Antennarius striatus (striated frogfish): 137602758
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Entry
137602758 CDS
T10427
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
astr Antennarius striatus (striated frogfish)
Pathway
astr00310
Lysine degradation
astr01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
astr00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
137602758 (nsd1a)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
astr03036
]
137602758 (nsd1a)
Enzymes [BR:
astr01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.357 [histone H3]-lysine36 N-dimethyltransferase
137602758 (nsd1a)
Chromosome and associated proteins [BR:
astr03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
137602758 (nsd1a)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
PWWP
PHD-1st_NSD
SET
C5HCH
AWS
PHD_NSD
PHD
PHDvar_NSD
Motif
Other DBs
NCBI-GeneID:
137602758
NCBI-ProteinID:
XP_068181850
LinkDB
All DBs
Position
10:complement(13249663..13263407)
Genome browser
AA seq
2115 aa
AA seq
DB search
MNQSYRPAFGLGSVFGSGQPHGRALHGLVSTSYGNQCGIVRQGSDQPPGVQLPPPSLKQP
ERSHCYSPLKRLQDLNAAVSRHDLDRNPHTRNRLHCASPISDDEFEAPSVRLPPSPGKDE
LGPLDALRDLNRNGFSPHSPGLLESCSPIPNGYLHFESTLFDSSDMKEEGGEREHGSNDV
LTPFRHFPKLSRDQTVSDNKTSCSSGVDKRTYKPTVFNLMSKTISELNPTLSPSALPEIT
MKDGWSLGEESDSDGELASTVDHGLTSPAGTNSNSNSPKKKSLPAVKHAEGDVVWAKFNR
RPWWPCHVICDPDQGTHTKMKVPSPRPCRMYFLETIGEIVERAWVTGNAIHSFEGGHQFE
DLPVLRRRGKQKEKDYKYTIPRSLLTAWKVSVAEAECLLPNQQRKTESTLSVPVNGKESM
PSPLPTEQLQEAPSVPVDPGRPPSPNLTLNGNESRHIISSASLQCSRSKAFKKKKKCLSD
IFGHIVSGSKESSPITNVLDQLQNTTHALKQEPKDSPYADLDSVPMLHRPKRTTVSPIQD
VDVFRDELGSTKDEINFTEIVSRNTDNCYSSILTKERTPNNTNTEQSSGSCKELSSKSSE
KHSESLPASSRLMTRALKAEVMDTPPTSHNSTEFHVDKSPVTPENAPVQTETSLNWESPS
NVSTSSNLSSPKRRARKPDKKQIHNGSLIKSQSEKSSVPTVQPIEIKTENVPQTLSLSPS
SSLSPVDAFQDPKELVFKSLGNEDSSDAESTVFRPDSNYKFSTFLMLLKDMHDTREKEGK
PLTVPRSSVLIKEEPLVIPTSTAGDTNDCTQRIKTEYAKSGKSTTFQNRGVRTKNRTKVT
VKADFYCEDFTVNSQTNSDKQRRKQRLPAKLKPGLPGFSSDLSNFAYGRQFFSGHADVSY
ALSSPPVTAGPSASYRGRNSGSTVAPKKRWQLMEDVSESKTELMKELSTEINGSCTVTAS
PDLDLDIEGHIENDLYFSEINAAGNSDKKRLRKPTKRLLESTEDFEQIFVPKKKSKKHTL
AASKVQNSGLTALQDLRSTPGIVPSTSTSSLSSVEPTEGPELQSPSQDEPFPLAPSGSSP
TTQTVLDTHAAEATDLLPTSDKGLVSQERKRPRKLSHKVLECTIEEVSVASTKKKEQKQY
SGVTSEVKVLVKKTQDGCLKKEKTVPCASSTSTPENSENGDLCEDLTANQPRSPPGSRTP
MQDLDACSTVDTENIHTGTLTPKPEENSVESSDSLSSMVDVKPKIGATTFKENVCQVCEQ
TGDLVVCEGQCYGAFHLQCIGLSVAPRRKFVCCECNTGAHLCFVCKKSGNGIKRCMIPLC
GKFYHTDCILPYSATQTHNKGFRCSLHACLSCHISNRLNICSKGRLARCVRCPVAYHAND
NCMAAGSLLLANNSFLCPNHFTPRKGCKNHEHINVSWCFVCSEGGSLLCCEACPAAFHRE
CLNMEMPQGSWFCNDCKAGKRPRIKDILWVKWGRYRWWPAEVCLTKDVPDNILRMKHEVG
EFPVQFFGSKDFVWTYQARVFPYMEGDTHNIEKMGKGADAVYKNALTEAAKRFKELQAEK
EMRQLQEDRKNDKKPPPYKHIKVNRPIGKVQIITADLSEIPRCNCKASDETPCGVDSECI
NRMLMYECHPQVCAAGERCQNQAFTKRQYSHVEIYRTLSCGWGLRAVLDIKKGAFVSEYV
GEVIDEEECRARIKHAQENDICNFYMLTLDKDRIIDAGPKGNQARFMNHCCQPNCETQKW
TVNGDTRVGLFALQDIPKGVELNFNYNLECLGNGKTACKCGAPNCSGFLGVRPKNQPPSE
KLKLKEGKRRVPMKKKTKQEVTKEREDECFSCGDGGQIVSCKKPGCPKVYHADCLNLAKR
PAGRWECPWHQCDVCGIEAASFCEMCPSSYCKEHREGMLFISKLDGKLSCSEHDPCGPDP
LEPGEIREYVPNASALRPGARTGSVPLVPDSRRTDSAPSPTSADDTRTTEQGPPPRLYIN
TKTATSSFIPSSRTYQRNRTDGSAFSTFASSEVKDGDLEDGEVCGLEVEDMDDTEDVEDD
DDDGDEEEDEMDDVEIVEDEHLYSGDLMEEDDDEHENEAGELYDSWGDYVDEDADDGEVE
GQDFEEWGRVEDDDK
NT seq
6348 nt
NT seq
+upstream
nt +downstream
nt
atgaatcagtcatacagaccggcttttgggttaggctcagtgttcggctctggccagccc
cacggaagagcccttcatggccttgtgagcacttcctatggaaaccaatgtggcattgtg
aggcaagggtcagaccagcctccaggtgtgcagctgccgccccccagcctcaagcagccg
gagcgatcccactgctacagcccgctgaagaggctgcaggaccttaacgctgcagtcagc
aggcatgacctggacaggaacccgcacaccagaaaccgcttgcactgtgccagccccatc
agcgatgatgagttcgaggcgccttcagtccggctgccaccttctccaggcaaggatgag
ttggggcctttggatgcgctccgggacttgaacaggaacggcttctcccctcacagcccc
ggccttttggagagttgttctcccatccccaacggctacctgcattttgagtccaccctg
tttgacagcagtgacatgaaggaagaaggtggagaaagggagcacggtagtaacgatgtt
ttgacaccttttcgccactttccaaagttgagtcgggaccaaactgttagtgacaataag
acgtcatgcagctcaggggtggataagagaacatacaaacctactgtatttaatctgatg
tcgaaaactatatctgaactcaaccccacgctaagccccagcgcgctgccagaaatcact
atgaaagacggctggagtttgggcgaggaatcagacagtgatggtgaacttgcctctact
gttgatcatggattgacttcaccagctgggaccaactccaattccaacagcccaaagaaa
aagtctctccctgcagtgaaacatgcagaaggggatgtggtttgggctaaattcaacaga
cgcccttggtggccatgtcatgtcatctgtgacccagaccagggcacccacactaagatg
aaagttcccagtccccgcccttgtcggatgtatttcctggagactattggggagatcgtg
gagcgtgcctgggtcacagggaatgcgattcattcttttgaaggaggccatcagtttgaa
gatttaccagtgctcagacgaaggggcaagcagaaggagaaagactacaagtatacgata
cccagaagtttactgactgcgtggaaagtcagtgtggcagaggctgagtgtctgctcccg
aatcagcagaggaaaactgaaagtacgctctcagttcctgtcaatggaaaggagagtatg
cccagcccactcccaactgaacagctccaggaggccccctctgtccctgtggaccccggt
cgacccccatcacccaatttgacgctcaatggaaatgaatctcgtcacatcataagctct
gcttcacttcagtgcagtaggagcaaagcttttaagaagaaaaagaaatgcctgtcagat
atatttggtcatatagtcagtggctcaaaggagtcttctcccatcacgaatgtgctggat
cagttacagaatacaactcatgcactgaaacaggagccaaaggactcaccttatgcagac
ctggattcagttccgatgctacatcggcctaaacgcacaaccgtgtctccgatacaggat
gtagacgtattcagagacgaactgggctcaactaaagatgaaataaactttactgaaata
gtgagccgtaatacagacaattgttatagtagcattttaacaaaagagcgaactcctaat
aatacaaacactgaacagagttcaggcagctgtaaagaactctcatcaaaatcaagtgaa
aagcactctgaaagcctccctgctagtagtcgtctgatgaccagagctctgaaagcagag
gtgatggacacgccgccaacaagccacaactcaacagagttccatgtagataagtctcct
gttacacctgagaacgcacctgtccaaaccgaaacgtctctgaactgggagtcacccagt
aatgtgtcgacctccagtaatctcagctctccaaagaggcgagcgaggaagcccgataag
aaacaaattcacaatggctcactgatcaagtcccagtctgaaaagtctagtgtgcccact
gtgcagcccattgagatcaagacagaaaacgttcctcagacattatcgttgtccccatcc
tcttctctgtctccagtggacgctttccaggatcccaaagaactcgtatttaaatctctt
gggaacgaggacagcagtgacgctgagtcgacagtatttcgacctgattctaattataaa
ttcagtacctttctgatgcttttgaaagacatgcatgataccagagaaaaagaagggaaa
cccctgactgtcccacgatcctctgtcctgatcaaggaggaacctcttgtcatccctact
tctactgcaggagacaccaacgattgtactcagaggattaaaacagagtatgcaaagtca
gggaagtccacaacattccaaaatagaggagttagaacaaagaacaggacgaaagttact
gtgaaagctgacttttattgtgaagactttactgttaactctcagacaaactcagacaag
cagcgcagaaaacaaagactaccagccaaactgaaaccaggtctccctggcttttcttcc
gacctgtccaattttgcttatggcaggcagttttttagtggccacgcggatgtatcctat
gctttgtccagtcctcctgtcactgctggtccctcggcaagctaccgcggtcggaactca
ggatccacagtggctccaaagaagcgctggcagttgatggaggatgtttccgagagcaag
actgaactcatgaaggagttgtcaaccgagataaatgggtcgtgcaccgtgacggcatca
cccgatcttgatctggacattgaggggcacatagagaatgatctgtatttctctgagatc
aacgccgccggaaactcagataagaaacgcctccgaaagccaacaaaaaggcttctggag
tcaaccgaggactttgaacaaatatttgttccaaaaaagaaatcaaagaaacacacctta
gcagcttccaaagtgcaaaattcagggttgacagcactacaggatctccgcagcacacca
ggaatagttccctccacctccacgtcatccttgtcgtctgtagaacccactgagggtcca
gagctgcagagtccgtcacaggatgaaccgtttcccctggcgccctcaggttcctcacca
acaacacaaactgtcctcgacacacacgcagcagaagcaactgatttacttcctacgtca
gacaaagggttagtatcccaagaaagaaagaggccgaggaagctgtcgcacaaagttctg
gaatgcaccattgaagaagtgtctgttgcttctacaaagaagaaggaacaaaagcaatac
agtggagttacttcagaggtaaaagtgttagtcaagaaaactcaggatggatgtctgaag
aaagagaagacggtaccctgcgcatcttctacctctacccccgagaactcagaaaatgga
gatctctgcgaggacctcaccgcaaaccaacctcggagccccccaggctcgaggactccc
atgcaggaccttgatgcctgcagcactgtggatacagaaaatatacacactggaacacta
accccgaaacctgaggaaaactctgttgagtcaagcgacagtctttcttctatggtggat
gtaaaaccgaaaataggagctacaacgttcaaggagaatgtctgtcaggtgtgtgagcag
acaggagacctggtggtgtgtgagggccagtgctatggagcctttcatctgcagtgtatc
ggtctctcagtggctcccagaagaaagtttgtgtgctgtgaatgcaacaccggtgctcac
ttgtgctttgtgtgtaagaagtctggtaacgggataaagcgctgcatgatcccgctgtgt
gggaagttctaccacaccgactgtatcctgccatactcggccacccagacgcataacaaa
ggcttccgctgctctctgcacgcatgtctgtcctgtcacatcagcaaccgtctcaacatc
tgctcaaaaggtcgattggctcgttgcgtccgctgccctgtggcctatcacgccaatgac
aactgtatggccgcaggcagcttgttgctggcaaacaacagcttcctctgtccgaaccac
ttcaccccccgtaagggttgcaagaaccacgagcacattaacgtcagctggtgcttcgtc
tgctctgaagggggcagcctgctgtgttgtgaagcctgtcctgcagcgttccatcgagaa
tgtctgaatatggagatgcctcagggcagctggttctgcaacgactgcaaagctggaaag
aggcctcgaataaaggacatcctgtgggtcaaatggggtcgttacagatggtggccagca
gaggtctgtctgaccaaagatgtcccagataacattctcaggatgaagcatgaggtggga
gagttcccggtacagttctttggctccaaagattttgtgtggacttatcaggccagagtc
tttccctacatggagggtgacactcataacattgagaaaatgggaaaaggtgcagatgca
gtgtacaaaaatgccctaactgaagcagcaaagcgattcaaagagctccaggcagaaaag
gagatgaggcaacttcaggaagacagaaagaatgacaagaagccacctccatacaagcac
attaaggtaaaccggccaattggaaaggtgcagattatcactgcggacctatcggagatc
ccgcgttgtaactgcaaggcatctgacgagaccccgtgtggcgtcgactcggagtgcatc
aatcgcatgctgatgtacgagtgccaccctcaggtgtgtgcggcaggggagcggtgtcag
aaccaagccttcacgaagcgtcagtattcccacgtggagatctaccggacgctgtcctgc
ggctggggtttgcgtgccgtgttggacatcaagaagggagccttcgtgagtgaatatgta
ggagaggtgatcgatgaagaggagtgtcgagccagaatcaaacatgcccaggagaacgac
atctgtaacttctacatgctgacactggacaaggaccggatcattgatgccgggccgaaa
ggaaaccaggctcgcttcatgaatcactgctgccaaccaaactgtgagactcagaagtgg
actgtgaacggggacacgagggtggggctgtttgccttgcaagacatcccaaaaggtgtg
gagctgaatttcaattacaacctggagtgtcttggaaatgggaaaacagcctgtaaatgt
ggagcacccaactgcagcggtttcctgggtgtccggccgaagaaccagccaccatctgag
aagctgaaacttaaagaagggaagaggagagttcccatgaagaagaagaccaaacaagag
gtcaccaaggagagggaggacgagtgctttagctgtggtgacggcggccagatagtttcc
tgtaagaagccaggttgcccaaaggtctatcacgcagactgtctcaacctggccaagaga
cctgcagggcgatgggagtgtccctggcaccagtgtgacgtctgtggtatagaggcagct
tctttctgtgagatgtgtcccagctcttactgcaaagagcatcgtgaaggcatgctcttc
atctccaaactggacggcaagctgtcctgtagcgaacacgacccttgtggccccgacccc
ctggagccaggagagattcgggaatatgtgcccaacgccagcgccttgaggcccggggcc
aggactgggtcggtccctctggtcccagactccagaaggactgactctgctccctcccct
acttctgctgatgataccagaacgacagaacaggggcctccaccccgtctctacataaat
accaagactgctacctcgagcttcatcccctccagcaggacttaccagagaaacagaact
gacggcagtgcgttttccactttcgcctcctccgaggtcaaggatggtgatctggaggac
ggggaggtgtgtgggttggaggtggaagacatggacgatacggaagacgtggaagacgat
gacgacgacggagacgaggaagaggatgaaatggatgacgtggagatagtggaagatgag
catctgtacagcggtgacttgatggaggaagacgacgacgaacatgagaatgaagcaggg
gaattgtatgacagttggggagattatgtggatgaagacgcagatgatggagaggtggag
ggacaggactttgaagagtggggcagagtagaggatgatgacaagtga
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integrated database retrieval system
