Siniperca chuatsi (mandarin fish): 122879955
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Entry
122879955 CDS
T08948
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
schu
Siniperca chuatsi (mandarin fish)
Pathway
schu00310
Lysine degradation
schu01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
schu00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
122879955 (nsd1a)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
schu03036
]
122879955 (nsd1a)
Enzymes [BR:
schu01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.357 [histone H3]-lysine36 N-dimethyltransferase
122879955 (nsd1a)
Chromosome and associated proteins [BR:
schu03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
122879955 (nsd1a)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
PWWP
PHD-1st_NSD
SET
C5HCH
AWS
PHD_NSD
PHD
PHDvar_NSD
zf-HC5HC2H
PHD_2
Motif
Other DBs
NCBI-GeneID:
122879955
NCBI-ProteinID:
XP_044060557
LinkDB
All DBs
Position
LG8:complement(18096204..18110873)
Genome browser
AA seq
2161 aa
AA seq
DB search
MNQSYRPAVRVGSVFGSGQSELRPRNGLVSTSYGNQCGIVRRGSDQPSAVQLPSSSFKQP
AVLGRNQSDRSHCYSPLKRLQGLNTVVNRPDLERDLHPRNHLHCASPISDDDDEFEAPSV
QLPPSPGNDDMETMQDVNRNGFSPHSPDSLEHCSPIPNGYLHFESTLFDTSEVKEEDEEV
EHSSSEDLAPFHHSPKLSKDLTVTDSKTTCSSGVDKRIYKPTVFNLMSKTISELNPTLSP
SALPEITMRDEWSLGEESDSDGELTSPVDPGLISPAGTNSNSNSPKKKPLPAVKYLEGDL
VWAKFNRRPWWPCHVTCDPDQGTYTKMKVPSPRPCRMYFLETIGEIIESAWVPGNVILPF
EGGHQFEDLPVLRRRGKQKEKDYKYTIPKSLLTAWKVSVSEAEYLLPGRQRNTESTLSVS
VNGEERVPSPLPPEKPQRGPSVSVDPGQPSSPNMAPNGNEPHLIKNSAAVQSSKSKACKK
KKKCLSDIFGHIVGGSKESSTITNVADQFHTTTRALKEDPKDSPYADLDSIPMLHRPKRT
AISPIQDIDRLVRKEQGSTKAKTKLSEKVSHYTDSCDSPSILTNKLTSKDTNSEQSFGSC
NELSHGPTEKHSVNLPASSRLMTRALKAEEETDLKDALATSQFSTDAQANDCPENTPTNT
SIKTEMSPNWESPSNASSSTNHSSPKRRARKPDKKQIRNGSLIKSKCVSSSVPTVQPVKI
KTENIVPDLSSPSSLSSSLSPMDAFQDAKELTFKSLVKEDSSDSELTVFRPDSNYKFSTF
LMLLKDMHDTREKAGKPLNLPPSPVLIKEEPLVIPTSTGGDPLKGSCDGFAQGTKTENGQ
SGKSTTPQNRAVKTKNRTKGIMRADTYHCEDFPVHSQIGNSDKQRRKQRLPAKLKLSIPG
LSSDLADLAYGREFVSGHADLAVPGSRPPVAADPLASYLDKNSGSAVAPKKRWQLVEEAA
ENKGEVMSGVSTEMNGSYTMRATPDLDLGVEKQEENDSQFSETSSTAGLAENKRLRKPTK
RLLESTEEYEQIFVPKKKSKKNTSEFSKMQTSGMTALRDLSTTPGIFTSASPSASSPVEL
TEGPSELEQSPSEDELSPAAPSVSPATTQPSLDTETAEETDLPPESETGLLIQERKRPRK
LSHKVLECTIEEVSVAPTKKKEPKRHTGITSEVKVLVKKTQVGSVKNEKPVVRTSSPPAA
AASEHSESKDLQGVLTPNRPPSPRGAKTPKQEAEMEACSTEEKQNVHTGTLTPKPEVLSA
GLNDSLSSQVDVKGKIGPTSLKENVCQVCERTGDLLVCDGHCYGAFHPQCIGLSVAPKGK
FLCRECNAGVHTCFVCKKSGNGVKRCMIPLCGKFYHTDCILAYSATQPHNKGFRCPLHVC
LSCHITNPLNICSSKGRLARCVRCPVAYHANDNCMAAGSLVLANNSFLCPNHFTPRKGCK
NHEHINVSWCFVCSEGGSLLCCEACPAAFHQECLNMEMPQGSWFCNDCKAGKKPRIKDIL
WVKWGRYRWWPAEVCLAKDVPNNILRMKHEVGEFPVQFFGSKDFVWTYQARVFPYMEGDT
HNIEKMGKGADAVYKKALTEAAERFRELQAEREMKQLQEDRKNDKKPPPYRHIKVNRPIG
KVQIVTADLSEIPRCNCKASDENPCGIDSECINRMLMYECHPQVCAAGERCQNQAFTKRQ
YTPVEIYRTLSCGWGLRGVSDIKKGAFVSEYVGEVIDEEECRARIRHAQENDICNFYMLT
LDKDRIIDAGPKGNQARFMNHSCQPNCETQKWTVNGDTRVGLFALQDIPKGVELKFNYNL
ECLGNGKTACKCGAPNCSGFLGVRPKNQPSAEKLKLKEGKRKVPMKKKTKQEVTKEREDE
CFSCGDGGQIVSCKKPGCPKVYHADCLNLAKRPAGRWECPWHQCDICGKEAASFCEMCPS
SYCKEHREGMLFISKLDGKLSCSEHDPCGPDPLEPGEIREYVPNATSVRPGAMAVPVTLS
LVPDSRRASSAPITSPAGQAATAGQGPPPRLYINTKTATSSFIPSNRSYTTDGTEGNAFS
TPTSSKDEREDGEVEDGEVCGLEVEDVEDDDDDDDEEAEEEEDDMEEMEIVEDEEDEPLY
GGDLLEEHHDDDEDDDDDDEEDDEGGDVYDTWGDYVDEDADDGEVEGEDLEEWERVEDDD
K
NT seq
6486 nt
NT seq
+upstream
nt +downstream
nt
atgaatcagtcatatagaccggctgttagggtaggctcagtgtttggctcaggccagtca
gagctgaggccccgcaatggtcttgtgagcacttcctatggaaaccaatgtggcattgtg
agacgtgggtcagaccaaccgtcagccgtgcaactgccatcctccagcttcaaacagcca
gctgtactggggcgcaaccagtcagaccgatctcactgctacagcccgctgaagaggctg
cagggcctgaacactgtggtcaacaggcctgacttagaaagggacctccatcctaggaac
cacttacactgtgcaagcccaatcagtgatgatgacgacgagtttgaggcaccatcagtc
cagctgcctccttccccaggcaatgatgacatggagactatgcaggatgtgaacagaaat
ggcttctcccctcacagtcctgacagcttggagcactgttctcccatccccaatggctac
ctgcattttgagtccacgctgtttgacaccagtgaagttaaggaggaggacgaggaggtg
gagcacagtagtagtgaggacctggcgccttttcaccactccccaaagttgagtaaggac
ctaactgttactgacagtaagaccacatgcagctcaggggtggataaaagaatatacaaa
cctactgtctttaatctgatgtccaaaactatatctgaactcaaccctacactaagcccc
agcgcactgccagaaatcactatgagagatgagtggagcttgggtgaggaatcagacagt
gatggtgaacttacctctcctgttgaccctggacttatttcaccagctggcaccaactct
aattccaacagcccaaagaaaaagcctcttcctgcagtgaaatacttggaaggggacttg
gtgtgggctaaattcaacagacggccctggtggccctgccatgtcacctgtgacccagat
caggggacctacactaagatgaaagttcccagtccccgtccctgtcggatgtatttcctg
gagacgattggggagataatagaaagtgcctgggtcccggggaatgtcattcttcctttt
gaaggaggccatcagtttgaagacctacctgtgcttagacgacgagggaaacagaaggaa
aaagactacaagtatacgatacccaaaagtttactgactgcatggaaagtcagtgtgtca
gaagctgagtatctgctcccaggtagacaaaggaatactgaaagcacgctgtcagtatct
gtcaatggagaggagcgtgtccccagcccactccctcctgaaaagccacagagggggccc
tctgtctctgtggacccgggtcaaccctcatcacccaatatggcccccaatggaaatgag
ccccatctcatcaaaaactctgctgcagttcaatccagcaagagcaaagcttgtaagaag
aaaaagaaatgtttgtcagacatatttggccatatagttggtggatcaaaggagtcatct
accatcacaaacgtggcggatcagtttcatactacaactcgtgcactgaaagaagaccca
aaagactcaccttatgcagacctggattcaattccaatgctgcatcgtcctaaacgcaca
gcaatttctccaatacaggatatagacagattggtccgaaaagaacagggttcaacaaaa
gctaaaacgaagttaagtgaaaaagtgagccattatacagattcctgtgattcccctagc
attttaacaaataaattgacatctaaagatacaaactctgaacagagtttcggcagctgt
aatgaattgtcgcacggtccaactgaaaagcactctgtgaatcttcctgccagcagtcgt
ctgatgacgagggctctgaaagcagaggaagagacagatctcaaagatgcactggccaca
agccagttctcaacagatgcccaagctaatgattgtcctgagaatacacctactaataca
tccatcaaaactgaaatgtctcctaactgggaatcgcccagcaatgcatcatcctctaca
aatcatagctctccaaaaaggcgcgcaaggaagcctgataagaaacaaattcgtaatggc
tcattgataaagtctaagtgtgtaagctcaagtgtacccactgtgcaacctgttaagatc
aagaccgaaaacattgtcccagatctatcatctccttcttccctgtcctcatctttgtct
ccaatggatgctttccaggatgccaaggaactaacatttaaatcccttgtgaaggaggac
agcagtgactctgagttgactgtatttcggcctgattccaattataaattcagtaccttc
ctgatgctcctgaaagacatgcatgataccagagaaaaagcaggtaaacccctgaatctc
ccgccatcaccggtcctgatcaaggaggaacccctggtcatccctacttctacaggagga
gacccgctgaagggttcttgtgatggtttcgctcaagggaccaaaacagagaatgggcag
tcagggaaatccaccactccccaaaacagagcagtgaaaaccaagaataggactaaaggt
ataatgagagctgacacctaccattgtgaagactttcctgttcactctcagatcgggaac
tcagacaagcagcgtcgaaaacaaagactacctgccaaactgaaactcagcatacctggc
ctctcttcggacctggctgacttggcttacggcagggagtttgttagtggccatgctgac
ttagctgttcctgggtctcgtcctcccgttgctgctgatcccttggccagctacctcgat
aagaactcaggatctgcagtggctccaaagaagcgctggcagttggttgaggaggctgcg
gagaataagggtgaagttatgagtggggtgtctactgagatgaacgggtcttacaccatg
agagcaacaccagatcttgatctgggagttgagaagcaggaggagaatgactcgcagttc
tcagagacaagcagcacagccggacttgcagagaacaaacgtctccgaaaaccaactaaa
aggctcctggagtcaactgaggagtatgaacaaatatttgtcccaaaaaagaaatcaaag
aaaaacacctccgaattttccaaaatgcagacatcagggatgacggcgctccgtgatctc
agcaccacacctggaatatttacctcagcctcgccctcagcctcgtctcctgtagagctt
accgagggtccatcagagctggaacagagtccatctgaggatgagctttctcctgcggca
ccctcagtatctccagccacaacacaaccctcccttgacacagagaccgcagaagaaact
gatctacctcctgaatctgaaacagggttattaattcaagaaagaaagaggccaaggaag
ctgtcgcacaaggtgctggaatgtaccatagaagaagtgtctgttgctcctacaaagaag
aaggaaccaaagcgacacactggaattacttcagaggtgaaagtgttagtcaagaaaact
caggttggatctgtaaagaacgagaagcctgtagtccgcacatcctctccccctgctgct
gctgcctctgagcactcagaaagcaaagatctccaaggggtcctcactccaaacaggcct
cccagcccccgaggagctaagacccccaagcaggaggcagagatggaggcctgcagcact
gaggagaaacaaaatgtacacactggaacactaactcctaaacctgaggtgctgtctgct
ggtttgaatgacagcctctcttcccaagtggatgtaaaagggaaaataggacctacatcc
ttaaaggaaaatgtctgtcaggtgtgtgagaggacaggagacctgctggtgtgtgatggc
cactgttatggagcctttcacccgcagtgtattggtttgtcggtggctcccaagggaaag
ttcctctgtcgtgaatgcaacgctggtgtccacacatgctttgtgtgtaagaagtctggt
aatggagtaaagcgttgcatgataccactgtgtgggaagttctaccacaccgactgtata
ctggcgtactcagccacccagccacataacaaaggcttccgctgccctctgcatgtgtgt
ctgtcctgtcacatcaccaaccctctcaacatctgcagctctaaaggtcggttggctcga
tgtgtacgctgccctgtggcctatcatgccaatgacaactgtatggcagcaggcagcttg
gtgctggcaaacaacagtttcctctgtccaaaccacttcactccccgcaagggttgcaag
aaccatgaacacatcaacgttagctggtgctttgtctgctctgaaggaggcagtctgctg
tgctgtgaagcctgccctgctgctttccatcaggaatgtttgaatatggagatgcctcag
ggcagctggttctgcaatgactgcaaagctggaaagaagcctcgtattaaggacatactg
tgggtcaagtggggacgttacaggtggtggcccgcagaagtctgtctggccaaagatgtt
ccaaataacatcttgaggatgaaacatgaggtgggagagttcccagtgcaattctttggc
tccaaagattttgtgtggacgtaccaggccagagtcttcccctacatggagggtgacact
cacaacatagagaaaatgggaaagggtgcagatgcagtgtacaaaaaggccctgactgaa
gcagcagagcggttcagagagctccaggcagaaagggagatgaagcagcttcaggaggac
agaaagaatgacaagaaacctcctccatacaggcacattaaggtaaaccggccaattggg
aaggttcagattgttactgctgacctatcagagatcccacgttgtaactgtaaggcgtct
gacgagaacccgtgcggcatcgactctgagtgcattaatcgcatgctgatgtacgagtgc
caccctcaggtgtgtgcagcgggggagcgatgtcagaaccaggccttcacaaagcgccag
tacacacctgtggagatttacaggacactgtcctgcggctggggtttacgtggtgtgtcg
gacatcaagaagggagcctttgtgagtgaatatgtgggggaggtgatcgatgaagaagaa
tgtcgagccaggatcagacacgcccaggagaacgacatctgtaacttctacatgctgaca
ctggacaaggaccggatcattgacgcagggcccaaagggaaccaggctcgtttcatgaac
cacagttgtcagccaaactgtgagactcagaagtggactgtgaatggggacaccagggtg
gggctctttgctctgcaagacatcccaaaaggtgtggagctgaagttcaactacaacctt
gagtgtcttggcaatgggaaaactgcctgtaaatgtggagcacccaactgcagcggtttc
ctgggtgtccggccaaagaaccagccgtcagctgagaaactgaaactaaaggaagggaag
aggaaggtccccatgaagaagaagaccaagcaagaagtgaccaaggagagggaagatgag
tgcttcagttgtggtgacgggggccagatagtgtcctgtaagaagccgggatgcccgaag
gtctatcacgctgactgtctcaacctggccaagaggcctgcagggcgatgggagtgtcca
tggcaccagtgtgacatttgtggtaaggaggcagcttcgttctgcgagatgtgccccagc
tcttactgtaaggagcatcgtgaaggcatgctcttcatctccaagctggacggcaagctg
tcctgcagtgaacacgacccctgtgggcctgacccgctggagccgggggagattcgtgag
tatgtgcccaacgcgacctccgtgaggcccggggccatggctgtgcctgtcactctctca
ctggtcccagactctagaagagccagttctgctcccatcacttcccctgctggccaggct
gcgacggccgggcagggacctcctcctcgtctctatatcaacacaaagactgctacctcg
agcttcatcccctccaacaggtcttacaccacagacgggacagaagggaatgcgttttcc
actcctacctcctccaaggacgagagagaggacggtgaggtggaggacggggaggtgtgt
gggttagaggtggaagacgtggaagacgacgacgacgacgacgacgaagaagcagaggag
gaagaggatgacatggaggagatggagatagtggaagatgaggaggatgagccactgtat
ggaggtgacctgctggaggaacaccacgacgatgacgaagacgacgacgacgacgacgaa
gaggacgacgaaggaggggatgtgtatgacacttggggtgattatgtggacgaagatgct
gatgatggcgaggtggagggagaggacttggaggagtgggagagggtggaggacgatgac
aagtga
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integrated database retrieval system
