Basic Information

Insect: Heliothis peltigera
Gene Symbol: dmrta2
Assembly: GCA_958496145.1
Location: OY292345.1:8517392-8543518[-]

Transcription Factor Domain

TF Family: DM
Domain: DM domain
PFAM: PF00751
TF Group: Zinc-Coordinating Group
Description: The DM domain is named after dsx and mab-3 [2]. dsx contains a single amino-terminal DM domain, whereas mab-3 contains two amino-terminal domains. The DM domain has a pattern of conserved zinc chelating residues C2H2C4 [1]. The dsx DM domain has been shown to dimerise and bind palindromic DNA [3].
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 9 1e-26 6.1e-23 80.8 10.8 1 47 42 88 42 88 0.99

2 9 1.2e-17 6.9e-14 51.8 6.7 13 47 99 133 91 133 0.89

3 9 1.2e-17 6.9e-14 51.8 6.7 13 47 144 178 136 178 0.89

4 9 1.2e-17 6.9e-14 51.8 6.7 13 47 189 223 181 223 0.89

5 9 1.2e-17 6.9e-14 51.8 6.7 13 47 234 268 226 268 0.89

6 9 1.2e-17 6.9e-14 51.8 6.7 13 47 279 313 271 313 0.89

7 9 2.7e-17 1.6e-13 50.7 5.6 15 47 1438 1470 1435 1470 0.96

8 9 1.2e-17 6.9e-14 51.8 6.7 13 47 1481 1515 1473 1515 0.89

9 9 2.7e-17 1.6e-13 50.7 5.6 15 47 1695 1727 1692 1727 0.96

#	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	9	1e-26	6.1e-23	80.8	10.8	1	47	42	88	42	88	0.99
2	9	1.2e-17	6.9e-14	51.8	6.7	13	47	99	133	91	133	0.89
3	9	1.2e-17	6.9e-14	51.8	6.7	13	47	144	178	136	178	0.89
4	9	1.2e-17	6.9e-14	51.8	6.7	13	47	189	223	181	223	0.89
5	9	1.2e-17	6.9e-14	51.8	6.7	13	47	234	268	226	268	0.89
6	9	1.2e-17	6.9e-14	51.8	6.7	13	47	279	313	271	313	0.89
7	9	2.7e-17	1.6e-13	50.7	5.6	15	47	1438	1470	1435	1470	0.96
8	9	1.2e-17	6.9e-14	51.8	6.7	13	47	1481	1515	1473	1515	0.89
9	9	2.7e-17	1.6e-13	50.7	5.6	15	47	1695	1727	1692	1727	0.96

Sequence Information

Coding Sequence: ATGGAAATGTCTTTGCCGAACGGAGTCGATGTGTCGCAGCTGGTGCAGCACCCGGTGCTGGCCGCGCTGCCGCCCTTCTTCCTGAGAGCCTCGGAAAGATATCagTCTGCTCTGCCCCACCAGCGCACTCCCAAGTGTGCTCGCTGCCGCAACCACGGCGTGGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCAACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTAATGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTAATGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCCAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCAACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGTGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGAGTGTCCACTGCACAGCGCGACCACGGCGTGGGTCAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGCTCTCAAGGGACACAAGCGCTACTGCCGGTGGCGCGACTGCGTCTGCGCGAAGTGCACGCTCATCGCGGAGAGACAGCGGGTGATGGCTGCACAGGTGGCGCTGCGGCGCCAGCAGGCGCAGGAGGAGAACGAGGCGCGGGAGCTGAACCTGCTGTACGCGAGCCAGACGTCTAGCGCGCCGCACCACTACACCGACATGCCCGATGATTCACCAGTTCAGAAACGCGCTCGCATCACAGAAGTCTGCTCCAGTCCATCACCGCCTACAGAATCTCAGCCAGAATCCAAGACCCCCGCCGCTACCCCGCCACTCGCCAGCCCACCCCCTCGCTCGCCTTCAGACCACGAGCTCAACGTAGAAGAAGAACTGGAGGAAACAGAGCCTTCACTAACTCCTGAAAACCTTTCCATGAAGGAACAAAGAGACGATGTAGCTgtgaagaaagaagaagaagacaaATGGGAGAACCCTGActtcaaatacaaaatgtttagGCGAGAGAGGAAAGAGACAGTTGAGACTCCCCCTGAAGATCCATCTCCGTACCAGAAGTCTCCCGTAGATGTCCTGATAAAGGTGTTTCCCCGACGCAGTCGGCAGGAGATTGAAGGGATCCTAGCGAGATGTAAAGGAGACGTTGTTGCTGCgatggagatgatgatcaCGGGAGAGAATGCCAACCCTTACCAAGTGACTCAGGAGTCCCCTCCTTACATGCAGTACCAGTCAAAATCTGCCTTCTCTCCATTATCAAACCAGAGCTTCAAATTCTCTCCATCGCGACGGTTTCTGACGCCTCCGTACAGCGGGACTGGGTACCTCCCTACTGTGATTAGACCCCCTCCGGAGTACTTATCATCGTTCATGCCTCCGTCTGAGCTGATGTACGGGAGGCAGCTGCAGGTGCCCTCACCGGGTACCTCCCCGACGTCGGATAATACGAATAATGAAGGGTTCTCTGATTAG
Protein Sequence: MEMSLPNGVDVSQLVQHPVLAALPPFFLRASERYQSALPHQRTPKCARCRNHGVVSALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVSVHCTARPRRVSALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVSVHCTARPRRVSALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVSVHCTARPRRVSALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVSVHCTARPRRVSALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVSVHCTARPRRVSALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVSVHCTARPRRGVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALMPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALMPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLRQVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVSVHCTARPRRVSALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVSVHCTARPRRGVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTACVSSQGTQALLPVARLRLREVHAHRGETAGDGCTGECPLHSATTAWVSSQGTQALLPVARLRLREVHAHRGETAGDGCTALKGHKRYCRWRDCVCAKCTLIAERQRVMAAQVALRRQQAQEENEARELNLLYASQTSSAPHHYTDMPDDSPVQKRARITEVCSSPSPPTESQPESKTPAATPPLASPPPRSPSDHELNVEEELEETEPSLTPENLSMKEQRDDVAVKKEEEDKWENPDFKYKMFRRERKETVETPPEDPSPYQKSPVDVLIKVFPRRSRQEIEGILARCKGDVVAAMEMMITGENANPYQVTQESPPYMQYQSKSAFSPLSNQSFKFSPSRRFLTPPYSGTGYLPTVIRPPPEYLSSFMPPSELMYGRQLQVPSPGTSPTSDNTNNEGFSD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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