Scomber scombrus (Atlantic mackerel): 133985528
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Entry
133985528 CDS
T10651
Symbol
nsd1a
Name
(RefSeq) histone-lysine N-methyltransferase, H3 lysine-36 specific isoform X1
KO
K15588
[histone H3]-lysine36 N-dimethyltransferase NSD1 [EC:
2.1.1.357
]
Organism
ssco Scomber scombrus (Atlantic mackerel)
Pathway
ssco00310
Lysine degradation
ssco01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
ssco00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
133985528 (nsd1a)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
ssco03036
]
133985528 (nsd1a)
Enzymes [BR:
ssco01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.357 [histone H3]-lysine36 N-dimethyltransferase
133985528 (nsd1a)
Chromosome and associated proteins [BR:
ssco03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
133985528 (nsd1a)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
PWWP
SET
PHD-1st_NSD
C5HCH
AWS
PHD_NSD
PHD
PHDvar_NSD
Motif
Other DBs
NCBI-GeneID:
133985528
NCBI-ProteinID:
XP_062281172
LinkDB
All DBs
Position
9:complement(19563081..19579016)
Genome browser
AA seq
2155 aa
AA seq
DB search
MSHDNMSQSYRPAVRVSSVFGSGQPELRPRNGLMSTSFGNQCGIVKRGSEQPSVQLPSSS
LKHSAVHYNQPDRSLCYSPLRRLKGRNTVVNRPDQERDLHPTNHLHCASPISDDDEFEAP
SVQLPPSPGNDDMGPFETLQDVNRNGFSPHSPDSLERCSPIPNGCLHFESTLLDSSDIKE
EDEEGEQDSDEDLMPFHHSSKLRRGRTTTDCKTTCSSVVDKRTVFNLMSKTISELNPTLS
PSALPEFTMKDGWSMDEESDSDGELTSLVDPGLISPAGTNSNSNSPKKKPLPTVKYMEGD
LVWAKFNRRPWWPCYITTDSDHGIHTKMKVPSPRPCRMYFLETIGEIVESAWVPGNAILP
FEGGHQFEDLPVLRRRGKQKDKDYKYTIPKSLLTAWKVSVTEAERLLPSRQRDAESELTI
SVNGEERVPSPLPTVKPQEASPIPVSPNMAPNGNEQHPIKNSAAVQTNKNKACKKKKKCL
SDIFGHIVGGSKESSTIMNTVDQFHTTTRALKEEPTDSPYADLDTVPTLHRPKRTAMSPK
QDIDRAVRKEQASTKVKTKFTEKVKHPTDFHDSSGVETNKWTSNDTHSKQSLGSCNELLY
SSAKKHSLSLPASSRLITRALKAEEDTDFKDALATSQISTNAHTDDCPDNTATKDAPIKS
DMYPSWESPTNASSSANHSSPKRRARKPDKKQIRNGSLIKSKSVSSVQPVKIKTENVVPD
LSSSSPSSSLSPMDAFQDVKELMFKSVVKEDNSDSELTAFRPDSNYKFSTFLMLLKDMHD
TREKEGKPLTLPPSPVLIKEEPLVIPSSTGDGFSQGIKTENGQSTKSTTSRNTAAKNRNR
TKTIMTADTYRCENVPVHTQIGSSDKQRRKQRLPAKLKLSIPGLSSDLADLAYGREFVSG
HADLAGPGSGPPVAANPSGSYLDKNSESTVAPKKRWQMAEGAAERMADVMSGASAEMNGS
YAMRASPDFDLGLDRQAENDFSDTSSSAGNSENKRLRKPTKRLLESTEEYEQIFAPKKKS
KRNASETSKMISGITSENVMQETSGMTALQDLSSTLGTVTSTSTSASSPVEPSEAPSVLE
RSPSQDELSPAAPSVSPATTQPSLNTETAEETDLPPESGMGLINQERKRPRKLSHRVLEC
TIEEVSVAPTKKKQPNRHSGVTSEQKVLAKNTQVGSIKKEKPVPSTSSIPAAAPQNSEDK
DVLRALTPNRPPSPQGCKTPKQEAEVEACSTEEKQNTGTLTPKLEALSVGLNDSLSLPQD
VKGKIGAACLKENVCQVCERAGDLLVCEGHCYGAYHPQCIGPSVAPKGKFLCQECKTGAH
TCFVCKKSSGGIKRCMIPLCGKFYHTDCILAFSATQPHNNKGFRCPLHVCLTCHITNPLN
ICSSKGRLARCVRCPVAYHANDNCMAAGSVVLANNSFLCPNHFTPRKGCKNHEHINVSWC
FVCSEGGSLLCCEACPAAFHRECLNMEMPQGSWFCNDCKAGKKPRIKDILWVKWGRYRWW
PAEVCLAKDVPNNILRMKHEVGEFPVQFFGSKDFVWTYQARVFPYMEGDTHNIEKMGKGA
DAVYKKALTEAAERFKELQAEREMKQLQEDRKNDKKPPPYRHIRVNRPIGKVQIITADLS
EIPRCNCKASDENPCGVDSECINHMLMYECHPQVCAAGERCQNQAFTKRQYTTVEIFRTL
SRGWGLRAVSDIKKGAFVSEYVGEVIDEEECRARIKHAQENDICNFYMLTLDKDRIIDAG
PKGNQARFMNHCCQPNCETQKWTVNGDTRVGLFSLQDIPKGEELTFNYNLECLGNGKTAC
KCGAPNCSGFLGVRPKNQPSAEKMKLKEGKRRVPMKKKTKPELMKEREDECFSCGDGGQI
VSCKKPGCPKVYHADCLNLAKRPAGRWECPWHQCDVCGKEAASFCEMCPSSYCKEHREGM
LFISKLDGKLSCSEHDPCGPDPLEPGEIREYVPSTGPGAVPLAPSLVPVSRRANSASAPI
TSSVGQAGTARQEPPPRLYINTKTATSSFIPTSRSYVTDRTEGRGFSTPTSSKDEREDER
EEGEVEDGEVCGLEVEEVEDDDDDEDDDDEEAEEEEDEMEEMEIVEEEGDEPLYGGDLLE
EEEEEDEEEEEEGEEEDEGADVYDTWGNYVDEDADDGEVEGEDLEEWERVEEDDK
NT seq
6468 nt
NT seq
+upstream
nt +downstream
nt
atgagccatgacaacatgagtcagtcatacagaccggccgttagggtaagctcagtgttt
ggctcaggccagccagagctgaggccccgcaatggccttatgagcacttcctttggaaac
caatgtggcattgtgaagcgagggtcagaacaaccatcagtgcaactgccatcctccagt
ctcaaacattcagctgtacattacaatcagccagaccgatctctctgttatagcccactc
aggaggctgaagggccgcaacactgtggtcaacaggcctgaccaagagagggacctccat
cctacaaaccacttgcactgtgcaagtccaatcagtgacgatgatgagtttgaggctccg
tctgtacaactgcctccttctccaggcaatgatgacatggggccttttgagactctgcag
gacgttaacagaaatggcttctcccctcacagtcctgacagcctggaacgctgttctccc
atccccaatggttgcttgcattttgagtcaacactgttggacagcagtgacattaaggag
gaggacgaggagggggagcaagatagtgatgaggacctgatgccttttcaccattcctca
aagttgaggcgggggcgaactactactgactgtaagaccacatgcagctcagtggtggac
aaacgaactgtctttaatctgatgtctaaaactatatctgaactcaaccctacactaagc
cccagcgcactgccagaattcactatgaaagatggatggagcatggatgaggaatcagac
agtgatggtgaacttacttctcttgttgaccctggacttatttcaccagctggcaccaac
tctaattccaacagcccaaagaaaaagcctctccctacagtgaaatacatggaaggtgac
ttggtttgggctaaattcaacaggcggccctggtggccctgctatatcaccactgattca
gaccatgggatccacactaagatgaaagtgcccagtccacgtccttgtcggatgtatttc
ctggaaactattggtgagattgtagagagtgcttgggtccctgggaatgccattcttcct
tttgaaggaggccatcagtttgaagaccttccggtgctgagacggagagggaagcagaag
gataaagactacaagtatacgatacccaaaagtttactgactgcatggaaagtcagtgtg
acagaagcagagcgtttgctccctagtcgacaacgggatgctgagagcgagcttacaata
tctgtcaatggagaggagcgtgtacccagcccactccctactgtaaagccacaggaggcc
agccctatccctgtgtcacccaatatggcccccaatggaaatgagcaacatcccatcaaa
aactctgcagcagttcagaccaataagaacaaagcttgtaagaagaaaaagaaatgtttg
tcagacatatttggtcatatagttggtggatcaaaggagtcatctaccatcatgaacact
gtggaccagtttcatacaacaactcgtgcactgaaagaagagccaacggactcaccgtat
gcagacctggatacagttccaacgctgcatcgtcctaaacgcacagcgatgtccccaaaa
caggatatagacagagcggtcagaaaagagcaggcttcaactaaagtcaaaacaaagttt
actgaaaaagtgaagcatcctacagatttccatgattcctcaggtgttgaaacaaataag
tggacatctaatgatacacattctaaacagagtttgggcagctgtaatgaattgttgtac
agttcagctaaaaagcactctctaagtcttcctgccagcagccgtcttataacgagggcc
ttaaaagcggaggaagacacagatttcaaagatgcactggccacaagccaaatctcaacc
aatgcccacactgatgattgtcctgataatacagctactaaagatgctcccattaaaagt
gatatgtatcccagctgggaatcacccaccaatgcgtcatcctctgcaaatcacagctct
ccaaagaggcgtgcaaggaagccggataagaaacaaattcgtaatggctcattgataaag
tctaaaagtgtatccagtgtgcagccggttaaaatcaagacagagaacgttgtcccagat
ctatcatcttcatcaccctcctcatcactgtctcccatggatgctttccaggatgtcaag
gaactaatgtttaaatctgttgtgaaggaggacaacagtgactcggagttaactgcgttt
cgtcctgattccaattataaattcagcaccttcctcatgctcctgaaagatatgcatgat
accagagaaaaagaaggtaaacccctgactctcccaccatcaccagtcctgatcaaggag
gaacccctggtcatcccttcttctacaggagatggttttagtcaagggatcaaaacagag
aatggccagtcaacaaaatccacaacatcccgaaatacagcagcaaaaaacaggaatagg
actaaaactatcatgacagctgacacctaccgttgtgaaaatgttcctgttcacactcaa
attggcagctcagacaagcagcgtagaaagcagaggctgcctgcaaaactgaaactcagc
atacctggcctgtcttcagacctggctgacttggcttatggcagggagtttgtcagtggc
cacgctgacttagctggtcctggatctggtcctcctgtcgctgccaatccctcgggcagc
tacctcgacaagaattcagaatccactgtggctccaaagaagcgctggcagatggctgag
ggcgctgctgagagaatggctgatgttatgagtggggcatctgctgagatgaatgggtct
tatgccatgagagcatccccagattttgatctgggacttgacagacaggcagagaatgac
ttttcagacacaagcagctcagccggaaattcagagaacaaacgactccgcaaacctact
aaaaggctgctggagtcaactgaggagtatgaacaaatatttgctccaaaaaagaaatca
aagagaaacgcctcagagacttccaaaatgatttctggtataaccagtgaaaatgttatg
caggagacatcagggatgacggcactccaagatctcagcagtacattggggactgttacc
tcaacctccacctcagcctcgtctcctgtagagccctctgaggctccatcagtactggaa
cgtagcccatctcaggatgaactttctcctgcagcaccctcagtatccccagccactaca
caaccttcccttaacacagagactgcagaagaaactgatctacctcctgaatctggcatg
gggttaattaaccaagaaagaaagaggccaaggaagctgtcacacagggtgctggaatgt
accatagaagaagtttctgttgctcctacaaagaagaagcagccaaatcgacacagtgga
gttacctcagagcagaaggtgttagccaagaacactcaggttggatccataaagaaagaa
aagcctgtacccagcacatcctctatccctgctgctgcccctcagaactcggaggacaaa
gatgtcctcagggctctcactccaaacagacctcccagccctcaaggatgtaagaccccc
aagcaggaggcagaggttgaagcctgcagcactgaggagaagcaaaacactggaacacta
actcccaaacttgaggcgctgtctgttggtttgaatgacagcctctcgttgccgcaggat
gtaaaagggaaaataggagccgcatgcttaaaggagaacgtctgtcaggtgtgtgagagg
gcaggagacctgctggtgtgtgaaggccactgctatggagcttatcacccacagtgtatc
ggcccgtcggtggctcccaaggggaaattcctctgtcaagaatgcaagactggtgctcac
acatgttttgtgtgcaagaagtctagcggagggataaagagatgtatgataccattgtgc
gggaagttctaccatacagactgtatattggccttctcagccactcagccacataacaac
aaaggcttccgctgccctctgcatgtttgtctcacctgccacatcacaaatcctcttaac
atctgcagctctaaaggtcgcttggctcgatgtgtgcgctgccctgtggcctatcatgcc
aatgacaattgcatggcagcaggcagcgtggtgctggcaaacaacagtttcctctgtcca
aaccacttcactccccgcaagggctgtaagaaccatgaacacatcaacgttagctggtgc
ttcgtctgctctgaagggggcagtttgttgtgctgtgaagcttgtcctgctgctttccat
cgggaatgtttgaatatggagatgccacagggcagctggttctgcaatgattgcaaagct
ggaaagaaacctcgtattaaggacatactgtgggtcaaatggggacgttacaggtggtgg
cctgcagaagtgtgtctggccaaagatgttccaaataacatcttgaggatgaaacatgag
gtgggagagttcccagtgcaattttttggctccaaagattttgtgtggacataccaggcc
agagttttcccttacatggagggtgacactcacaacatagagaaaatgggcaaaggtgca
gacgcagtgtacaaaaaggccctcactgaagcagcagagaggttcaaagagctccaagca
gaaagggaaatgaagcagcttcaggaggacagaaagaatgacaaaaaacctcctccatac
aggcacattagggtgaaccggccaattgggaaggtgcagatcattacagctgacctatca
gagatcccacgctgtaactgtaaggcatctgatgagaacccgtgcggcgtcgactcggag
tgcattaatcacatgctgatgtatgagtgccaccctcaggtgtgcgcggcaggggaacga
tgtcagaaccaggccttcacaaagcgccagtacacaactgtggagattttcaggacgctg
tcgcgtggctggggtttacgtgctgtgtctgacatcaagaagggagcttttgtgagtgaa
tatgtgggagaggttatcgatgaagaagaatgtcgagccaggatcaaacacgctcaggaa
aacgacatctgtaacttctacatgcttacactggacaaggaccggatcattgatgctggg
cccaaagggaaccaggctcgcttcatgaaccactgttgccagccaaactgtgagactcag
aagtggactgtgaacggggacacgagggttgggctgttttctctacaagacatcccaaaa
ggtgaagagctgactttcaactacaacctggagtgtcttggcaatgggaagactgcctgt
aaatgtggagcaccaaactgtagtggtttcctgggtgtgcggccaaagaaccagccgtca
gctgagaaaatgaaactgaaggaagggaaaaggagagtccccatgaagaagaaaaccaag
ccagaactgatgaaggagagggaggacgagtgcttcagctgtggtgatgggggtcagata
gtgtcctgtaagaagccaggctgcccgaaggtctatcatgctgactgtctcaacctggct
aagaggcctgcagggcgatgggagtgtccgtggcaccagtgtgacgtctgtggcaaagaa
gcagcttcattctgtgaaatgtgccccagctcttactgtaaggagcatcgtgaaggcatg
ctcttcatctccaagctggatggcaagctgtcctgcagtgagcatgacccctgcgggccc
gacccacttgagcctggggaaattcgtgaatacgtaccctccacagggcccggggccgtt
cctcttgctccctctctggtcccagtctccagaagagccaattcggcttctgctcccatc
acctcctctgtcggtcaagctgggacggccaggcaggagcctcctcctcgtctctacatc
aacacaaagactgctacctcgagcttcatccccaccagcaggtcttacgtcacagacagg
actgaagggagagggttctccacccccacctcctccaaggacgagagagaggacgagaga
gaggaaggtgaggtggaagacggggaggtgtgtgggctagaggtagaagaggtggaagac
gacgacgacgacgaagatgatgacgatgaagaagcagaggaggaagaggatgaaatggaa
gagatggagatagtggaagaagagggggatgaaccgctgtatggaggtgacctgctggag
gaggaggaggaggaggatgaggaggaggaggaggagggagaggaggaggatgaaggagca
gatgtgtatgacacttggggtaattatgtggatgaagatgctgatgatggagaagtggag
ggggaggacttggaggagtgggagagagtggaagaggatgacaagtga
DBGET
integrated database retrieval system
