKKWRMFHIMRLLGKGDTSVQDAISDMDTVESFSQCSDFAANMLTDEDYLTFMSDTLFSTISSHQPFAFPDSREIARGASLADFIQPSLGPLQPNLDDFMDTLEPLQDFADLFSTPRLPPVPEEPALPAEDTMFRNSMSVDSYGHGYGLSATHASATMPTNQMTIHGSPNNTQMMSISDQTIKNEHMQMYENNRLYVQTDMQNNMINQEVMPYSFEQNSPQAQTSHMNNVFEPKRVQYTSKVISQPDPAFKYNTVVPPSQTAPETVSLLQQPVQNQKYASTIVIQGRSGYAREKPRPRLAMYSSQLPNNQYTNYGQQSPNSQVDRTQRPQQMHYLQPSPVEFKAKPTGAVNARSFKMPSPPLPNNSQQGTSTAGRNKDQYRSHSLPLGAQLNADWTVSAPAPAPAPAPAPVLAPAPAPPPGHTHEAAAAAAQRHSARARELNTNTLRIRSRSSSSGVLDAAGAATATGARRPPPLCSVASEPALPQASVMLAQLLSAQHSQSVYKLNSTGDEADPKSPHRLGQPSPIGSDVMSPHQSLSPPVSPDGERAGSPRESRRTHMHAEQKRRYNIKTGFDTLQALIPHLNANPAAKVTASTVRTSRTLVHAEQKRRYNIKTGFDTLQALIPHLNANPATKVTASTVPTSRTLVHAEQKRRYKIKTGFDTLQALISHLNANPAAKVTAPTVPTSRTLVHAKQKRRYNIKTGFDTLQALIPHLNANPAAKVTAPTVPTSRTLVHAKQKRRYNIKTGFDTLQALIPHLNANPAAKVTASTVPTSRTLVHAEQKRRYNIKTGFDTLQALIPHLNANPATKVTASTVPTSRTLVHAEQKRRYKIKTGFDTLQALIPHLNANPAAKVTAPTVPTSRTLVHAKQKRRYNIKTGFDTLQALIPHLNANPAAKVTASTVPTSRTLVHAEQKRRYNIKTGFDTLQALIPHLNANPAAKVTASTVPTSRTLVHAEQKRRYNIKTGFDTLQALIPHLNANPAAKKRRYNIKTGFDTLQALIPHLNANPAAKISKAAMLQKGAEYIKQLKAERNQIKEEMESLRQQIECLNNSISNCHSLLPATGAPVSRARAGRLREMFARHVATRTMHTWKYWLFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPGKRSQFSVVCAALVDSFSACVSCGSGADLVRTTLLWAEQHCSLVEMRPAVLNSLRVLCTTTDILSTPERLPEEARAAAAGSAAVKTEPT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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