KEGG   Eleginops maclovinus (Patagonian blennie): 134873551
Entry
134873551         CDS       T09869                                 
Symbol
nsd3
Name
(RefSeq) histone-lysine N-methyltransferase NSD3 isoform X1
  KO
K11425  [histone H3]-lysine4 N-dimethyltransferase / [histone H3]-lysine27 N-dimethyltransferase [EC:2.1.1.370 2.1.1.371]
Organism
emac  Eleginops maclovinus (Patagonian blennie)
Pathway
emac00310  Lysine degradation
emac01100  Metabolic pathways
Brite
KEGG Orthology (KO) [BR:emac00001]
 09100 Metabolism
  09105 Amino acid metabolism
   00310 Lysine degradation
    134873551 (nsd3)
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03036 Chromosome and associated proteins [BR:emac03036]
    134873551 (nsd3)
Enzymes [BR:emac01000]
 2. Transferases
  2.1  Transferring one-carbon groups
   2.1.1  Methyltransferases
    2.1.1.370  [histone H3]-lysine4 N-dimethyltransferase
     134873551 (nsd3)
    2.1.1.371  [histone H3]-lysine27 N-dimethyltransferase
     134873551 (nsd3)
Chromosome and associated proteins [BR:emac03036]
 Eukaryotic type
  Histone modification proteins
   HMTs (histone methyltransferases)
    HKMTs (histone lysine methyltransferases)
     134873551 (nsd3)
SSDB
Motif
Pfam: PWWP PHD-1st_NSD C5HCH SET AWS PHD_NSD PHD PHDvar_NSD MUM1-like_PWWP
Other DBs
NCBI-GeneID: 134873551
NCBI-ProteinID: XP_063753318
LinkDB
Position
12:12887489..12909937
AA seq 1611 aa
MDFSFSFMQGIMGNTIQQPPQLIDSANIRQEGTCDTGSDPGEDGGPSYDAALDAEFSYPP
SAPEDMSQVSNGYPPGLGMYEPQSKFSMYSQFPNGSANGYGAIRSYADHGLLPGEGTVLR
GPGLQERPLSPVSPPLPTHHPHLHHHHHHNPHLQHHAHLFHSNPPLLQNHPHPQSPPPQP
LPSQHHMPHTPHIMTHTLPPPPPLILPSSSPPPSLVDSTPSSQPSLTLSKTPGGVLKKTS
SPEIKLKIIKTYQNGKELFESALCGDLLEELQNESQENEATQMQRRHERKKEKRKKSARL
QLQVPEQNLEQSQAPSGTTELTEDIHFEPQPTETPPAQTQKPQKTVIKTEPKMPKVPKVH
HPSVIQETGFCKEFVIGDLVWSKVGTYPWWPCMVSSDPQMKVHTRINTRGHREYHVQFFG
SVAERAWIHEKRIVLYQGKQQYEDLQAETLRKASNPVEKHKLLKPVPQRERSQWEVGVGH
AEDALPMTRQERTDNYTFIYVDPDPHEGTSSRKPTYRAEKRNRRSSGSINKKEEREVKSP
EREQPTRRLLPRRQCSVSNTEDSTNSQASNEEKNQREETRGGKTSSPKQNNERQDSPPPV
RAWKTAAARKLLPLSITMKRLNVEITKCDWPLLQKKAAPSPKKEQEEEEEEDEEEEEEKE
EIVEGEARQPDLGYCSPEDSRAKPEPSPEEEEDGDEGEEEGEERRGSPASRRSEEGGMQQ
TSSPGSHHSSPHGSQERKLQRRSVRSRSESERSNDPVPKKKTKKEQAEMAPETTLRTGSQ
KGASEISDACKPLKKRSRASTDVEMASSQYRDTSDSDSRGLNDPQGLFGKSLDSPAAADA
DASDTQSVDSGLSRQDGSTGKRDTVCQICEVYGEGLVVCEGDCCRQFHLDCLGLTSLPEG
RFTCLECRNGDHPCFSCKAAGQEVTRCSVSGCGCYYHEDCVRKLPGTTSSSEGGFCCPQH
SCSTCCLERDLQRAIKGRLMRCIRCPVAYHTGDGCVAAGSVALTHHIMICSSHGSTKKNG
LLSSPINVGWCFLCARGLLVQDLTDTILSSYAYKSHYLLTESNRAELKLPMIPSPSSATK
KNVGKGGKLLCCDTCPASFHPECLEIEMPEGAWSCSDCRAGKKPHYKQIVWVKLGNYRWW
PAEICNPRLVPSNIQSLRHDVGDFPVFFFGSHDYYWINQGRVFPYVENDKNFVTGQININ
KTFKKALEEAARRFQELKAQRESREALEQERNSRKPPPYKLIKSNKPVGKVQVHVADLSE
IQRCNCRPTDEHPCSLHSQCLNRMLQYECHPQVCPAGESCENQCFSKRLYVETEVIKTDG
RGWGLSTNQALRKGDFVTEYVGEVIDSEECQQRIKRAHENHVANFYMLTLTKDRVIDAGP
KGNSSRFMNHSCSPNCETQKWTVNGDVRIGLFTLCDIEAHTELTFNYNLHCVGNRRSSCH
CGSDNCSGFLGVQPTSAVVMEREEKARNAKLKPKKRKLRPEGKHCHEYFCFCCGEGGELV
MCDRKDCPKAYHLLCLNLTKPPYGRWECPWHDCSVCSAPASSLCDFCPRSFCRDHEEGAL
TSSSLEGRPCCSSHNPVSPLGSNSSLTQPRRSALSPVSVKEEPEEGELASE
NT seq 4836 nt   +upstreamnt  +downstreamnt
atggatttctccttctctttcatgcaagggatcatgggaaatacaattcagcaaccccct
cagctcattgactccgccaacatcagacaggaaggcacctgtgacaccggcagtgatcca
ggcgaggatggaggtccctcctacgatgctgccctggatgcagagttctcctacccgccg
tctgccccggaggacatgtcgcaggtctccaacggctacccgcccggtctgggcatgtac
gagccacagtccaagttctctatgtactcgcagttccccaacggctcggctaacggctac
ggggccatacggagctatgcagatcacggcctcctgccgggggaagggacggtcctgaga
ggcccaggtcttcaggagagacctttgtctcctgtgtcccctcctctgcccacacatcac
ccacacctccaccaccaccaccatcataaccctcacctccagcatcacgcgcacctcttc
cactcaaacccgcctcttttacagaaccacccgcacccacagagtcctccgccgcagcct
ctgccctcccagcaccacatgccccatacgcctcacatcatgacccacactctcccacct
cctccgccattaatcctgccttcctccagtccgcccccttcccttgtggacagtactcct
tcctctcagccctccctcaccctctccaaaactcctggtggcgtgctgaagaaaaccagc
tctccagagatcaagctgaagatcattaagacgtatcagaacgggaaagagctgtttgag
tcagcgctgtgtggagaccttctggaagaattgcagaatgagtctcaggagaacgaggcc
actcagatgcagcgcagacatgagaggaagaaggagaagaggaaaaagagtgcgcgactg
cagctgcaggtcccggaacagaacctggagcaaagccaagcaccgtcaggtaccacagag
ctgacggaggacatccacttcgagccccagcccacagaaacacccccagcccagacacag
aagcctcagaagaccgttattaaaactgaaccaaagatgcccaaggttccgaaggtccat
cacccatcagtgatccaagagacgggcttctgtaaggagtttgtgatcggagatctggtg
tggtccaaggtgggcacctacccgtggtggccttgcatggtctcctctgacccgcagatg
aaagtccacactcgcatcaacaccagaggtcacagagagtatcacgtccagttctttggc
agtgttgctgagcgagcatggatccacgagaagaggatagtcctgtaccaggggaagcaa
cagtatgaagaccttcaggctgagactctgcgcaaagcctcaaatcctgtagagaaacac
aaacttctgaagcctgtccctcagcgggagcgttctcagtgggaggtgggtgtgggccac
gccgaggacgccctcccgatgacgcggcaggagagaactgacaactacaccttcatctat
gttgacccagaccctcatgaaggcacgtccagtaggaaacccacttacagagctgagaaa
cgcaaccggcgctccagcggctcaatcaataagaaggaagagagagaagtaaagtcacca
gaaagagagcagccgacacgacggctgctgccacgcagacagtgtagtgtgtccaacaca
gaagacagcacaaactcacaggcctctaatgaggagaagaaccagagggaggagaccaga
ggggggaagaccagctcgccgaaacagaacaatgaacggcaggactcgccgccaccggtg
agggcctggaaaacagccgctgccaggaagctgctgcctctctccatcaccatgaagagg
ctgaatgtggagatcacaaagtgcgattggcctctcctgcagaaaaaagcagctccatct
ccaaaaaaagagcaagaagaagaagaagaagaagacgaagaagaagaagaggagaaggag
gagatagtggagggagaggcccggcagcctgacctgggatactgctcaccagaggacagt
agagctaaacctgagcccagtccggaggaggaggaagatggggacgaaggggaggaagag
ggggaggagaggagaggatcccccgccagtcggaggagtgaggaaggaggaatgcagcag
acctcctctcctggatcacaccacagtagtccacatggttctcaggagcggaagctgcag
cggcggtcggtcagaagcaggtcagagtcagagagatccaacgatcctgtcccgaagaag
aaaaccaaaaaagagcaggctgagatggctcctgagacgacactgaggaccggttcacag
aaaggagccagtgagatctcagacgcctgcaaacctctgaagaagcgaagcagagcgtcg
accgatgtggagatggcttcttctcagtacagagacacctctgactctgactccagaggt
ctcaacgacccacagggtttatttgggaaaagtcttgatagtccagcagcagcggatgca
gacgcttcagacactcagtctgtggactccggcttgtcccgccaggatgggagcaccggc
aagagagacaccgtctgccagatctgcgaggtgtatggtgaaggtttggtggtgtgtgaa
ggggactgttgccgacagtttcacttggactgtctcggtctgacgtccctacctgaaggc
aggttcacctgcttggaatgcagaaatggcgatcatccttgttttagctgtaaagctgca
ggccaggaggtgacgcgctgctccgtgtccggatgtggttgttactaccacgaggattgt
gtgcgtaaactcccgggcacaaccagcagctcggaggggggcttctgctgccctcagcac
agctgctctacctgctgcttggagagagacctgcagcgggcgattaaaggccgcctgatg
cgctgtatccgctgtccggtggcctatcacacgggagacggctgcgtggcggcgggcagc
gtcgccctcacccatcacatcatgatctgcagcagccacggcagcaccaagaagaacggc
ctcctctcctccccaatcaacgtgggctggtgcttcctgtgtgccagagggctgttagtg
caagaccttactgacaccatattaagttcatatgcctataagtcccactaccttctgact
gagtcaaatcgtgctgagttgaaattacctatgattccctctccttcgtcagctaccaaa
aagaatgttgggaaaggaggcaagttgctgtgctgcgacacatgcccggcttccttccac
ccggagtgtctggagatagagatgccggagggggcatggtcctgcagtgattgcagggcg
gggaagaagcctcactacaaacagattgtctgggtcaaactgggcaactacaggtggtgg
cctgcggagatttgcaacccacgcctggtgccatccaacattcagagcctacgtcacgat
gttggagacttccccgtcttcttctttggctcccacgactactactggatcaatcagggc
cgcgtcttcccctatgtggagaatgacaagaactttgtcacgggtcagatcaacatcaac
aaaaccttcaagaaagctctggaagaagctgctcggcggttccaggagctaaaggcgcag
agggagagcagggaggctctagagcaagaacgcaactctcgaaaacctcccccctacaaa
ctcatcaagtccaacaaaccagtggggaaagtgcaggtgcacgtagctgatttgtcagaa
atccaacgatgcaactgcaggccgacagatgagcatccttgcagcctccactctcagtgt
ctcaaccgcatgctgcagtacgagtgtcatccacaggtgtgtcctgcaggtgagagctgt
gagaaccagtgtttctccaagcggctgtacgtggagacagaggtgataaagacagacggc
cgcggctggggcctcagcaccaaccaggctctcaggaagggtgactttgtgactgagtac
gtgggagaggtgatagactcagaggagtgccagcagcgaatcaaacgcgcccatgaaaat
cacgtggccaacttttacatgctcaccctcaccaaggaccgtgtgattgacgccggcccg
aaaggaaactcgtctcggtttatgaaccacagctgcagcccaaactgtgaaactcagaag
tggacggtaaacggagacgttcgcataggcctcttcaccctctgtgacatcgaggcccac
acggagctgacgttcaactacaacctgcactgcgtgggcaacaggaggtcgtcctgtcac
tgtggttcagacaactgctcgggattcctcggggtgcagccaacgagtgctgtggtgatg
gagagagaggaaaaggccaggaatgccaagctgaagccgaagaagcggaagctgcgtccg
gagggcaaacactgccacgagtacttctgtttctgctgtggagagggaggcgagctggtg
atgtgtgaccgaaaggactgtccgaaagcgtaccatttgctctgtctcaacctcaccaag
ccaccatacggacgttgggaatgtccgtggcatgactgcagtgtttgcagcgccccggca
tcgtctctctgtgacttctgccctcgctcgttctgccgggaccacgaggagggggcgctc
acctcctcctcccttgaaggccgtccctgttgctccagtcacaaccctgtcagtcccctg
ggctccaactccagtctgacccagcctcgccgctccgccctgagcccggtcagtgtcaaa
gaggagccggaggagggcgagctggcttcagagtga

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