Pseudoliparis swirei (Mariana hadal snailfish): 130209760
Help
Entry
130209760 CDS
T09868
Symbol
nsd1a
Name
(RefSeq) histone-lysine N-methyltransferase, H3 lysine-36 specific
KO
K15588
[histone H3]-lysine36 N-dimethyltransferase NSD1 [EC:
2.1.1.357
]
Organism
pswi
Pseudoliparis swirei (Mariana hadal snailfish)
Pathway
pswi00310
Lysine degradation
pswi01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
pswi00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
130209760 (nsd1a)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
pswi03036
]
130209760 (nsd1a)
Enzymes [BR:
pswi01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.357 [histone H3]-lysine36 N-dimethyltransferase
130209760 (nsd1a)
Chromosome and associated proteins [BR:
pswi03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
130209760 (nsd1a)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
PWWP
PHD-1st_NSD
SET
C5HCH
PHD_NSD
AWS
PHD
PHDvar_NSD
PHD_2
Motif
Other DBs
NCBI-GeneID:
130209760
NCBI-ProteinID:
XP_056295559
LinkDB
All DBs
Position
19:12460930..12473018
Genome browser
AA seq
2152 aa
AA seq
DB search
MNQSYRPVVRVGSVFGSGQPELRPRNGLVSTSYGNQCGIVRRGSDQPSAVQLPSSSCKQP
DRSHCYSSLKRLQDLNTGVNRPDLERDLHPRNYLHCASPISDDEDDDNDDEDDEDDEFEA
PLVQLPPSPGNDDMEPFETLQDVNRKDFSPHSTDSLERCSPIPNGYLHFESLLFDSSDIK
EEGEDSSSEDMAPFHYSPKLSRDRTVTDSKTTSSSGVDKRTYKPTVLNLMSKTISELNPT
LSPSALPEITMRDGWSFDEESDSDSEVDHGLISPAGTNSNSNSPKKKPLPAVKYTKGDLV
WAKFNRRPWWPCHINCDPRQGIHTKMKVPHPRPCRMYYVETIGEIAECAWVPGNAILSFE
GGHQFADLPVLRRRGKQKEKDYKYTIPKSLLTAWKVSVEEAEGQLPERKDTESVLSISEN
GEERVPSPLPTEKPQDAPSVPVDTSRPPSPSMAPNGNEHDLVKNSPSLPYNKSKACKKKK
KCLSDIFGHIVSGSKDSSAITNITEQFQTTTCTLKEEPTDSPYADLESVPILHRLKRTLA
STLHNIERLVKKEEGLTKAKTKLTEKVNPSPDPCDSSLILTKGSPPRDTHSEQALVSCHE
LLHSSTEKHSMNLPASSRLMTTALRAEEETDLKDALNTNQISTDAHADYSLDNTPSDAPI
KTERSPNWESPSNALLSTNHSSPKRRARKPDKKQIRNGSLLKSMRVDSGVPTVQPVQVKT
ETPDLSSSTSPSSTLSPMDAFQDVKELMFKSLVKEDNSDSEQTAFRPDSNYKFSTFLMLL
KDMHDTREQEGKPLALPPVPVVIKEEPLVIPTSTGGDLKGSCDGKTRAIKTENGRSGKST
TAKSTAGRGKNRTKPIMCADTYHCGLFPIRSQTGNSDKQRRKQRLPAKLNLSIPGLSSDL
ADLAYGREFVSGHADLADPGSCPLAAADPSASYLDKNSGSTVAPKKRWQMLEGAAESTGE
VRCEASAEMNGSYHMSASPDIDLGVEKQAENDSLFFLETSGAAGQSENKRLRKPTKRLLE
STEEYEQIFAPKKKSKKHTSETSKMQTSGMTALHDLSTTLGIMTSSSSSVEPTEASPEPE
QSPSPDALSPVASPLSLATQPSPSAETAEETNLPPESDTGLFVQDRKRPRKLSHKVLECT
IEEVAVAHTKKKEPKRQDNFVKKTQVGSVKKEKPEPSTPSAPAAAPQQSESKDLPVVLAE
NRPPRPQGSKTPRQETELEACSTEEKEYAHTGTLTPKPEVLLSVSLNDSLSSQVDVKGKI
GATSLKENVCQVCERTGDLLVCDGHCYGAFHLQCIGLSVAPKGKFLCRECKAGVHTCFVC
KKSGDGVKRCIIPLCGKFYHSDCILPYSATQPHNKGFRCPLHVCLSCHVTNPLNICSTKG
RLARCVRCPVAYHANDNCMAAGSLVLANNSFLCPNHFTPRKGCKNHEHINVSWCFVCSEG
GSLLCCESCPAAFHQECLNIEMPQGSWFCNDCKSGKRPCIKDIMWVKWGRYRWWPAEVCL
AKDVPNNILRMKHEVGEFPVQFFGSKDFVWTYQARVFPYMEGDTHNVEKMGKGADAVYKN
ALTDAAERFRELQVEKEMKQLQEDRKNDKKPPPYRHIKVNRPIGKVQIFTADLSEIPRCN
CKASEENPCGIDSECINRMLMYECHPQVCAAGERCQNQAFTKRQYTPVEIFRTLSRGWGL
VGLSDIKKGAFVSEYVGEVIDEEECRARIRHAQENDICNFYMLTLNKDRIIDAGPKGNQA
RFMNHCCQPNCETQKWTVNGDTRVGLFALQDIPLGMELNFNYNLECLGNGKTACKCGASN
CSGFLGVRPKNQPSAEKLKLKEGKRKMPMKKKTKQEVTKEREDECFSCGDGGQIVSCKKP
GCPKVYHADCLNLAKRPAGRWECPWHQCDVCGKEAASFCEMCPSSYCKEHREGMLFISKL
DGKLSCSEHDPCGPDPLEPGEIREFVPNMTSIRPGAVAVAVTPSLGPDSRGASSAPITSP
AGLVATVGERPPPRLYINTKTATSSFIPSSRSFRTDRTEAQGFSSPTSSKDENEDGEVED
GEVCGLEMEDLEEDLEEDDEEAEEEEDDMEEMEIVEDEEDEPLYEDDLPEEGDDDDEEEG
KGGDVYNTWGDYVDEDDEDHDEDDEDDEYDDDDDGEVEGEEWGRVEDDDNEK
NT seq
6459 nt
NT seq
+upstream
nt +downstream
nt
atgaaccagtcatacaggccggttgttagggtgggctcagtgtttggctctggccagcca
gagctgaggccccgcaatggtcttgtgagcacttcctatggaaaccaatgtggcattgtg
agacgtgggtcagaccaaccatcagccgtgcaactgccctcctccagctgtaaacagcca
gaccgatctcactgctacagctcgctcaagaggctacaggacctgaacactggggtcaac
aggcctgacctagagagggacctccatccgaggaactacttgcactgtgcaagcccgatc
agtgatgatgaggatgatgataatgatgatgaggatgatgaggatgatgaatttgaggca
ccattagtccagctgcctccttctccgggcaatgatgatatggagccctttgagactctg
caggacgtgaatagaaaggacttctcccctcacagtactgacagcttggagcgctgttct
ccgatacccaacggctacctgcattttgaatccttgctttttgacagcagtgacatcaag
gaagagggggaggacagtagtagtgaggacatggcaccttttcactactccccaaagttg
agtcgcgatcgaactgtgactgacagtaagaccacgagcagctcgggggtggataaaaga
acatacaaacctactgtcttgaacctgatgtccaaaactatatctgaactcaaccccaca
ctaagccccagcgcactgccagagatcacgatgagagatgggtggagcttcgatgaagaa
tcggacagtgatagtgaagttgaccatggactaatttcaccagctggcaccaactcaaat
tccaatagcccaaagaaaaaacctcttcctgcagtgaaatacacaaaaggggacttggtg
tgggctaaattcaacagacggccctggtggccgtgccacatcaactgtgacccacgccag
gggatccacacgaagatgaaagttccccatccccgtccttgtcggatgtattacgttgaa
accattggggagattgcagaatgtgcctgggtccccggaaatgccattctttcttttgag
ggaggccatcagtttgcagacctacctgtgcttcgacggagagggaagcagaaggagaaa
gactacaagtacacgatacccaaaagtttactgactgcgtggaaagtcagcgtggaagaa
gctgagggtcagctcccagaacgaaaggatactgaaagtgtgctttcaatatctgagaat
ggagaggagcgtgtgcccagcccactcccgaccgaaaagccacaggacgccccgtctgtc
cctgtggatactagtcggcccccgtcacccagtatggcccccaacggaaatgagcacgat
cttgtcaaaaactctccttcacttccatacaacaagagcaaagcttgtaagaagaaaaaa
aaatgtttgtcagacatatttggtcatatagtcagtggatcaaaagactcatctgccatc
acaaacattacagaacagtttcagacaacaacttgtacactgaaggaggagccaacagac
tcaccgtatgcagacctggagtcagttccaatactccatcgtcttaaacgcacattagcg
tctacattacacaatatagaaagattggtcaaaaaagaagagggtttaacaaaagctaaa
acaaagttgacagaaaaagtgaacccttctccagatccttgtgattcctctctcatttta
acaaaaggatcgccacctagagacacacattctgaacaggctttggtcagctgtcatgaa
ttgttgcacagttcaactgaaaagcattctatgaatctccctgccagcagccgtctgatg
acgacggctctgagagcagaggaagagacggatctcaaagatgcactgaacacaaaccaa
atctcgacagatgcccacgcggattattctcttgacaacacaccctctgatgcgcccatc
aaaactgaaaggtctccgaactgggaatcacccagcaatgcattactctccacaaatcac
agctctccaaaaaggcgtgccaggaagcctgataagaaacaaattcgtaatggctcgttg
ctaaagtctatgcgcgtggactcaggtgtacccacagtgcaaccggttcaggtcaagacc
gaaaccccagatctatcatcgtctacttccccatcctcaactctgtctccaatggatgct
ttccaggatgtcaaggaactcatgtttaaatctcttgtgaaggaggacaacagtgactct
gagcagaccgcatttcggcctgattccaattataaattcagcaccttcctgatgctcctg
aaagacatgcatgataccagagagcaggagggtaaacctctggctcttccgcctgtgcca
gtcgtcatcaaggaggagcccctggtgatccctacgtcgacaggaggagacttgaagggt
tcttgtgatggtaaaactcgagcaatcaaaacggagaatgggaggtcagggaagtccaca
acagccaaaagcactgcagggagaggcaagaatcggactaaacctatcatgtgcgctgac
acctaccattgtggactctttcctattcgctctcagactgggaactcggacaagcagcgt
agaaaacaaagactacctgccaaactaaatctcagcatacctgggctttcttcggacctg
gctgacttggcttacggtcgggagttcgtcagtggccacgctgacttagctgatcccggg
tcgtgtcctctcgccgccgctgatccctcggccagctacctcgataagaactcagggtcc
acagtggctccaaagaagcgctggcagatgcttgagggggctgctgagagtacgggtgaa
gttagatgtgaggcgtccgctgagatgaacgggtcttaccacatgagcgcatcaccagat
attgatctgggagttgagaagcaggcagagaacgactcgctcttcttcttggagacaagc
ggcgcagcaggacagtcagagaacaagcgtctccgcaaaccaactaaaaggctcctggag
tcaactgaggagtatgagcagatatttgccccaaaaaagaagtcaaagaaacacacctca
gaaacttccaaaatgcagacctcagggatgacggcacttcatgatctcagcaccacactg
ggaataatgacctcatcctcgtcttctgttgagcccactgaggcttcgccagagccggaa
cagagtccatctccggatgcactttctcccgtagcatcccctctatctctagccacacaa
ccctccccgagtgcagagacagcagaagaaaccaatctacctcctgaatctgatacaggg
ttattcgtccaagacagaaagaggccaaggaagctgtctcacaaggtgctggaatgtacc
atagaagaagttgccgttgctcatacaaagaagaaggagccaaagcgacaagacaacttt
gtcaagaaaactcaggttggatctgtgaagaaagagaagccagaacccagtacaccctct
gctcctgctgctgccccccagcagtcagaaagcaaagaccttccagtggtgctcgctgaa
aaccggcctcccagacctcaggggtctaagacgccccggcaggagactgagctggaggcc
tgcagcactgaggagaaagaatatgcacacactggaacactaactcccaaacctgaggtg
ctgctgtctgttagtttgaatgacagcctctcttctcaagtggatgtgaaagggaaaata
ggtgctacatccttaaaggagaatgtctgtcaggtgtgtgagaggacaggcgacctgctg
gtgtgtgacggtcactgttatggagcctttcacctgcagtgtattggcctgtcagtggct
cccaaggggaaattcctctgtcgtgaatgcaaagctggtgtccacacgtgctttgtgtgt
aagaagtctggtgatggggtaaagcgctgcatcataccattgtgtgggaagttctaccac
agcgactgtatattgccatattcggccacacagccacataacaaaggcttccgctgccct
ctgcatgtgtgtctgtcttgccacgtcaccaaccctctcaacatctgcagcactaaaggt
cggttggctcgatgtgttcgctgccctgtggcctatcatgccaatgacaactgtatggca
gccggtagcctggtgctggcaaacaatagcttcctctgtccaaaccacttcactccccgc
aagggctgcaagaaccacgaacacatcaacgtgagctggtgctttgtgtgctctgagggg
ggcagtctgctgtgctgtgagtcctgtcctgctgctttccatcaggaatgtttgaatatc
gagatgccacagggcagctggttctgcaatgactgcaaatctggaaagaggccttgtatt
aaggacataatgtgggtcaaatgggggcggtacaggtggtggcctgcagaagtctgtctc
gccaaagatgtcccaaacaacatcttgaggatgaaacatgaggtgggagagtttccagtg
caattctttggctccaaagattttgtgtggacgtaccaagccagagtcttcccctacatg
gagggggacactcacaatgtagagaaaatggggaagggagcagatgcagtgtacaaaaat
gccctgactgatgcagcagagcggttcagagaactccaggtcgaaaaggagatgaagcag
cttcaggaggaccggaagaatgacaagaaacctcctccataccggcacattaaggtcaac
cggccaattggtaaggtgcaaatctttacggctgacctatccgagatcccacgttgcaac
tgtaaggcgtctgaggagaacccatgcggcatcgactccgagtgcattaaccgcatgctg
atgtatgagtgccaccctcaggtgtgtgcagcaggggagcgatgtcagaaccaggccttc
acaaagcgccagtacactcctgtggagattttcagaacactgtcccgcggctggggttta
gttggtttgtcggacatcaagaagggagccttcgtgagtgagtatgtgggagaggtaatt
gatgaagaagaatgccgagccaggatcagacacgcccaggagaacgacatctgcaacttc
tacatgctgacactgaacaaggaccggatcattgatgccgggcccaaaggtaaccaggct
cgcttcatgaaccactgctgccagccaaactgtgagacacaaaagtggactgttaatggg
gacaccagagtcggactatttgctctacaagacatcccattaggtatggagctgaatttc
aactacaacctggagtgtctcggcaatggcaaaactgcttgtaaatgtggagcatccaac
tgcagtggtttcctgggggtcaggccaaagaaccagccatcagctgagaaactgaaactg
aaggagggtaagaggaagatgcccatgaagaagaagaccaagcaagaagtgaccaaggag
agagaagacgagtgcttcagctgtggtgacgggggccagatcgtgtcctgtaagaagccg
ggttgcccgaaggtctatcacgccgactgtctcaacctggccaagaggcctgcaggacga
tgggagtgtccgtggcaccagtgtgacgtctgtggtaaagaggcagcttcgttctgtgag
atgtgtcccagctcttactgcaaggagcatcgtgaaggcatgctcttcatctccaaactg
gatggcaagctgtcctgcagtgaacacgacccctgtggacctgacccactggagcctggg
gagatccgtgaatttgtgcccaacatgacctccattaggccgggggctgtggctgtggcc
gtcacgccctcgctaggcccagactccagaggagccagttctgctcccatcacttcccct
gctggcctggttgccacggtcggggagaggcctcctcctcgtctctatatcaacacgaag
actgccacctcgagcttcatcccctccagcaggtctttccgcacagacaggactgaagcg
caagggttttccagtcccacctcctccaaggatgaaaatgaggacggggaggtggaggac
ggggaggtgtgtgggttggagatggaggacttggaagaggacttggaagaggacgatgaa
gaagcggaggaggaagaggatgacatggaggagatggagatcgtggaagacgaggaggat
gagcctctgtatgaagatgatctgccggaggaaggtgatgatgacgacgaagaggagggc
aaaggaggggatgtgtataacacttggggtgattatgtggatgaggatgatgaggatcat
gatgaggatgatgaggatgatgagtatgatgatgatgatgatggagaggtggagggggag
gagtgggggagagtggaagacgacgacaatgagaagtga
DBGET
integrated database retrieval system
