Silkworm Genome Informatics Database

Gene

KWMTBOMO14150

Pre Gene Modal

BGIBMGA011407

Annotation

PREDICTED:_histone-lysine_N-methyltransferase_eggless_isoform_X1_[Bombyx_mori]

Location

Bomo_Chr23(+):19339586-19373555 View in EpiBrowser

Transcription factor

MBD

Location in the cell

Nuclear Reliability : 3.921

CDS

ATGGAGACGGGTGACGAAAACGTTGGGAACACTTCAACGAAAGATGATAAACCTGATGTAAGCTCAATTCCGGAGAAGGGAAATGAGCCAAGTACTGCAGATCAAGAAGACACCCAAGAAAAAATAAAATCACAATCAATTGACAATAAACCGGTTAATGAAAATGAAAACCATATAAATTCTAAATGGCAATGTGAAGCCACAACTGATATTGATCTTCAAGAAGAAGAACTCTTGCTGAGATGGGATGAGAATGATGAGATATCTAGTGTAGAACTGATGAATATTGAGGATATTGATGAGGAATATAACTTAGAGTTTTCTGAAATTAAGGATGATGATATCAACAAATCAACAGACCAAGAAGTTAGTTTGATAAAGTCAAAAGCTGGAGTTCACTCACCTCTTGTAGAAACTGGCACAGGAAGTACAGCTGAACAGAAAGTATTTGAATCATACAGTAGTCGAGAATCAGGTGATGTCACTTCTAATTTGTCCACTGGGAATACTAATCCCACAAAAGAGGAGAACGACTCTGAGAATCTGAAAAATGTTCAAGCTCTTAAAGATCAAAGAAATAGTAGTGTTATTGAATATAATGAAATGGCATCAGATGTAGACAATTCGAATTCAGAAACTACAACTGAATTGTTGGACTGTGTTACTGACATAAGTGGATCACAAATTGTGAGGAAAATTGATGAAACCGTAGCAGCTGTAAGTGAACCAGTAGGCGATAGTCGCGATAACCCCGATAATATTTCAGTCAACAAATCAAATCAACAACATACAGAAATCATGTCCAAAATTGTAACGAACAATGAAAATATAAAAATATCCGCTAATAGTCAAGCAGATAGTCTGATAATTGGGATTGAGAAAGAGAGTACTGATGGACCTTGGACATCAACAGAAGAATCAGATTTGGCAAATATTCCTGAAACTCAAGAAAAAACTACAAAGATAGTCGTCAACCTAGGTGAAAGGCAATCTGATAATTCTGATATGGATATAACAGGTAATGTTAGTGATTTGGCTAATTCAACTAAAATGGTACAAGTTGAAGATGATCTTGATAAAGTCAGAACTACTGAAAACATTTATGAGCTAAATAAAGTATCAATGGCAGAAGACAGGAGTCAAATTGAAACCAAACTTGAAGTTATATCTCAAACTCAAACCACAGAGACGGCAAATTCTCTAAGGATGATAACTAATAATGAAAAAGCAGAGGCTATTCAAAAGACTGATGTTATTGGTGACATTGATAATTTTATCATTGATTCAGTTTCAAGTGAAATATCAAATACAGCGAATATGGTCCTGAGTGATGTAACAGACGAAAGTGATATCCTTGCAAATAGTAAAATTACCATTGCTGAAGGAACTAATGACGAAATCAATGTACCACAAAGTGAATCAGTTTCAGATAGTAGTGAAATTATAACCACATATGACGAGATCTTAAGCTCAAGCTTAGGTAAAAGTCAAGTTAAAAATAATACTAACTACACTAATATTCCATTTGATGCTTCAAACGATAAATCTAGAGAGACCTCAGACAACAGTCAAATCGAAATTGTCGAAGATAATGATCTACCTGCAACTGCGGAACAAAGTAAATTGAAAGAATCTAGATATAAAGCTTGTGGCATTAATCACGTAGACGAAGCTTTATCAAACGAATCTACTGATATTAAAGCTGTTAACAATGTAGTTGGTATAAGCTCTACAGGTACTGATCATGACAAATCCATTGAACAAAGTAGTATTGTAATATACGCTGAAAATAAAGAACTCACTTTAACGGATGAAACTAATAAAATTACGGTCACTGGTTTTCCTAATGATATTGAAATGGAGTTATGTGAAACTGAAGTTTCTATGGGAATGTCAGCACAGGAGAATCTAGTTAAAAATGAAAATATAAGCAATAAAAGTGTTGTAAATTCACTACAAATTCCTGAAGATAATCAAATGAAAATTATCGAAGCGAATATCGCCGAAGGTGTGGTTTCAGATACAGCACAACACACACATCAAGTATTTCAATCTGAAGCGAAAACTGATGAAAATACACTAATTTCAAGTGAAAATCCAAAGGGTGATCAATATGATAGTAACGTTGAGAGAGCTAACTTTACTGTGAGCATTCCAAATGAAGCACAGAGCCCTAAAAACATGACTCAAGATGAAATCGAAATTATTGCAGATTCAAATAATACTTCAAATGAAAATGTATTAGAGCCAACTGGAGTTAGTAGTGCTATGGGTGAAAATTTTAGCCAAAAAGCTGACTTGGATCTTGTGGTGTCTAGTGAGATTTCGGATAAAGATGATAAAATAGTACCAATCGTTAGTGAAGACCAAAGCGAAGTGATTACAACTGCTGAAGTTGTCAATGAGGATTCCGAAGAGAATGTCAACGCTTCTAATGATAAACTCACTAGTCTGGGTGCTCATTTGACTTCCCTCGCAGATGTATCTACAACTCTGCCAATCAGGGCAAATTTGGAACATGGTTTGAACCGTCCAAATGCCATGCTGGAGATACCGACCCAAGAGTTGATAGACATCGATGATGCCGAAGACAGCAGTCAAGCGGCATCTGATGATGGGAATCTCAATAATACAATAAATATCACTCAAGAAATTAATGATAGACTTGAATATAGGGATACAGATAATAAAGTTCCTTTAGCAGAAACACTTACTATAGATACGACTGAGAATTCAGATAATCCTATGTACACTAAGACTTCTGGTCTTACACGAAATACAGAAAAAGCTGAAAATCGGCCTGATAATGATGTCTCTAATGAAAATGTCACTTCCGATTTTAAAGCTGATTTTAAAAATAGCGATAGTGAAAATTCTAAAAATACTGATGATCATATGGATGTTGATATGCCTCTAGAAATAAATAATGCTGAACCCATATTGACTATATCAAAGAACTTAAACCCTGTAGGAAATGTGTCGGAAATGAATCCAAATGTAGACACGATATCTACTCGTGATTTAGATATAAATAAAACATCTTTGGGCGCTGTGAAAGATGTTCTTATATCAGAAACAGTAGAGCCTAAACCGTCGACTTCAAGAGCAGCAATGGAACCGGCGGGTAGTCCAGAACTGAAAGAATTGGCTCCTTGTACACCAATGAAGCAGGACGAACAAAGTGCTCTTGAACCTAAACCATCAACTTCCAAGGTCATGGTTGAATCAGTGTTGTCAGAGGCGACGGACAGTCTGGGGTTATTGGCAGAGTCATCGAGGATGGACGAAGATGAAGAAGAGCCGGATGATGAAGACGACGGGGAGGATGAGGACGATTTTGATAATGATGAGAGCAGTAATCAAATGACAGCGTATAATTCTGAAGACTCAAACCATCAAAATTCGGACCCCGACTGCGGAAGGGAACAGACCGAGAGCGGCGATACGACTAAAGATGAGAGTGAGAAGGACGGCGTTATCGCGACGAACCTTAACACAGTAGAGTCTGAAGAGATCGAAATACAAGCTGACTCCGATGAGAATGTCAGCGATGAAAAGTGCACGCAAGAGGCAGAGGGCATCAGCCAAAAAAATATCGAGGAGACTGTCGCGGCGGTCCAGTCGATCAATGAAAACAAAGAAGTTAATGACGGTTCAGGTTATATCGAGACAGTAAAGCTATCGGATACGTCGGACAATGAGCTCGATGGAGCTTCGAAGGAGATCGAGAGCGGTGTGGACGAGGCTTCGGTCGCACGAGACAAATCTTCGCCGAGTAAGCTGTCCATGGGCAAGAAAAAGAAGCTGGGGATATCTAAAGCTAGACACGTAGTCAATATCGTTGAGGTCGAAGAGAGTTCGTCTGAAGATGATATTCGGCCACCAGAATCGAACGAGGATCCGGATCAGCGATCGGACGTGGCACCGGACGAGGAGGGGGTCACTTCGGTGAACATCCCCAAGGGCATCGAGGTTATGTGCTCCGGGGAAAGTACTTCGGAGCTGGTCGCGAAAGAGGGGGAGATTGTTATAAGCCGTGTTCCGAAACCGCCCCCACATAAACCGGCTCGGTTGAACACCAGTGAAGTTACTATAAAGACGACTTCTGGTTGTGCAGAGTCATCTCTCGTCATACCCGAAACTAAGTTACAGGAAGCGAAGGAAACAGACGCCGATCTAGAAGTCTTCAATTTGGACTCTGATGATGAAGACGGCTCTGCTAAAGAATCGTCGAAGCTGGAGTCCGGTCGCTGCTTGAACCCCGCGTGCCCGGGGCGGGAGGCGGCGCAGCTCCGCGCGGACCGGGCCGCCGTGGCGCACTACTCCGCCAAGACCAGCAGGAACGCCTTCATCTGTCGCCCCTGCTACGAGGTGGTGGCCGTCAGGACAGAGGGTCTCGTGAACGGTCTGAAGAATTTCACTCCGCTGTTCGAAATGAAAATGGAGAAGCAGTCCTTGAACCTGGTGGAGATATCGGATTCCGACTCCGAAGACGAATCCAGCGCGCCGGAGCAAGCCAAGGAGGTTGTCGGCGACGAGGGAGCCAAGTTACTGGAAGAGCATCTAGCGAATTTGATAAACGAAACTTGGAGTAAATACAAGATGGACGCCAGGATGAACGAGGCTCGCAGCTTCGTGGACCTGGAGGTTCAGAAGTTGGAAAAACAAAGCAAGGAGATCGACCAGATGCTGAACGAGTGTCAGGTGGCCACGGACAAGCTGCGCGACTCGCTGTACAAGACCTTCGAGCCGACCAAGCACGACCTGCCCCCCATTTGCATCGTGGACATCGTCGGCTGCTACTACGAGGGTACGGAGCAGTCCCTGGATGAAGCGAAACAGCGTGCGAACAAACGCAAGCGCACGGAGCCGCTTTGCTCGCAGCCGAAGAAGGCGGCCATAGCGCTGGGGTACGCCCCGCTTGACGGAGACCACGCGCAGCCGGACGTGACCCAGGAGAAGACCCCAATAGAAACAGCACCCAACGAGTCGAAGGAAGATGACAGGGAGGTGTCTGTCGTTCAGTTGTCGGCGGAGGTGGCGCCGCCGGACCTCCCCCCGCCCGGGGAGCTGGTGCGGCCGCCCCTCAAGCCGGGCATGGTCGTGTGGGCCATGAAGAACGTCTTCTCCCCCTGGGTGAAGGTCAGGATACAGGACATCGCGCCAAAGTCGACCACAAGCGCGTACACGACCTGCACTGTCAAGTTTGACACGAAAACGAAAAACCCGTTCAGGACCCTGAGTGCGAGGTGTCTCGCGCATTCGGAGCCGCCAAACGCGAGACTCACTATAGGTACGCGAATAATAGCTTTATTCAAGAATACCACTAAGAGCAAAATGGAGAATTACTACTCGGGTGTCGTTGCCGAAATACCGAATCCAGTTAATAATTACCGGTACCTAGTATTCTTCGACGACGGATACGCCCAGTACGTGGCCCATCCCGATACTAGGGTAGTATGTGAGTGCTCGAACCTGGTCTGGGAGGAAGTGCACGCGTTCTCAAGGGAATTCGTCAAGCAATACCTCCTGAGCTATCCCGAGAGGCCGATGGTGAGGTTGCACGCCGGACAGAGCCTCAAGACTGAATGGAACGGAAAATGGTGGATATCGACAATTCTAAAAGTGGACGCGTCCCTAGCTCACGTGTACTTCCAGAAGATAAACAGGACCGAATGGATATACCGCGGCTCCACGCGCCTGGCGCCGCTCTACCTGGAGCTGCAGGCGGCCGAGCGGCAGAGGACCAGGCCGCTGCCCCGGAGCATGGCACAGAGCAAAGTGAACATGCCGTACGTCGAGTACACGCGCTCAGATGAACAAACAAACGAGAAGCAGAAAGAGACAACCGATCAACCTGATGATATACGCAAACAGCGGGCTGTGGCAAAGAAATCGACCGCGCAGCCACAGAGCGCGCCTCCAGTCGAACAACAAGCCAATTTGGACTCTGTCATCAGCCGTGTAGTGTACTACACCCCGAAGAACGCAGTGAAACCTCTCAGGATGACGTCACACACGTGCGGTCCGAAGTGCAAGAGAACCGACGTTCTGGCTCTGAAAGACCTCAGGACCTACAATCCGCTGGCGAAGCCTCTGCTCAGCGGCTGGGAGAGACAAATAGTCCGGTACAAAGGAGTCCGCGACGTGATGTACCGGGCGCCGTGCGGGCGCCGCGTGCGCGACATCCGCGAGCTGCACGCCTACCTCACCGCCACCGACAGTGACATGCCCGTCGACCTGTTCGACTTCCATCCGGCGACGCACTGCCTCGCCGAGTTCGTCATCAACAAGTGTATCGTCGGCAAGAAGGATCTCTCCCACGGCAAGGAGAACGTGCCCGTGCCGTGTGTGAATTATTACGACGAGACGCTCCCGGAGTTCTGCTCGTACAACACCGAGCGGACGCCGACGGCGGGCGTGCCCCTCAACCTCGACCCGGACTTCCTCTGCGGCTGCGACTGCACCGACGACTGTCAGGACAAAGCGAAGTGCGCCTGCTGGCAGCTAACCCTGGAGGGCGCCCGGACCATCGGGCTGGACGGCCACAACGTGGGCTACGACTACAAGCGGCTGCTGGAGCCGCTGCCCTCGGGCATATACGAGTGCAATTCGAGATGTAAATGCAAACAGACGTGCCTGAACCGGGTGGCCCAGCATCCCTTGCAATTGAAGTTACAAGTGTTCAAAACCCAGAACCGCGGCTGGGGCATCCGGGCGCTCAACGACGTGCCCAAGGGCTCCTTCCTGTGCGTGTACGCGGGGAACCTGCTCACCGACGCCACCGCTAACTTGGACGGACTCAACGAAGGCGACGAGTACCTGGCCGAGCTGGACTACATCGAGGTGGTGGAGCAGATGAAGGAGGGCTACGAGGAGGATATCTCGGAGGCTGACAAGAAGCTGGGCGCGGTACGTGCACGCCGGCCCTCCGTGGCTGCTGGTGGTGTGAAGCAGGAATCCGGTGCGAAGGGGGCCAGCTCCGACGAGCACGAGGAGTCCTCGTCAGACGACTACGATTTCGAAGCCGCCTCCAAGGACGAGTCCGAGGACTGCGACTTCCAGCCGGGGTGCCTGGGACTGCCCGTCACCAAGTTCAGTAAAAGATTGAGACAGCGCGCCAAAAAGAAACAAGACGAGGATAAAGAGAAGTCTTCGAAAGAGAAGGAGAAGGAGAAAGAGAGAGACAAGGACAAGGACAAGGACAAGACCAAAGAACCGGCTCCCGGGGAAGATTGCATCACCATAAGCGACGACGACGAGGTCCGGGAGCCGTCCAGGTTCACGGCGCAGGCCGGGATGGGTGCCAACGAGTTCGTGCCTAAACACAGGTCTGTCCGGCAGCTGTACGGCGCCGACGAGGCCTGCTACATCATGGACGCGAAGGTGCAGGGGAACATCGGCCGGTACCTCAACCACTCGTGCTCCCCGAACGTGTTCGTTCAGAACGTGTTCGTGGACACGCACGACCCGCGGTTCCCGTGGGTGGCGTTCTTCGCGCTGTGCCACGTGCGCGCCGGGACCGAGCTCACCTGGAACTACAACTACGACGTGGGCTCGGTCCCCGGGAAGGTCCTCTACTGCCACTGCGGCGCGCCCAACTGCAGGGGGCGCCTGCTCTAA

Protein

METGDENVGNTSTKDDKPDVSSIPEKGNEPSTADQEDTQEKIKSQSIDNKPVNENENHINSKWQCEATTDIDLQEEELLLRWDENDEISSVELMNIEDIDEEYNLEFSEIKDDDINKSTDQEVSLIKSKAGVHSPLVETGTGSTAEQKVFESYSSRESGDVTSNLSTGNTNPTKEENDSENLKNVQALKDQRNSSVIEYNEMASDVDNSNSETTTELLDCVTDISGSQIVRKIDETVAAVSEPVGDSRDNPDNISVNKSNQQHTEIMSKIVTNNENIKISANSQADSLIIGIEKESTDGPWTSTEESDLANIPETQEKTTKIVVNLGERQSDNSDMDITGNVSDLANSTKMVQVEDDLDKVRTTENIYELNKVSMAEDRSQIETKLEVISQTQTTETANSLRMITNNEKAEAIQKTDVIGDIDNFIIDSVSSEISNTANMVLSDVTDESDILANSKITIAEGTNDEINVPQSESVSDSSEIITTYDEILSSSLGKSQVKNNTNYTNIPFDASNDKSRETSDNSQIEIVEDNDLPATAEQSKLKESRYKACGINHVDEALSNESTDIKAVNNVVGISSTGTDHDKSIEQSSIVIYAENKELTLTDETNKITVTGFPNDIEMELCETEVSMGMSAQENLVKNENISNKSVVNSLQIPEDNQMKIIEANIAEGVVSDTAQHTHQVFQSEAKTDENTLISSENPKGDQYDSNVERANFTVSIPNEAQSPKNMTQDEIEIIADSNNTSNENVLEPTGVSSAMGENFSQKADLDLVVSSEISDKDDKIVPIVSEDQSEVITTAEVVNEDSEENVNASNDKLTSLGAHLTSLADVSTTLPIRANLEHGLNRPNAMLEIPTQELIDIDDAEDSSQAASDDGNLNNTINITQEINDRLEYRDTDNKVPLAETLTIDTTENSDNPMYTKTSGLTRNTEKAENRPDNDVSNENVTSDFKADFKNSDSENSKNTDDHMDVDMPLEINNAEPILTISKNLNPVGNVSEMNPNVDTISTRDLDINKTSLGAVKDVLISETVEPKPSTSRAAMEPAGSPELKELAPCTPMKQDEQSALEPKPSTSKVMVESVLSEATDSLGLLAESSRMDEDEEEPDDEDDGEDEDDFDNDESSNQMTAYNSEDSNHQNSDPDCGREQTESGDTTKDESEKDGVIATNLNTVESEEIEIQADSDENVSDEKCTQEAEGISQKNIEETVAAVQSINENKEVNDGSGYIETVKLSDTSDNELDGASKEIESGVDEASVARDKSSPSKLSMGKKKKLGISKARHVVNIVEVEESSSEDDIRPPESNEDPDQRSDVAPDEEGVTSVNIPKGIEVMCSGESTSELVAKEGEIVISRVPKPPPHKPARLNTSEVTIKTTSGCAESSLVIPETKLQEAKETDADLEVFNLDSDDEDGSAKESSKLESGRCLNPACPGREAAQLRADRAAVAHYSAKTSRNAFICRPCYEVVAVRTEGLVNGLKNFTPLFEMKMEKQSLNLVEISDSDSEDESSAPEQAKEVVGDEGAKLLEEHLANLINETWSKYKMDARMNEARSFVDLEVQKLEKQSKEIDQMLNECQVATDKLRDSLYKTFEPTKHDLPPICIVDIVGCYYEGTEQSLDEAKQRANKRKRTEPLCSQPKKAAIALGYAPLDGDHAQPDVTQEKTPIETAPNESKEDDREVSVVQLSAEVAPPDLPPPGELVRPPLKPGMVVWAMKNVFSPWVKVRIQDIAPKSTTSAYTTCTVKFDTKTKNPFRTLSARCLAHSEPPNARLTIGTRIIALFKNTTKSKMENYYSGVVAEIPNPVNNYRYLVFFDDGYAQYVAHPDTRVVCECSNLVWEEVHAFSREFVKQYLLSYPERPMVRLHAGQSLKTEWNGKWWISTILKVDASLAHVYFQKINRTEWIYRGSTRLAPLYLELQAAERQRTRPLPRSMAQSKVNMPYVEYTRSDEQTNEKQKETTDQPDDIRKQRAVAKKSTAQPQSAPPVEQQANLDSVISRVVYYTPKNAVKPLRMTSHTCGPKCKRTDVLALKDLRTYNPLAKPLLSGWERQIVRYKGVRDVMYRAPCGRRVRDIRELHAYLTATDSDMPVDLFDFHPATHCLAEFVINKCIVGKKDLSHGKENVPVPCVNYYDETLPEFCSYNTERTPTAGVPLNLDPDFLCGCDCTDDCQDKAKCACWQLTLEGARTIGLDGHNVGYDYKRLLEPLPSGIYECNSRCKCKQTCLNRVAQHPLQLKLQVFKTQNRGWGIRALNDVPKGSFLCVYAGNLLTDATANLDGLNEGDEYLAELDYIEVVEQMKEGYEEDISEADKKLGAVRARRPSVAAGGVKQESGAKGASSDEHEESSSDDYDFEAASKDESEDCDFQPGCLGLPVTKFSKRLRQRAKKKQDEDKEKSSKEKEKEKERDKDKDKDKTKEPAPGEDCITISDDDEVREPSRFTAQAGMGANEFVPKHRSVRQLYGADEACYIMDAKVQGNIGRYLNHSCSPNVFVQNVFVDTHDPRFPWVAFFALCHVRAGTELTWNYNYDVGSVPGKVLYCHCGAPNCRGRLL

Catalytic Activity

L-lysyl-[histone] + S-adenosyl-L-methionine = H(+) + N(6)-methyl-L-lysyl-[histone] + S-adenosyl-L-homocysteine

Uniprot

H9JPF3

Pubmed

19121390

EMBL

BABH01010009 BABH01010010 BABH01010011 BABH01010012

Proteomes

UP000005204

PRIDE

H9JPF3

Pfam

PF00856   SET        + More
PF18358   Tudor_4
PF05033   Pre-SET
PF01429   MBD

Interpro

IPR001739   Methyl_CpG_DNA-bd        + More
IPR001214   SET_dom
IPR016177   DNA-bd_dom_sf
IPR041292   Tudor_4
IPR003616   Post-SET_dom
IPR007728   Pre-SET_dom

SUPFAM

SSF54171 SSF54171

ProteinModelPortal

H9JPF3

PDB

6BPI E-value=3.72308e-38, Score=405

KEGG

101742654 no KO assigned | (RefSeq) dentin sialophosphoprotein-like

GO

GO:0008270 GO:0003677 GO:0018024 GO:0005634 GO:0005694 GO:0005515 GO:0019829 GO:0005507 GO:0004713 GO:0016491 GO:0015930 GO:0034968

Subcellular location

Chromosome
Nucleus

Length:

2540

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.0034

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00000

outside

1 - 2540

Pi

23.430529

Theta

20.195818

Tajima's D

0.290704

CLR

0.745633

CSRT

0.457077146142693

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics