Basic Information

Insect: Harmonia axyridis
Gene Symbol: Dach1
Assembly: None
Location: chr6:6052719-6352357[+]

Transcription Factor Domain

TF Family: DACH
Domain: DACH domain
PFAM: AnimalTFDB
TF Group: Unclassified Structure
Description: This family of proteins includes transcription factors involved in the regulation of organogenesis. Members of this family appear to regulate the SIX1, SIX6, and possibly SIX5 genes, influencing myogenesis and the proliferation of precursor cells in myoblasts. They are known to act as corepressors or coactivators in these processes, depending on their interaction with other proteins such as EYA3, CREBBP, NCOR1, TBL1, HDAC1, and HDAC3. These proteins are also implicated in the repression of cyclin-dependent kinase inhibitors, including the p27Kip1 promoter, which is key in cell cycle regulation. Some family members inhibit TGF-beta signaling through interactions with SMAD4. They are characterized by a conserved DNA-binding domain known as the DACHbox-N or DD1 domain, which is structurally similar to the forkhead/winged helix domain and is responsible for their DNA-binding activity.
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 3 0.41 1.1e+04 -3.7 0.0 80 102 361 383 333 385 0.81

2 3 1.7e-38 4.5e-34 118.0 11.7 41 152 499 610 490 628 0.95

3 3 0.39 9.9e+03 -3.6 0.3 92 132 703 715 699 721 0.48

#	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	3	0.41	1.1e+04	-3.7	0.0	80	102	361	383	333	385	0.81
2	3	1.7e-38	4.5e-34	118.0	11.7	41	152	499	610	490	628	0.95
3	3	0.39	9.9e+03	-3.6	0.3	92	132	703	715	699	721	0.48

Sequence Information

Coding Sequence: ATGCTTATGATGGACAGTAACGCCATGGACTCTGCCAGTGATCACAGTAGCCATGCGTCTTCAGCTTCACCAGTGGTCGCTATTAAACCGTCGCCTTCGCCGCCACACAACAATAATAACCTCAATATGTCGAATAACCACAACCAAATGCACAGTCCTAGACAGGCCAGTCCTTTAGGTCCTCCGATGACTATGGGACACAACCTTAGTCCGCCGCCTGTTTCTTCGGCTAGTTTGGCCAGAGGTATGAGTCTTAGTCAGTTTCATCCTCCAGGACTCGGACTTCTGAATTCTTTGGGGGCCGTGTTGCACAATCCTTTGGATCTTATGGCGGCTCATCATGGACCTCCGAGGTCCTACAACAGTCCTCCGCCTATCTCAACATCTGATCCTACAGCGAATGAGTGTAAATTGGTAGATTATAGAGGTCAAAAGGTGGCTGCCTTCATCATAGCCGGTGATACAATGCTTTGCCTGCCCCAGGCCTTCGAACTGTTCCTCAAACACCTCGTTGGTGGTTTACACACTGTTTACACCAAGCTAAAGCGTTTGGACATTGTACCCTTAGTTTGTAACGTCGAGCAGGTTAGGATTCTCAGAGGTCTGGGAGCCATACAGCCTGGAGTGAACAGATGCAAGCTGTTGTCCTGCAAGGACTTCGACACGTTGTTCAAAGACTGCACTACGGCCAGTTCCAGGCCCGGCAGACCACCAAAGAGGGCTCCAGTTGGATTAAGTCTGGCAGCTTCACATCTCCAGCATCATCAGCTCAAAAAACAACGCCTAGACAACGGAGATTACCCCTACGAGAACGGACACTTAACAGATATGGCAAGGATGGAAAAGTCACCTCTTCTAGCCAATGGATACAACCATCCTCCACATCTGGGTCACATGCAGTTTATGCAGATGCCACATCCTGCAGCAGCACATTCTGCCCTTTTATCTCCTGCCATGCCACACAATCTATCAAGACATGATGGTTCAGTCATAAAAAATCAGGGTTTGACGTCTATGGAAGCCATCGCCAGGGCTGGAGTATGGGAAAATTGTAGAGCAGCATACGAAGACATCGTCAAACATTTGGAAAGGCTGAGAGAAGAAAGAGGAGACCCAGAAAGGCCGATGTGCATGGACCAGAAACCCAGAGATCTCAGTCCCAGAAATGGCTCTCCTACAGACCACAGTCCTGTTCTCAATCTTTCGAAAAGTGGTGGGGGAAGTGCAGGATCAGTGGGTGAAGGTGAACATTCAGGTAGCGAAGCTGATGGTGCTGATATTCCTCCTTCGCCTAGATCACCCAGATCAGCGGTTGAAGACGATGAGGATGACAACATATCGGATCCCGATGATGAGGATGAGAAAGATCAAGATATGGAAGAAGGAGACGTTCCCATGCCTGCCCCTCCAAGCACAGAATCTCATCACACAGCATTGAATTACTCTTCTCTGGCCAACGTAATGGCCTCAGCCAACGGCCAGACGCCGGACTCCACAATTTCATCGACTGAAACTCTCCTCAGAAACATCCAAGGTTTGCTCAAAGTCGCAGCAGATAACGCACGTCAACAAGAGAGACAGATCAACTATGAAAAAGCTGAACTGAAAATGGATCTGTTACGAGAACGAGAAATGAAAGAAGGCTTGGAGAGACAACTCAACGACGAACAAAAAAAGAAAGAGGTATACCTGAAACGGTTCCGTAGAGAACGTAGAAATAGAAGACAATTAGAGGACCAGTTTGATATTGAGAAGAAAAGGAGGATGCAACTGGAAGATGCACTCAAAAATGCAGGAGCATCTGAAGAACTGAGGAGGATCAATGATCACTACAACAACCTTGACAACAAATCTTCAATCCAGAAGGCGTCTTCGTCCTGTTCCTCGCAAAACCAAAGGTCAACTCCAAACGTCCTAGAGAGGGAACAGATGACGCAAGAGAGGATGAAGCAAGAACCCATTGATACACCCCCAATATCGTATCCTCAGCCCATCAGGGAGCCTCCACCTCCAACACAGTCCATCGACACCAAACCTTGGTGCTACTCTGGAATTGATCTTATCAACAATGGCGCTGCGTTTTGGCAAAGCTATTCAGATTCTCTTGCTCAAGAGCTGGAAATGGAGAGGAAAAGCCGACAACAGCAAATGGACAGAGAAAAATCACCTCTGCCTGATAGATCTTCGTATTATAAGAACTCAGTGCTCTTCACCAGTAGTGCAACGTAA
Protein Sequence: MLMMDSNAMDSASDHSSHASSASPVVAIKPSPSPPHNNNNLNMSNNHNQMHSPRQASPLGPPMTMGHNLSPPPVSSASLARGMSLSQFHPPGLGLLNSLGAVLHNPLDLMAAHHGPPRSYNSPPPISTSDPTANECKLVDYRGQKVAAFIIAGDTMLCLPQAFELFLKHLVGGLHTVYTKLKRLDIVPLVCNVEQVRILRGLGAIQPGVNRCKLLSCKDFDTLFKDCTTASSRPGRPPKRAPVGLSLAASHLQHHQLKKQRLDNGDYPYENGHLTDMARMEKSPLLANGYNHPPHLGHMQFMQMPHPAAAHSALLSPAMPHNLSRHDGSVIKNQGLTSMEAIARAGVWENCRAAYEDIVKHLERLREERGDPERPMCMDQKPRDLSPRNGSPTDHSPVLNLSKSGGGSAGSVGEGEHSGSEADGADIPPSPRSPRSAVEDDEDDNISDPDDEDEKDQDMEEGDVPMPAPPSTESHHTALNYSSLANVMASANGQTPDSTISSTETLLRNIQGLLKVAADNARQQERQINYEKAELKMDLLREREMKEGLERQLNDEQKKKEVYLKRFRRERRNRRQLEDQFDIEKKRRMQLEDALKNAGASEELRRINDHYNNLDNKSSIQKASSSCSSQNQRSTPNVLEREQMTQERMKQEPIDTPPISYPQPIREPPPPTQSIDTKPWCYSGIDLINNGAAFWQSYSDSLAQELEMERKSRQQQMDREKSPLPDRSSYYKNSVLFTSSAT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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