Basic Information

Insect: Aethes cnicana
Gene Symbol: Rel
Assembly: GCA_963971205.1
Location: OZ020280.1:4944636-4976209[-]

Transcription Factor Domain

TF Family: Homeobox
Domain: Homeobox
PFAM: PF00046
TF Group: Helix-turn-helix
Description: This entry represents the homeodomain (HD), a protein domain of approximately 60 residues that usually binds DNA. It is encoded by the homeobox sequence [7, 6, 8], which was first identified in a number of Drosophila homeotic and segmentation proteins, but is now known to be well-conserved in many other animals, including vertebrates [1, 2], as well as plants [4], fungi [5] and some species of lower eukaryotes. Many members of this group are transcriptional regulators, some of which operate differential genetic programs along the anterior-posterior axis of animal bodies [3]. This domain folds into a globular structure with three α-helices connected by two short loops that harbour a hydrophobic core. The second and third form a helix-turn-helix (HTH) motif, which make intimate contacts with the DNA: while the first helix of this motif helps to stabilise the structure, the second helix binds to DNA via a number of hydrogen bonds and hydrophobic interactions, which occur between specific side chains and the exposed bases and thymine methyl groups within the major groove of the DNA. One particularity of the HTH motif in some of these proteins arises from the stereo-chemical requirement for glycine in the turn which is needed to avoid steric interference of the β-carbon with the main chain: for cro and repressor proteins the glycine appears to be mandatory, while for many of the homeotic and other DNA-binding proteins the requirement is relaxed.
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 11 0.014 3.5 8.1 0.2 7 50 843 885 839 891 0.92

2 11 0.04 10 6.7 0.3 11 50 903 941 899 947 0.93

3 11 0.067 17 6.0 0.4 11 50 931 969 925 975 0.92

4 11 0.038 9.5 6.7 0.2 11 50 959 997 955 1004 0.92

5 11 0.038 9.6 6.7 0.5 11 50 987 1027 982 1033 0.90

6 11 0.041 10 6.6 0.4 11 50 1045 1085 1030 1086 0.90

7 11 0.022 5.4 7.5 0.2 3 50 1090 1136 1088 1139 0.93

8 11 0.063 16 6.0 0.3 11 50 1154 1192 1141 1198 0.92

9 11 0.065 16 6.0 0.3 11 50 1210 1248 1202 1255 0.92

10 11 0.049 12 6.4 0.5 11 50 1266 1304 1254 1305 0.92

11 11 0.02 5.1 7.6 0.1 3 50 1309 1355 1307 1357 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	11	0.014	3.5	8.1	0.2	7	50	843	885	839	891	0.92
2	11	0.04	10	6.7	0.3	11	50	903	941	899	947	0.93
3	11	0.067	17	6.0	0.4	11	50	931	969	925	975	0.92
4	11	0.038	9.5	6.7	0.2	11	50	959	997	955	1004	0.92
5	11	0.038	9.6	6.7	0.5	11	50	987	1027	982	1033	0.90
6	11	0.041	10	6.6	0.4	11	50	1045	1085	1030	1086	0.90
7	11	0.022	5.4	7.5	0.2	3	50	1090	1136	1088	1139	0.93
8	11	0.063	16	6.0	0.3	11	50	1154	1192	1141	1198	0.92
9	11	0.065	16	6.0	0.3	11	50	1210	1248	1202	1255	0.92
10	11	0.049	12	6.4	0.5	11	50	1266	1304	1254	1305	0.92
11	11	0.02	5.1	7.6	0.1	3	50	1309	1355	1307	1357	0.94

Sequence Information

Coding Sequence: atgtcGAGTGACCAGGACTCGAGCTGCTCAGCCGGCCAGTATTTGGAGAATTTTAATTCGCCGCACAGCTCACCTTCGCAGCAGGTGCCTCAGCTGGCTAGTTCCTTCACCGAGCTATCATGCGCCGAACTAAATAACTACCCTGGCTCAGGCCGGCCAAAATTGCGTATAGTTGAGCAGCCACAGAATCATTTTAGGTTCCGATACAAGAGTGAGATGGTGGGCACTCATGGCTGCCTCTTAGGCAAGACCAGCGCCAACAACAAAGCGAAAACACATCCTATGGTTGAGCTCGTGAACTGTAACAAGCGTGCCGTGATCAAATGCCGGTTGGCGCAACACCCGAAGCCCGAGGAGCACCCTCATCAGCTGTTGGAAGACGAGCACGAAGACCGGGAGGTCAGCGCCATCGTGCCCCAAGACGGCAGTTACAGAATCGGATTTAACGGCATGGGCATCATACACACAGCCAAGAAAGACGTGCCCGGTTTGCTCTTCAAGAAATACCGCGAGAGAAATAATAACGTCACCGATAAAGACctcCTAAGTTACTGCGAAGCCGAGGCCAAGGGAATAAACCTCAACATAGTACGTCTCAAGTTTAGTGCCCACGATATCGATACGGACCGTGAAATCTGCGAGCCCGTATTTTCGGAACCTATTCACAATATGAaGAGTGCAGCTACAAATGACTTGAAGATATGCCGCATAAGCCGGTTGTATGGTCGGCCCCGTGGCGGCGATGACGTTTACATCTTCGTAGAAAAAGTCAACAAAAaaaacATAAAGATTCGTTTCGTGGAGCGCGACGAAGCGGGCGATGAGCTGTGGTCCACCGACGCCCATTTCCTTCAAACTGACGTTCATCACCAATACGGCATTGTttttagGACGCCAGCCTACAAAGACCAGCAGATCGTCAGTGACGTGAAGGTCTACGTGGAGCTGTACCGACCTTCGGACGGCCGCTGCAGCGAGCCCAAGGAGTTCACATATAAAGCCGACCCGCTGTGCAAGCAGTCCAAGAAACGGAAGGCTGGTTCGGCCTACTCCTCGTTTGACAGCTCCTTCGGTGGCGGTTCCATCAAAAGCCTTAGCGATTTACCCAGCCCCGTTTATCAGTTAGACACGCCCAACGTAATCCCGACCACCGGCGACGTGTACCTGGGCGACGCGTTGCTAGGCGAGGCCTGCGACCAGAACCCGCTGCAGCTCCACTACACGGTCAGCCCGATGCTGTCGCAGAGCGATCTGCAGCCGATCACCCTCGACTCGGCGGAGTTCAACGAACTGTTGAAAGATATGCCCGGCGACGAGCGGGACAACTTTAAAGAATACGCTAGCTACAGTTTGTCTATCGACATGAACTTTTTACGGACCTCTTTGGAAACCGACTCTGGAAGGGGCAAGGTCCCTAAAGTAGAGAGCAGTTCTGGCCAGAGCGAACGCAAGACGCACAGTAGCGCGGCGAGTGACAAATCGAGCAGCGAATATGCGGCGGTATACAGCTCTGAAAACGGCGCCGAAGTCAGGAAGGTAATCCAGTTGTTGAAGGAGATTTGTGACTTGCTAAGGAACAAGACTAGTTTCAAGAAAGCGGTCGTCAAAGAGAAGCTGGAGAGAATGTTCTCGATGCGCCTCTCCAACGGAGACACATTCCTGTTCATGGCCCTGTTAAACAACCGCACCAGTTTCGAGTATATCGTGAAGCTGATCCACAACATGAGGATGAGTCACCTCCTGAACCTCGCCAACGACGCCGGCCAGACCATACTTCACTGGGTCGTCGTGAACGAGATGCCTGAACTAATACGGCTGTTGATCTCTAAAGGGTGCGACCCCTCAATCGGCGATCAAGAAGGCAACACCGCGGTGCATTACGCCGTGTCGTGCCATTCTTGCATGGAGCCACTCCTCAGCGCCATCCGCGCCCACGCCACCAAATGCGACCTCAATGCTGTCAATAAAGAGAAACAAACGGCGCTTCACGTGGCGGCTGTGCCGGGGTCGGATGCTAACGCGATCGCGTCTTCCATCGAAAGTATCAAGTTGTTGCTTAAGCACGGAGCGAGCTATAACGCGAGGGATTTCGAAGGACGCACTCCGCTGCATTTGGCCACCTACGATGACTGTTTGCCCGTGGTGCGAGCGTTATTGGAGTTTATATCGCCGAGCGATATCGACGCTGTAGACGGCAGAGGCAACACTGCCTTGCAAGTAGTATGCGCGGGCAACATCAGGGAGAATTCCGTCGAAATCGTCAAACTTTTACTTGAGAAAAAGGCGGATCCGACAGGACACGATCCGCATACGCTTCCCGCGTGGCGTTTGGCGCGAGACAAACCGTTGATAAGCGCATTGCTGCCCTTCAAAAATATTGACTGCGACGTTGACGTTAAAGATGAGCCCGAGGAAGAGTTCGAGTCTGCTGACGAGGGGGAGGACGCTGCGTCTCTGAGCGACTTGCCGCAGTACGTGCACGAGTTGTCGCGCGTGCTGGACGGGAGCGGCGCGTGGCGCGCGCTGGCGTCGCGGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGCAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGCAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGCAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGCAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGTACTGGAGCTGCAGCACGACGCGCTCGTCAACTGGTACCAGAACACGCCCAGCCCCACCAGGACGCTGCTCGACCAGCTCAAGGAGTGGCAAGACGGCATAACCTCAAAGTCTCTGATGCTGATACTCGAAGATTTGGGACAGACGGAGGCAGCGCAAATCATACGCAGCAGGATAGGCGCCAGCACTATGGACACCTAG
Protein Sequence: MSSDQDSSCSAGQYLENFNSPHSSPSQQVPQLASSFTELSCAELNNYPGSGRPKLRIVEQPQNHFRFRYKSEMVGTHGCLLGKTSANNKAKTHPMVELVNCNKRAVIKCRLAQHPKPEEHPHQLLEDEHEDREVSAIVPQDGSYRIGFNGMGIIHTAKKDVPGLLFKKYRERNNNVTDKDLLSYCEAEAKGINLNIVRLKFSAHDIDTDREICEPVFSEPIHNMKSAATNDLKICRISRLYGRPRGGDDVYIFVEKVNKKNIKIRFVERDEAGDELWSTDAHFLQTDVHHQYGIVFRTPAYKDQQIVSDVKVYVELYRPSDGRCSEPKEFTYKADPLCKQSKKRKAGSAYSSFDSSFGGGSIKSLSDLPSPVYQLDTPNVIPTTGDVYLGDALLGEACDQNPLQLHYTVSPMLSQSDLQPITLDSAEFNELLKDMPGDERDNFKEYASYSLSIDMNFLRTSLETDSGRGKVPKVESSSGQSERKTHSSAASDKSSSEYAAVYSSENGAEVRKVIQLLKEICDLLRNKTSFKKAVVKEKLERMFSMRLSNGDTFLFMALLNNRTSFEYIVKLIHNMRMSHLLNLANDAGQTILHWVVVNEMPELIRLLISKGCDPSIGDQEGNTAVHYAVSCHSCMEPLLSAIRAHATKCDLNAVNKEKQTALHVAAVPGSDANAIASSIESIKLLLKHGASYNARDFEGRTPLHLATYDDCLPVVRALLEFISPSDIDAVDGRGNTALQVVCAGNIRENSVEIVKLLLEKKADPTGHDPHTLPAWRLARDKPLISALLPFKNIDCDVDVKDEPEEEFESADEGEDAASLSDLPQYVHELSRVLDGSGAWRALASRLQHDALVNWYQNTPSPTRTLLDQLKVLQLQHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLQLQHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLQLQHDALVNWYQNTPSPTRTLLDQLKLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKLKVLELQHDALVNWYQNTPSPTRTLLDQLKHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKVLQLQHDALVNWYQNTPSPTRTLLDQLKHDALVNWYQNTPSPTRTLLDQLKVLELQHDALVNWYQNTPSPTRTLLDQLKEWQDGITSKSLMLILEDLGQTEAAQIIRSRIGASTMDT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00022572;
90% Identity: iTF_00022572;
80% Identity: iTF_00022572;