Basic Information

Insect: Cyclargus thomasi
Gene Symbol: NSD
Assembly: GCA_026546445.1
Location: JAOTAV010094323.1:1-9811[-]

Transcription Factor Domain

TF Family: HMG
Domain: HMG_box domain
PFAM: PF00505
TF Group: Other Alpha-Helix Group
Description: High mobility group (HMG) box domains are involved in binding DNA, and may be involved in protein-protein interactions as well. The structure of the HMG-box domain consists of three helices in an irregular array. HMG-box domains are found in one or more copies in HMG-box proteins, which form a large, diverse family involved in the regulation of DNA-dependent processes such as transcription, replication, and strand repair, all of which require the bending and unwinding of chromatin. Many of these proteins are regulators of gene expression. HMG-box proteins are found in a variety of eukaryotic organisms, and can be broadly divided into two groups, based on sequence-dependent and sequence-independent DNA recognition; the former usually contain one HMG-box motif, while the latter can contain multiple HMG-box motifs. HMG-box domains can be found in single or multiple copies in the following protein classes: HMG1 and HMG2 non-histone components of chromatin; SRY (sex determining region Y protein) involved in differential gonadogenesis; the SOX family of transcription factors [1]; sequence-specific LEF1 (lymphoid enhancer binding factor 1) and TCF-1 (T-cell factor 1) involved in regulation of organogenesis and thymocyte differentiation [2]; structure-specific recognition protein SSRP involved in transcription and replication; MTF1 mitochondrial transcription factor; nucleolar transcription factors UBF 1/2 (upstream binding factor) involved in transcription by RNA polymerase I; Abf2 yeast ARS-binding factor [3]; yeast transcription factors lxr1, Rox1, Nhp6b and Spp41; mating type proteins (MAT) involved in the sexual reproduction of fungi [4]; and the YABBY plant-specific transcription factors.
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 5 0.0088 6.6 7.6 0.0 11 44 963 996 958 998 0.88

2 5 0.16 1.2e+02 3.5 0.0 11 39 1634 1662 1630 1671 0.86

3 5 0.00064 0.48 11.2 0.1 8 42 1874 1908 1872 1918 0.86

4 5 0.042 32 5.4 0.2 8 42 2064 2098 2055 2110 0.86

5 5 7.6 5.7e+03 -1.9 0.5 44 63 2293 2312 2291 2316 0.81

#	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	5	0.0088	6.6	7.6	0.0	11	44	963	996	958	998	0.88
2	5	0.16	1.2e+02	3.5	0.0	11	39	1634	1662	1630	1671	0.86
3	5	0.00064	0.48	11.2	0.1	8	42	1874	1908	1872	1918	0.86
4	5	0.042	32	5.4	0.2	8	42	2064	2098	2055	2110	0.86
5	5	7.6	5.7e+03	-1.9	0.5	44	63	2293	2312	2291	2316	0.81

Sequence Information

Coding Sequence: ATGGAGGAATCTGAGGACAACTTAAGCGCCGAGGACCTTAATAACACAAAAAGCCCTGCTGTCAAAAGTAAACCGAAGAAACGCTCACTTGTGGAAAGAGAATTAGAAACTAGCTTAACCGCAAGAGTGATCTCGCCAATATCTGTCGATGGCTGCAGCACCAGTCGCTATGGTAGAGCGCGAAAGCTAAAAAATGAAAACGCCGAATCCGAGAAAGCTGCAAAAACCAAATCACCAAAAACTGAAGTATCACCAAAATCGGAAGTATCACCAAAATCCACAATACAGTCCCCTGTTTATAAGATGCATGCATCAAACTCACCTATAAAAATGGATGCACAAAAATCTGAGCCTTTTGAAAGTCAAATTGAGAATATTTACTCAGAAAACATTGCCTTGAGCCGTTTTGGTTCAACAGAAAAGAAAATATCTCCATCAAAAAGGTATCCTAAAGTTTACATCAGGAAAGATTTAATACAATTAAAGGATAAGGACAAGGAATCCGAAGAAACGGTTGTATTGATAAAAAATATGTTTTCTCCTGTAAAAAGTGCACAGAAATCGAATCGGTCATCTCTTGAACGATCTCTGGAGAAACATGGGAAGAGAAAATTATCAAGTAAAGAAACACAATCAGTCGTCAAGACCTTAGATTTTGATGAAAAGGGCAATAAAAAGGAGGATGATAAAAATAAAAAAGATACAGGTAAAACGGATCTCTCTAAAAGTGAGATTTTCGAGATTGAGGCCAAATCAGTATATCAGGTTGGTGATTTGGCCTGGGCCAGAATGGGTACATATCCGTTTTGGCCTTGCATTATTACTAGGGAGCCTGGAACAGAATTGTTTGTTAAAACTAAATTATTTGGGCGTACACTTCGTAACATATTGAATGTTACATTCTTTGGAGACAATGGTCGGAGGAGCTGGATCACGGACAGCATGCTCAGACCATTCCTTGGTCAGCTAGAATTTGAAAGTACTAGGGCACATTTTACAAATGAAGCAAAGAAAAAAGACCCAAAATTGTATGCCGCCTTCTTTATATCTGAGAGGAAGATGCCCCAGTGGCTATTGTCTGTAGAAGAAGCGGAAACCCTGTTGCGAGAACCAAAAAGGTTACGGATCGACATTTTGAATTCTATGCTTATGAAAGTATGGCCTGAGAAAGTAACACCTAAGAGTGATAAAGGTAAGAAAGTAGCAAGGACAGATAGTGATGTTTCACTTAGTGAAAGCCTGTATGATACACTGTTTTCAGAAGATGATACTAAAGGAAATGATTCAGAGAGGAAAAACAAAAGAAAACAATCTCTCGACGTGTCTGACGTAGTTACAGCCTGCCTTGATAACATGGCTGCTAAGACTGGCATCACCAAGATCCAAAAACAATCTCACATGGACAGATGGTTACTCAAAGCTAAAACAAAAACACCAGAGAAATCTCAATTGAAATCTCAAGTAGTACAAAAACCTGCTAAAACTAGTGCCAACACCAATAAGCTTGCACCAGGTACTTCACAAAAACCGTATCGATTTAGAAGAAGCAATAACGAATCTCAGGGAAGTGATAGTAGTAAATTACAAAACTATACTGAACCATCTACATCATCGAATTACAAGTTAGCTTCAGTTTCTAATGATGCAGTAGAAAGATCTAATGAGGGACTAAATAATGAAATAAGTCAACCAGAAATTGTATTTGATACTACAAATGATAACGATGTTTTTAAAAGTCCATTATCTGAAACAGAAAATAGGGTTTCAAGGGAAAGTAAAAATGTTCTAAATAAAATTAAACAAAGCATAGATTCTGATGAAAACATGCCTTCGACGTCTAGCATGGAGATTTCTGGGTTGTCGACTTCTTTTGAAATTAGTAGGGTTGATGCCCATTCCAGTGACAAAGATATTGCAGAGACAGATTGCAATGAAAGCTTATTTAACAAAATTAGTGGAAATATCGACAAAATTCAACCAGTCACTAGCAGTCCCAAGAATGACGGCCCAGATAATGAAATGCCTGGAGAATTTTTTAACGACTTGAGTGAAAAGGCACATAATAAATGTATCAAAGATATTAGTACAGGCGATGAATCTACGAAAATGCAAGTAAAAAATTGTACAAAAACTTATAATCATAAATCAAATGAGTCTGAAATTAAAGAAAATAATGAAAGTAATATAAATTTAACGTACGATATTAAAGGAGACACAAATATTATTAATAGTAGCAACATTCCAGGAAAAGTGCCTCAAAATTTTCGTAAGGATAAAAAAATCAAGACAAGACAAAAATGTATACATACAGAAATTAATGACATCAAAGGATCGGATTGTACAGACGAGAAATCGATAGTATGTAAATTGAATACGCGTAACACAAGATCAAGAAAAATAGGTAAATCGGATATAAATATTAATATAGGATTGGGTAAATCAAGTAAAATCAATAATGAAATTCATGAAGCTCTTGTTTATAAAACTAAAGATATATCAAATATTATTGAACAAAATTGTGACAGAATTAATCATGTAAATCACAAACCTATTATGAATATTGGAGCAAACGATGTTCACATAATAAGCCGAGAACAGAAAGTTGAAGGAAAACACAAGGAATTGTTTTTAGATAACAAAAAACAAGAAATAAGTCACGAAACGACAATTAGATCTAAAGAAAGTAAACATCATAAACTTACTAACGGAATCGAAACGTTGCTTACATATGATACGAAGTTAAAAGAAAGTGATATTTTAACTCCCTCAAAAGAACCTTTAAGTGAGCCGAAATGTGTAGAACCTTCAATGATTGATAATTCTCCTATTAAGGAAAAGCCTAATAGTGATTTAAAAGTTGAATACAATAATCCAGAGTTCCAAAAATATTTAGAACTAAAGCAGGATAATCTAATGGATGAATATCCTGGATTATCACAAAATGAAATAACCTCATACTTATATAAAACATGGCAATATGAAACAAGGGATATACTGAATATTAAATCTATAGGTAACGATAACATAGGTCCAATTAAAGGTACAAAATATAAAGTTCTTGATAAAGAGAGAGGAAAAATAGAATTAGTTCGAATGAAACCTAATGACGATTCGCAAAATAAAAATATTTTATCACCTACTTATAAGTCCATGGTTAACAGATATCACAAAATGAAGCCTATTATCATCTCACCCAAAAATAAAATAATATTCTTGCCAAAAAAATCCATCACCGAATCAGTCAAGAAAAATATAAGTTTCACTGAATTTAAAATTGGTACACCTATTATAGCAGAGTCACAGACTCATATAATCGAAAATAAAGTAAGTATATCTTCTGAAGGAGATAAGGTGTCTAAAGAGGCGAGTAACTCTGATACGAACAATGCAAGCTCAGAGTTGAACAGTGTGTCCAAAGTGGGAAATAGTTCTCCAATGCTATTGGGTGATAATAAAGTACAAGTAACACACAAATTTGAAAGCAATAGCAGTAAAAACATAAAGAAGCCAGAAAAAGAAAAAAAGCTTTTAATCACACATAACAGTACAATATTGATCAATAGTTCTAATACAGATAACAAATTAACAACTGTGCTACATTCACCGGAAATTCTACAAAGTGAGAACTCACAAGGAACACCAACAGTAGACAAAAACGAAAATTTGACACTTGCTGAAAATAAAGGAAATCTTTCGCAAAATGGATTAAAAAATGTTATTCTGACTAAAACTGAGAGAATGGAGCAAATCACTGACAATGCGGATAATAAAAGTCTAAAACATATATACGAGCAAAATGAACATGTAATTGAGTCTAAAGTAACAGCAATACCGGCTAGTAATTCAAACACTAAGACTATAGGAACATCGCAAAATATAAACACGTTACATATGTCTCCTGAAAATTGTAATTTATCGCCAACGATTTCAATGAAAAATTTAGCTAAACACCTTGTGGAGAATAAATCGCACATTGTAAGTTCTTTAGAAAATAAAGCTTCGTCATCAAAAAATTGCAAACTGAACGAAACAGAAGTCCTAAGTAATGGTAGCTTTACAAAAATCGAGGAACACGATTTAAAAATAATGCACATCAGAGCGAATACTTCTGATAATTTTGCTGCAGCATCTTCGAGAAAAACAGGAAAACTAGATTCCGAGACACATAATACCTATATATTACAAAATGGAAATGACGTTTATGATACTATAAGTACAAATAAAGGAAATAGAGGTATATTGGAAAAACATAAAAACGATGTAGCAGACACGTTGCAAAATTTTGAAGGAGAAAACAAAGAACATACAAATAAAGTATTAAACATACAGGATAAATGCAAATATAGAGAAAATAGTATCCAAGAAAAAGCAAAGATTACAAATGGATTCGAGAACCCCGAAAGTGGTACACAGTATAATAAAAAGTGCAGTACAATTAGGGAAGAACATAATATAGATAATGTAAATATAATAACGAAAACTAGCGACAAAAACAACTCCATTAGTAGCATAACTTGCGATAGCAAGGAGGTAAGTAAACCAACCCTAGAAAATAATATAGAAAAACATTCGATAATTGGTGACAATGAAAGCACACACAATAGCATAGAATATGTTAAAAAGTGTGCAAAAATGGACGTAGATGATAACATAGAAGATGAAAAATTGCCAACAGATTCAAGAAACACCAAATCTGAGATTAAAATGAATAGTCATTCAGAAAATTTTACTTCAAATAGAACATCGAATTCAGACATAAAAACGAATAGTCCCTCAAAAAATTTAACAATATCTAACACAGATATTGAAGACCAAAAAAGTAATGTTGAAAAACGAGTAACATCTTTAAAAAATGATGAATCGACAACAGATGTACAAGAAAATCCAGATTTCCGAAAGTACTTAGAATTAAAACAAGATTCTGTGATTGACGAAAATCCAAAGCTTTCCCAAGACGAAGTTGTTCAATATCTGTATAAAACGTGGCTCTACGAAGAAAACAATAAATGTGACAGAAAAAAAACCGATAATGTAGATCAGACTAGTCTTGTTAAAGGTGCATTCATTTTAAATGGAGAAAAAGACAGAAAGAGAAGAAAATTAAGTAGAAAGAGGCCCAATAATCCAATAGACGCAAAGAAAAAACAACCGACGATCATAAATCACTTTTTTAAACATAACGAGTACCAGGAAGAACATCAAAAAACTTTAGACGCCAAAAGTCACCTTCAAGCTATGAAATCAAGTTCTAAAACCGAATTTCAACAAAGTGACTTATCTGAAAGTAGCAAGGATTCCGATTGTAGAAATAATAAAAGTGATGTAAAAATTATGAAGGAAGAGTGCCATATTATCAAAAGCAATACTATCAGTACTTTAATTGATAGCGAAGATAGAAATAACCGAAACTTAAATGAATCAACTGATTATGATGACCTGCCTGAAGATTATGACAAAATCTCGGTAAACGAAGATATTACGAATGGCGATGTAAATTTTGATAGTGAATCTAGTAGTTCAACTGAGAGTGAAAGCAAAATGACACTTAGTAAGAAAAGGCAACTAATAAAACAAAAACGTACAAAGAAAGTCGATGAGAAAGCTTTGATGGAACCAGAGTTTGTAAGATACTTACAATTAAAACAAGATACTGTTATTGATGAGCATCCAGAGCTGTCTCATGAAGAAGTTGTTCAATATCTGCACAAAACATGGCTTTACGAAGAGAATAATAAATCTGAAAAGAAAATAACTGATGAAACAGATCAAACTAGTTTAGTTAAAGGTGCAGGCAGTATTTACTCTGAAAATGATAAGAAAAGAAAGAGGCTGAGTCGAAAGAGAATCAGTGATGCTTCTGAGGCGAAGAACAAATCCCCTACAATCATCAATAAATTTTTGATGCAAAATGGATCCCATGAATATCATAAAAAATCTTCAGAATCTAATGATCTTGAAGTTACTAGTCTTAATACGGAATCTCGTCCTCTATCTGTAAATGAGGCAGAAACTATAGAAGAAAAAGATGACAAATCTCAGAATGAGGAAATATTAAATAATGATGCATTGCATAATACGCCATCCGATTCTTCGGAGAGTGAATGTGAAATTTCACTTAGTGAAAGAAAACAAACCTGGAAAGAAGAACGAACGCAAGCTGAAAAAAAGAAAGCTCTAATGGATGCAGAATTTGTGAGATATTTAGAATTACGACAAGATTACGTTATGGATGAGCATCCAGAGCTTACTGAAGAAGAAATTACTAACTACTTGTATAAGACATGGCTGTATGAGGAAAAAATAAAAAATGACAAAAAAATAGAAGATGAAATAGACCAAACGTCCCTTGTGAAAGGCGTTGACTTGGAACCAAAAAAGCCGAAAAGAAAATATAAAGTACTGAAAGAAGATTCCCAAGAAAGTTTTAAGGTTTCCGAAGTATTTAATGTAGAACCTAAAGAGAAATCGAAGAGGTCTAAGGACAGACCCTACTATAATGAAGAAATTTCGGATATTGAGGAAGAGCTAGCTCTATTCGAAATATTCAGAAAGAAAAAGCCTAACAAACCGAATGTAGACCAGCAAGTTAATTCGAGTCAGCCAACTCAAGAAGTGGATTTGACGCATGAGGAAGATATAACAAATATTGTAGAAGATTACGTGTACGATGAAATGGATATGGTGGAAATGTATTTCGAACAACTGACTACCCCAAAACCAAACGTATTCAAGGGCCTAGTAAGAGAAAGAGTTTGCGAAACATGCGAGAAAGTCTCCAATCTAGTGAAATGCAAATCTTGCCACGGTATGTTCCATGCGGACTGTGTTAAAAACCAACACAAGACACCAACAGAGGAAAAAACTCCGAGTAGAGGTAGAAAAAAGAAAAAGAAATATCAAAGGAGAATCAAAAATTCAGATGAAACATTCATGGACGACGGCGCTCATAGTGACGATAAGACACAAGATGGATATTCTGATCCAAACTTATCACTAGAAGCTGAAAGGGAACCAATAGTGGCTGACGCCGAAGACTTCGAAGCGAAGGCATCAGCTAAAATGAGAGAAATTCTTGGAGACCTGGATAAAGTATCATACGAATACGAGAGCACGAACGTAGCGATCTCTTGGAACGCGGGTCCAGGAAAATGCCAAATAGTAGACGTGAAGCTCGAGATTAAGAAACCAGAAGAAGTCGTAGATACATCCAACTTCAAATGCAGAGACTGCGAGAAGCTTGAGACGCCTAAATGTTTCGTTTGCAAGTCGCCAGTTTCGCCGAAACAGTGCGTGGAGTATAGACAGAAGTGCCAAATCGCGCACTGTCATAAATATTACCACGAGGAGTGCTTGGCTCATTGGCCCCAAACTCAGTTCAACGGTGGTGACGTTCGGAACAAGAGTAAGGAAGGGTTTGAGGCCATGTCTTGTCCTCGTCATGTTTGTCATACGTGTGTCAGTGATGATCCAAGAGGTTGCAAGACTAGATTCAGCGGGGATAAGCTAGCAAGGTGTGTGAGATGTCCGGCCACATATCACACGTTTACGAAATGTCTCCCGGCTGGCTCTACCATATTGACCGGCTCACAGATCATATGCCCCAGACATTATGAGCACAG
Protein Sequence: MEESEDNLSAEDLNNTKSPAVKSKPKKRSLVERELETSLTARVISPISVDGCSTSRYGRARKLKNENAESEKAAKTKSPKTEVSPKSEVSPKSTIQSPVYKMHASNSPIKMDAQKSEPFESQIENIYSENIALSRFGSTEKKISPSKRYPKVYIRKDLIQLKDKDKESEETVVLIKNMFSPVKSAQKSNRSSLERSLEKHGKRKLSSKETQSVVKTLDFDEKGNKKEDDKNKKDTGKTDLSKSEIFEIEAKSVYQVGDLAWARMGTYPFWPCIITREPGTELFVKTKLFGRTLRNILNVTFFGDNGRRSWITDSMLRPFLGQLEFESTRAHFTNEAKKKDPKLYAAFFISERKMPQWLLSVEEAETLLREPKRLRIDILNSMLMKVWPEKVTPKSDKGKKVARTDSDVSLSESLYDTLFSEDDTKGNDSERKNKRKQSLDVSDVVTACLDNMAAKTGITKIQKQSHMDRWLLKAKTKTPEKSQLKSQVVQKPAKTSANTNKLAPGTSQKPYRFRRSNNESQGSDSSKLQNYTEPSTSSNYKLASVSNDAVERSNEGLNNEISQPEIVFDTTNDNDVFKSPLSETENRVSRESKNVLNKIKQSIDSDENMPSTSSMEISGLSTSFEISRVDAHSSDKDIAETDCNESLFNKISGNIDKIQPVTSSPKNDGPDNEMPGEFFNDLSEKAHNKCIKDISTGDESTKMQVKNCTKTYNHKSNESEIKENNESNINLTYDIKGDTNIINSSNIPGKVPQNFRKDKKIKTRQKCIHTEINDIKGSDCTDEKSIVCKLNTRNTRSRKIGKSDININIGLGKSSKINNEIHEALVYKTKDISNIIEQNCDRINHVNHKPIMNIGANDVHIISREQKVEGKHKELFLDNKKQEISHETTIRSKESKHHKLTNGIETLLTYDTKLKESDILTPSKEPLSEPKCVEPSMIDNSPIKEKPNSDLKVEYNNPEFQKYLELKQDNLMDEYPGLSQNEITSYLYKTWQYETRDILNIKSIGNDNIGPIKGTKYKVLDKERGKIELVRMKPNDDSQNKNILSPTYKSMVNRYHKMKPIIISPKNKIIFLPKKSITESVKKNISFTEFKIGTPIIAESQTHIIENKVSISSEGDKVSKEASNSDTNNASSELNSVSKVGNSSPMLLGDNKVQVTHKFESNSSKNIKKPEKEKKLLITHNSTILINSSNTDNKLTTVLHSPEILQSENSQGTPTVDKNENLTLAENKGNLSQNGLKNVILTKTERMEQITDNADNKSLKHIYEQNEHVIESKVTAIPASNSNTKTIGTSQNINTLHMSPENCNLSPTISMKNLAKHLVENKSHIVSSLENKASSSKNCKLNETEVLSNGSFTKIEEHDLKIMHIRANTSDNFAAASSRKTGKLDSETHNTYILQNGNDVYDTISTNKGNRGILEKHKNDVADTLQNFEGENKEHTNKVLNIQDKCKYRENSIQEKAKITNGFENPESGTQYNKKCSTIREEHNIDNVNIITKTSDKNNSISSITCDSKEVSKPTLENNIEKHSIIGDNESTHNSIEYVKKCAKMDVDDNIEDEKLPTDSRNTKSEIKMNSHSENFTSNRTSNSDIKTNSPSKNLTISNTDIEDQKSNVEKRVTSLKNDESTTDVQENPDFRKYLELKQDSVIDENPKLSQDEVVQYLYKTWLYEENNKCDRKKTDNVDQTSLVKGAFILNGEKDRKRRKLSRKRPNNPIDAKKKQPTIINHFFKHNEYQEEHQKTLDAKSHLQAMKSSSKTEFQQSDLSESSKDSDCRNNKSDVKIMKEECHIIKSNTISTLIDSEDRNNRNLNESTDYDDLPEDYDKISVNEDITNGDVNFDSESSSSTESESKMTLSKKRQLIKQKRTKKVDEKALMEPEFVRYLQLKQDTVIDEHPELSHEEVVQYLHKTWLYEENNKSEKKITDETDQTSLVKGAGSIYSENDKKRKRLSRKRISDASEAKNKSPTIINKFLMQNGSHEYHKKSSESNDLEVTSLNTESRPLSVNEAETIEEKDDKSQNEEILNNDALHNTPSDSSESECEISLSERKQTWKEERTQAEKKKALMDAEFVRYLELRQDYVMDEHPELTEEEITNYLYKTWLYEEKIKNDKKIEDEIDQTSLVKGVDLEPKKPKRKYKVLKEDSQESFKVSEVFNVEPKEKSKRSKDRPYYNEEISDIEEELALFEIFRKKKPNKPNVDQQVNSSQPTQEVDLTHEEDITNIVEDYVYDEMDMVEMYFEQLTTPKPNVFKGLVRERVCETCEKVSNLVKCKSCHGMFHADCVKNQHKTPTEEKTPSRGRKKKKKYQRRIKNSDETFMDDGAHSDDKTQDGYSDPNLSLEAEREPIVADAEDFEAKASAKMREILGDLDKVSYEYESTNVAISWNAGPGKCQIVDVKLEIKKPEEVVDTSNFKCRDCEKLETPKCFVCKSPVSPKQCVEYRQKCQIAHCHKYYHEECLAHWPQTQFNGGDVRNKSKEGFEAMSCPRHVCHTCVSDDPRGCKTRFSGDKLARCVRCPATYHTFTKCLPAGSTILTGSQIICPRHYEH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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