Basic Information

Insect: Cnaphalocrocis medinalis
Gene Symbol: Cdk6
Assembly: GCA_014851415.1
Location: Chr29:7931825-7975531[+]

Transcription Factor Domain

TF Family: TSC22
Domain: TSC22 domain
PFAM: PF01166
TF Group: Basic Domians group
Description: These proteins are highly similar in a region of about 50 residues that include a conserved leucine-zipper domain most probably involved in homo- or hetero-dimerisation. Drosophila protein bunched [1] (gene bun) (also known as shortsighted), a probable transcription factor required for peripheral nervous system morphogenesis, eye development and oogenesis.
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 10 0.26 2e+03 -1.2 0.0 16 27 940 951 937 960 0.83

2 10 0.0075 59 3.8 0.0 14 31 1376 1393 1373 1399 0.86

3 10 0.025 2e+02 2.1 0.0 14 31 1489 1506 1487 1520 0.84

4 10 0.0097 76 3.4 0.0 14 31 1603 1620 1600 1628 0.85

5 10 0.0032 25 4.9 0.0 14 30 1717 1733 1714 1751 0.76

6 10 0.0012 9.2 6.3 0.0 14 31 1830 1847 1828 1863 0.79

7 10 0.098 7.7e+02 0.2 0.0 14 29 1944 1959 1941 1972 0.80

8 10 0.0033 26 4.9 0.0 14 31 2057 2074 2054 2091 0.78

9 10 0.017 1.3e+02 2.6 0.0 12 29 2169 2186 2168 2194 0.84

10 10 0.0039 31 4.7 0.0 14 29 2284 2299 2281 2311 0.89

#	of	c-Evalue	i-Evalue	score	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	10	0.26	2e+03	-1.2	16	27	940	951	937	960	0.83
2	10	0.0075	59	3.8	14	31	1376	1393	1373	1399	0.86
3	10	0.025	2e+02	2.1	14	31	1489	1506	1487	1520	0.84
4	10	0.0097	76	3.4	14	31	1603	1620	1600	1628	0.85
5	10	0.0032	25	4.9	14	30	1717	1733	1714	1751	0.76
6	10	0.0012	9.2	6.3	14	31	1830	1847	1828	1863	0.79
7	10	0.098	7.7e+02	0.2	14	29	1944	1959	1941	1972	0.80
8	10	0.0033	26	4.9	14	31	2057	2074	2054	2091	0.78
9	10	0.017	1.3e+02	2.6	12	29	2169	2186	2168	2194	0.84
10	10	0.0039	31	4.7	14	29	2284	2299	2281	2311	0.89

Sequence Information

Coding Sequence: ATGTCAGCGTCCACTTCGAGTAGTAGTTCTAAATCTCCGCCTCCTATGTCTTCTCTTGGGGATGTTAGTGCTTTGCTGCAAACGGCGAAGAAATATGAAGAGCTAAACGTTATAGGAACAGGCGCCTATGGCACAGTTTACAAAGCCCGAGACCTACACAATGGAGGCCACATCGTAGCTATGAAGAAAGTTAAAGTAGCACTCACTGAGGATGGTATCCCACTCTCAACCCTGCGAGAGATTGCATTGCTAAGACAGCTTGAAGCTTACAGACATCCTAATATTGTAAGGCTGCTGGATGTCTGCCACGGAGGTCAGTCAGTAGACCGAGACCACCAGTTGGTGTTATTCCTAGTCTTCGAGCATGTGGAACAAGACCTGGATTCCTTCTTGAAGAGAGCACCTGGACCTTTGTCAGAAAATCGGATAAGAAGCATGTCATTAGACATTCTTTCTGGCATCGACTTCCTACACTCCCACCGCATTGTGCACCGAGACCTGAAACCGCATAACTTGTTGGTGACAACCAGCGGACGAGTCAAGTTGGCTGACTTCGGGCTGGCCAAAACTTATGACACGGATATGAAACTTACCAGTGTAACTAATCGGACGTCCGGCGCGGCACGAGTGGCCGGACAACGTGTCCGTGGTGGCGGACAGCTTCCCGGACTACCAGCCGCAGGACCTGGCCGACGTGCTGCCCAACATACACCCACACGCGTTGGATCTTATCAAATCATGGCAGGCGAGGGTGAGGGCATGGTTGCGGTCGTGCAGGGCCTTCAGGACGCTGGTCTGGCCGTCACCTTGATGAGTGGCCGGCGGCACGGACGGAGGAGGTCCATGGCTCCGAGTACGAAAGCGCTCAGCCAGTTGACTCACGCGAAGTCTTCAGTGGAGACCAGCACCAATGGCCTGCCGGTGTCCTCAATTAATACGGCTGCTCAAATCTGTGATGACAGATATACCAGCAGCTATCAGTTCACATCCAGAGCAGCTGATGTGCGCTACCTCACAGATGTGACCAAGTGTCTCAGGGATACACTGAAACAGATCTGCACTGACAATCCAACGACATATCGGCAAACGTGTCCAGGAGGACCTAAACGTTGTTGTTACTGCCACAAACCCCTTCCTTGTGCCTGCTCACGAGTCAGCGTGCTCAAATTCTCCATCGATTTACGATCGTGTAACTGTCTTGAAGAAGAAGATTTCGCTATAAAATTGGAAGAAGCAGTTGACAATTGGCTGATGGAAATTCCTGTATTTGTCAATGAAAATTACTGTGACAAATCCATAAGAGAAGATATGTCTAAGGAACTGGTTGAAAAGCTAAAAGAACTGAGAGGCGATGAAGATTTCGATGAGAAAGCTAGACAGGCGATTGCTGAGTGTGTCAATAGTATGCCCATGTGGTATCCAGGGGATAAGGATAATCAAGAGATGTTTAAGAATCAAATTATCGATAGTCTTATTGGTAAGTTAAAAGATATAACTAAAGAGGAAGATAAATTTGAAGATGCGATTCAAAAATGGGTGGATACATTAAACTTCAGAAGTAACAGTCGAGGTTCTATTGTTGATAGAAGCAGCGTTGTGGATGAATTGGTTACAAGGCTAAAACCAATAGCTCTTAATCCGCCGGTTGACTTAAGAAAGGCATTAAAAGATGAAATCGTCGAAGTTATACAAAAATTGCCAGTCAAAGCCGAAGGGGATAAAGTGGAATTTCTTAATATCATAGCAGACAATTTAGCTAATGAACTGCAAAACATACCAGCTAAGGATCTAGGCAAAAGCGCAAGCGATAATTTGGAAGATGAATTCAATAAGCAAATTTTGAAATGGCTTGAAGATGTTCCTGAGTTATCAAGTTCTAGTGCTGGAAGCATCAAAGAAAATCAGGAGTTAATCGGTTCATTGGCTAAAAAGCTGTGGAAACTTCAAGCTCAAGGTATTGATAAACCAGTCACACAAGAGCAAATGGAAAACGAAATAGTTGAATGGCTGGAAAATAATGTTGCAAAGAAAGCACGTTTCGACTCAAGAGCGAAGAATAAATTAGTTGAAAAGTTAATGCAGAAATTAGTCAAAGTATGTAAACAAGCTGCTGAAAAGAAAGAAAAGAAGTCACCGGATGCAATTTTAGAAGATACGATTCAAGAAATACTGGATTGGTTGGAGGACATCCCTGAATTATCGGGTGGAAACCAAATGGAAAATATAAGATTGGTCGAACCGTTAGCTAAAAAACTTATAGAACTCCGCAATCAAGGGAAAGATGACAGTGAATTAAAAAATGAAATTCTAAATTGGCTAGCTAATGCCTTTGAAGACAAAGGAGAACCGATAAATGTAAGAAAACAAAATAATTTAGTAAAAGACCTTTTAGGTAGGATTAAAAAACTTCCATTTGAAACAGATTATGATGAAAACCTCGCTGATTCTCATGAAAATATGGTCCGAGAAATACTTGATTGGTTGGAGGATATTCCTGAGTTAGCCAGTGGGAACAAAACAGAAAATATGAAGATGATCGAACCATTAGCTGAGAATCTTCTAGTACTACGTAATCAAAGAAAAGATGATAGCGAGTTAGAAGATCAAATTTCAAATTGGTTAGCTACTGCGTTCGAAAACAAGGGTGAACCGTTAGACATAAGAAAGCAAAATAATTTAGTAAACAAACTTTTAGGTAGGATTAAAAATATACTAGATGAAAGTTTTGTTGGTGATAATAACCTTGCTAAAGATATTTTAAATTGTTTTGAAGATATACCAGGATTTGATACTAGTTCTAAAGAAAATAAAAAAATGGTGGAAGAATTAACGAAAAAGATACAAAATTTGCAATTAAACAGATCAGGGGACCCAAAATCTAAAAAAGAATTAGAACAATTGGTAGAGGATTTAGTTAAAAACTCTGGACTGAATCTTACCCCTACCGCCAAAAATGATCTTGTTCAGAAACTAATGGATGCTATACCAACGGTGCCTAAGCAAAGGAAGCGATGGAATAAAAAGGATAATTCATCAAAGGTTTTGAATGCTCTTCAAGAAGGAGTATGTTATGTTTTAGATAAATCGGACATCCCTTCTGACAATCGCAATGAATTAGAGTCTACTCTGACTGACATTTTAGCCGACCAAGTCATGCGTGGTGAAGATGATAACCAGACCAAATCCCGTTTGATAAATGCACTTGCTGATTTAGATATTTCTGAAGATCTTTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTGATTAACAAAACCAGTGATTCAATAACATTTAGAAGAAAATCAGAAATTACGCCAATGGAAAAAGAATTATTTCAAGAAAGTGCTGAACGTGAGATCCTAGACTTCACTCAAGAAATATCAGGCGATGATAGTACAGCTTCGAGAAAAAAATGGAAAGCAGTGGCTCAAGAATTAGCAAAAAATGTTGCAGATATAATGTCAGAACCAAATACAACCCTCGCAGAACAAAGAGAAGGTGTAGAAAAAGAAATTGCGAAATATTTGGACGATTTATCTTTACAAACAGAGTTACCTATTGATGAACAGGCGAGTGAACTTGCAGACAAAATACGCCAACAAGAACTAGTGAAAGAGCTGGCAGAACATCTTGAAGAGCTTTGCCAAGATGGCATATTGACTAAACCAATTTTTGAGGAAATAGTCTCGACATGGTTAGAAAAAATGCTTAAAGATGCTAGCGATAAATATGTCAGTGGTTTGGTTGAAGGACTTCAAGTCATTTTGGTAAACAAAGATCTTATTTCATTTGATAAAGAGGCGACAGATAGGAAGTTATCCGTGAATGCTGTTAACACTAAAGAGGCATTTAACAAAATGCCAACCATGCGAAGATTTTCGGTTGGTATGAAAGATGCAATTTCAAAATGGTCAGAAAACTTACCATTCCAACCGGGAAAAGACATAAGACACGCTCAACATGAAATAGAACCATTTACTGAAAAAATTAAGGAAGTTGTGACGGATGTACCTCTAGAAAACTTGGAAGATATTCAATATGATTTAGACACAGAAATAAAATCGTTTCTAAACAAACTGCCAGTACAAAAGCACAAAATTACAGATGATCATGTGGAACAACTTAGAGATGGCATACATGATTTAGTTAAAACTACTGCTGCGAAAAATATTGGCAATTTTGAAAAAATACCTGGAATGAGGAAAACCTCGGTGAATGCTGATAATATTAAAGCTGCCGTATTAAAATGGTCTGAAAATTTACCATTTCAACCCGGAAAAAATATAAAACACGCGCAGCATGAAATTGAACCGTTTTCTAAGAAAATTAAAGACGTGGTAATGAATGTGCCTCCAGAAAACATCGTAGATGTTCAGGAAGATTTGGATAATGAAATCAAATCATTTTTGAATAAATTGCCGGTACAAAGGCATAAGATAAAAGAGGATCATGTAGATAAACTCAGAGGAAACATTCACGATTTGGTAAAAGATACAGCAGCCAGAAAACCTTATCAAAATGCTTTCAAATCCCCTGACACGAGAAAATTCTCCATCAGCACAGAAGGCATTAAAGATGCTATTCTAAAATGGTCTGAAAATTTACCATTTCAACCGGGAAAGAATATAAGACATGCCCACCATGAAGTAGAACCATTTACTAAGAAAATTAAGGAAGTTGTGACGGATGTACCTCCAGAAAACTTGGAAGAACTTCAGGAAGATTTAGATAATGAAATCAAATCATTTTTGAATAAATTGCCTGTACAACGGCAGAAGATTAGAGATGATCATGTAGATCAACTAAGAGATGGCATACAGGATTTGGTAAAAGATACAGCGTCAAAAAAGTCCTATCGAAATGCTTCCAAGCCCCCTGACACGAGGAAATTCTCTATCAACACAGAAGGCATTAAAGATGCTATTCTAAAATGGTCTGAAAATTTACCATTCCAACCTGGAAAAAACGTAAAACATACCCAACACAAGATAGAACCATTTACTAAAAAAATTAAAGAAGTTGTGACGGAAGTACCACCAGAAAACTTGAAAGATATTCAGGAAGATTTAGATAATGAAATTAAATCATATTTAAACAAATTACCTGTACAACAGCACAAAATTACAGATGACCATGTAGAACAATTAAGAGATGATATTCACGATCTGGTCAAAGCTGCTGCAGCAGAAAACAATGCTACTTTGGGTGAAAACCCATATATGAAGAAGTTCTCTATCGATGCTAGTCGTATTAAAGATGCAATTTTAAAATGGTCAGAGAACTTACCATTTCAAGCAGGAAAGAATATAAGACATGCCCAACATGAAGTAGAACCATTTACTAAGAAAATTAAGAAAGTTGTGACGGATGTACCTCCAAAAACCTTGGAAGAACTTCAGGAAGATTTGGATAATGAAATCAAATCCTTTTTGAGTAAACTGCCTGTACAAAAGCAAAAGATTACGGATGATCATGTAGATCAACTTAGAGATGACATACACGATTTGATGAAAGATACAGCGGCAGAAAAATCCTATCGAAAAGCTTCCAAGCCGCCTGACACGAGGAAATTATCTATCAACGCAGATGGTATTAAAGATGCTATTCTAAAATGGTCTGAAAATTTACCATTCCAACCTGGAAAAAGTATCAAACATGCGCAACATGAAGTTGAACCATTTACTGAGAAAATCAAGGAAGTTGTGACCTATGTGCCTCCAGAAAACTTGAAAGATATTGAGGAAGATTTAAATTATGAAATAAAATCATTTTTGAGTAAATTGCCTGTACAAAAGCAAAAAATAACGGATGATCATGTAGATCAACTTAGAGATGACTTACACGATTTGGTAAAAGATAAAGTGGCAAAAAATACATATCGAAATGCTTCCCTCCCTGACACGAGAAAATTCTCTATCAACACAGAAGGTATTAAAGATGCTATTCTAAAATGGTCTGAAAATTTACCATTCCAACCGGGAAAGAACATAAAACATGCCCAACATGAGGTAGAACCATTTACTAAGAAAATTAAAGAAGTTGTGACGGACGCACCTCCAGAAAACTTGGAAGAACTTCAGAAAGATTTAGATAATGAAATCAAATCATTTTTGAATAAATTGCCCGTACAAAGGCATAAGATTACGGACGATCATGTAGATCAACTTAGAGATGACATACACGATTTGGTGAAAGATACAGCGGCAGAAAAATCCTATCGAAAAGCTTCCAAGCCGCCTGACACGAGGAAATTCTCTATCAGCGCGGATGGTATTAAAGATGCTATTCTAAAATGGTCAGAAAATTTACCATTCCAACCTGGAAAAAGTATCAAACATGCGCAACATGAAGTTGAACCATTCTCAAAAAAAATTAAAGCAGTCGTTACAGATATACCTCCCGAAAACTTGGAAGAAGTAAAAGATGATTTAGATGCAGAAGCGAAATCGTTTTTAAATAAAATACCTATACAAAAGCACAAAATTACAAATGACCATGTAGAACAATTTAGAGAAGATATTCACGATTTGGTAAAAGCTGCCGCAGCAGAAAACAATGCTACTTTTGGTAAAACACCAGTTAGGAGAAATGTTTCGATAAGTGCCGATGGCATCAAAGGTGCTATTCTTAAATGGTCTAAAAACTTACCATTCCAAACAGGAAAAAGTATAACACATGCTCAAAATGAAGTAGAACCATTTTCGGAAAAAATTAAGAGAGTCGTGACAAATGTACCTCCAGAAAAATTAGAAGATATTCAAGAGGATCTTGAAAATGAAATTAAAACATTTTTGAATAAATTGCCCGTACAAAGGCATAAGATTACCGATGATCATGTTGAAGAACTAAGAGATGAAATAAATGATTTAGTAAAAGCAACAGGGACAGAAACAGCGAAATATACAGCTGCAAAAAGCATGTCTTCAGAAAAACCTGTTTTCAAAAAAGCAGCAGACGTTCTTTATGAAAACATAGAAAAGTGGTGTGAAAATTTACCTATACCGGAAGGGGATACCCCTGAAGAGAGAGAAAAGATTAAAACAATGAAACAAGAAATTGCTAGTAAATTGATAAACGTAATAGGAGATTTGAATATGAACCCTGATATATTCAACGACGATGAGTTTTATGAAGACGTGCTAAATGATGAAATAGATAACATTTTAAGTTCGATACCGTTTAGCCCAGAGCTGGAGGACAATTTGCCTGCTCTTAAAAAAGATTTGATAGAAAAAATTGATGAAGCAAAACAGATGATAAAAGATGAACATGCCGGTCAAGCTTATAAACAGCAACTTCGTGATGTAATATCTACAACGTTGCCTTCCACAGACAATTTTTCTATTGAAGAACAAGCTCCATTTGAAGTTCTCAAAGACAATCTTGCTGATGCTTATATTGAACTGCATCACGCGGCTGAAGACGACGAAACGAAAAAGAAATTAAAAGCTAAAATTAAGGAAGAAATTGATCAGTTCTGCAATGAATATTTGAAACAATATCCGAATGCTCCCCTTGATACAAATAAACTTAATAGAGATCTATTTAACGCGCTTCAGAAAGTTCCAGTCCCAAAAGATGAAACTATAAAAGACCAAGTGGAAGAAGTTAGAATCAAGGATGAGATTAATGAATGGCTTAAAGAGTTGCCTCTGAAAGAGGATGAAACCCCATTGGAACAAATGCAGAGGAATAAAATAGTATCTTATTTGGCTAAACGCTTGCACGATATAGAAAAGGAGAAAGAATTCGACTCAGATATTGACGTAGAAGATCGAATGAAGAAAGAAATAAACAAATGGATTAAAAAGCTTGCAATCGAAGAAGTTAATGAAGAAGCGATTGATGAAATGGCCTTCGCCTCCACCGTGTGGTTCTCCTCTGCAAACACGACCATGTCCAAAAATGTCTGA
Protein Sequence: MSASTSSSSSKSPPPMSSLGDVSALLQTAKKYEELNVIGTGAYGTVYKARDLHNGGHIVAMKKVKVALTEDGIPLSTLREIALLRQLEAYRHPNIVRLLDVCHGGQSVDRDHQLVLFLVFEHVEQDLDSFLKRAPGPLSENRIRSMSLDILSGIDFLHSHRIVHRDLKPHNLLVTTSGRVKLADFGLAKTYDTDMKLTSVTNRTSGAARVAGQRVRGGGQLPGLPAAGPGRRAAQHTPTRVGSYQIMAGEGEGMVAVVQGLQDAGLAVTLMSGRRHGRRRSMAPSTKALSQLTHAKSSVETSTNGLPVSSINTAAQICDDRYTSSYQFTSRAADVRYLTDVTKCLRDTLKQICTDNPTTYRQTCPGGPKRCCYCHKPLPCACSRVSVLKFSIDLRSCNCLEEEDFAIKLEEAVDNWLMEIPVFVNENYCDKSIREDMSKELVEKLKELRGDEDFDEKARQAIAECVNSMPMWYPGDKDNQEMFKNQIIDSLIGKLKDITKEEDKFEDAIQKWVDTLNFRSNSRGSIVDRSSVVDELVTRLKPIALNPPVDLRKALKDEIVEVIQKLPVKAEGDKVEFLNIIADNLANELQNIPAKDLGKSASDNLEDEFNKQILKWLEDVPELSSSSAGSIKENQELIGSLAKKLWKLQAQGIDKPVTQEQMENEIVEWLENNVAKKARFDSRAKNKLVEKLMQKLVKVCKQAAEKKEKKSPDAILEDTIQEILDWLEDIPELSGGNQMENIRLVEPLAKKLIELRNQGKDDSELKNEILNWLANAFEDKGEPINVRKQNNLVKDLLGRIKKLPFETDYDENLADSHENMVREILDWLEDIPELASGNKTENMKMIEPLAENLLVLRNQRKDDSELEDQISNWLATAFENKGEPLDIRKQNNLVNKLLGRIKNILDESFVGDNNLAKDILNCFEDIPGFDTSSKENKKMVEELTKKIQNLQLNRSGDPKSKKELEQLVEDLVKNSGLNLTPTAKNDLVQKLMDAIPTVPKQRKRWNKKDNSSKVLNALQEGVCYVLDKSDIPSDNRNELESTLTDILADQVMRGEDDNQTKSRLINALADLDISEDLCXXXXXXXXXXXXXXXLINKTSDSITFRRKSEITPMEKELFQESAEREILDFTQEISGDDSTASRKKWKAVAQELAKNVADIMSEPNTTLAEQREGVEKEIAKYLDDLSLQTELPIDEQASELADKIRQQELVKELAEHLEELCQDGILTKPIFEEIVSTWLEKMLKDASDKYVSGLVEGLQVILVNKDLISFDKEATDRKLSVNAVNTKEAFNKMPTMRRFSVGMKDAISKWSENLPFQPGKDIRHAQHEIEPFTEKIKEVVTDVPLENLEDIQYDLDTEIKSFLNKLPVQKHKITDDHVEQLRDGIHDLVKTTAAKNIGNFEKIPGMRKTSVNADNIKAAVLKWSENLPFQPGKNIKHAQHEIEPFSKKIKDVVMNVPPENIVDVQEDLDNEIKSFLNKLPVQRHKIKEDHVDKLRGNIHDLVKDTAARKPYQNAFKSPDTRKFSISTEGIKDAILKWSENLPFQPGKNIRHAHHEVEPFTKKIKEVVTDVPPENLEELQEDLDNEIKSFLNKLPVQRQKIRDDHVDQLRDGIQDLVKDTASKKSYRNASKPPDTRKFSINTEGIKDAILKWSENLPFQPGKNVKHTQHKIEPFTKKIKEVVTEVPPENLKDIQEDLDNEIKSYLNKLPVQQHKITDDHVEQLRDDIHDLVKAAAAENNATLGENPYMKKFSIDASRIKDAILKWSENLPFQAGKNIRHAQHEVEPFTKKIKKVVTDVPPKTLEELQEDLDNEIKSFLSKLPVQKQKITDDHVDQLRDDIHDLMKDTAAEKSYRKASKPPDTRKLSINADGIKDAILKWSENLPFQPGKSIKHAQHEVEPFTEKIKEVVTYVPPENLKDIEEDLNYEIKSFLSKLPVQKQKITDDHVDQLRDDLHDLVKDKVAKNTYRNASLPDTRKFSINTEGIKDAILKWSENLPFQPGKNIKHAQHEVEPFTKKIKEVVTDAPPENLEELQKDLDNEIKSFLNKLPVQRHKITDDHVDQLRDDIHDLVKDTAAEKSYRKASKPPDTRKFSISADGIKDAILKWSENLPFQPGKSIKHAQHEVEPFSKKIKAVVTDIPPENLEEVKDDLDAEAKSFLNKIPIQKHKITNDHVEQFREDIHDLVKAAAAENNATFGKTPVRRNVSISADGIKGAILKWSKNLPFQTGKSITHAQNEVEPFSEKIKRVVTNVPPEKLEDIQEDLENEIKTFLNKLPVQRHKITDDHVEELRDEINDLVKATGTETAKYTAAKSMSSEKPVFKKAADVLYENIEKWCENLPIPEGDTPEEREKIKTMKQEIASKLINVIGDLNMNPDIFNDDEFYEDVLNDEIDNILSSIPFSPELEDNLPALKKDLIEKIDEAKQMIKDEHAGQAYKQQLRDVISTTLPSTDNFSIEEQAPFEVLKDNLADAYIELHHAAEDDETKKKLKAKIKEEIDQFCNEYLKQYPNAPLDTNKLNRDLFNALQKVPVPKDETIKDQVEEVRIKDEINEWLKELPLKEDETPLEQMQRNKIVSYLAKRLHDIEKEKEFDSDIDVEDRMKKEINKWIKKLAIEEVNEEAIDEMAFASTVWFSSANTTMSKNV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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