Silurus meridionalis (southern catfish): 124392022
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Entry
124392022 CDS
T08004
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
smeo
Silurus meridionalis (southern catfish)
Pathway
smeo00310
Lysine degradation
smeo01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
smeo00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
124392022 (nsd1a)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
smeo03036
]
124392022 (nsd1a)
Enzymes [BR:
smeo01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.357 [histone H3]-lysine36 N-dimethyltransferase
124392022 (nsd1a)
Chromosome and associated proteins [BR:
smeo03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
124392022 (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:
124392022
NCBI-ProteinID:
XP_046714681
LinkDB
All DBs
Position
10:22348501..22382017
Genome browser
AA seq
2054 aa
AA seq
DB search
MNQSYKLGAKDGSERRPGPHCPQVASCGLQHGAKQASSFGYGQRESTSNYSPLRRLQDLT
AMVSRPEMSLQDKDFHGRAKAHVHASEFGLGIVHSPQSFSRDADDNVFRNVQNLDKNGFS
PVSSDSLEHISPIPNGFLHFESSLFDSGDSKDDHDEEEHVVAYKPSAKKCQKRDSKSFSG
AGLNLSLNRHERFDPVSKSTPQPAPEPPPTPPPLRVEDMIRDFDSSDGYSDSDCDLPSTE
NCASMFNVGLSQRPSSPSSTYTDPSDSPKKKPLPEVKFTVGDVVWAKFNRRPWWPCRVSI
DHSRNSHTKMKEPSSRPCRMYFVRTFGEIVDQAWVSAKATCAFEGGQQFEKLPVLRRRGR
DKILVSKRLMPLWKASVLEAEAALPEYLRSKLQLPSVREIHSPVMDERTSVSPTFPDFHS
SSPSPVFSNGHDHPIVASPKIKEGSKKKLSAKRKNSSLHKSPVKNKDELFSKLTSSPKPD
ISKPPAALANNLASDSRDCPYLDIDSVPRILCPKRPEEQLKEVSDKELCIEPKAERTSRK
AKKVRKVAKETAALTKPKSSTIRNKKDTTSNGSSLSRTSSGSTDGTFEMHSFYFPASCGL
ISRALANYELSEKKNELDSSHESRSSSPALSDEHDSFSPVMDIPETTEHQWQVKTDPVAN
PTHPKSQHCGGSPNPTLLKLTRIRSNKEPSLNGSHRKRKDSTTRPAELPVAGLKIKKESS
SSSSSSSISSPSPLPFEAFREPKDFSLHSLVKDECGSDDKYKFTTYLMLLKDLHETREKE
GRPLTLPPTSPSSLIKEEPSLLPAQPQPERTTPDMVQKKDSQTPRVPNGPQGKTPSSLKP
NKLKPKSTGKKEPQKHDGVNNLLPPVTELKKQDDVRATPTEKLPKYRTGSVLAGSGKGMM
SAVAPKKRWQTFDAEQEDRAKPKRDQSSLLEQDRVMPPTRLNGVFEESHESPQVNAKDRR
DSSESKRLRKPSKRLIEWSEDYEQISTTKKKTRKTPESYKAASLINNTNVGEDTPRTLLA
DVLCSVASQPSESWIPKLSQPERQLALDETDNASSPPKSTPPKAPTVELELVEKKTASSE
RKRPRKTKVMDLTFEDAILRIPKKKESRLKGQWIQQVVVEDVQKNKVPETTLSSPPSKAG
ISPELGDAQASLKQPTTPRVFQSHIQGENSSPTKPQTVEMKPCDDSGPLHTEVFGPALTE
DMVQSRDSLTAEMGVSNSKKVSEKGGGASLKENVCQVCENTGELLLCEGQCCGAFHLQCI
GLSETPKGRFICQECTTGVHTCFVCKKPGKDVRRCMIPVCGKFYHMECVMKFSPTLQQNR
GFRCSLHVCLSCYITNPLNPSSSKGRLTRCVRCPVAYHANDYCMAAGSVPLANNSFLCPN
HFTPRKGCKNHEHINVSWCFVCSEGGSLLCCESCPAAFHRECLNIEMPKESWYCNDCRAG
KKPHYKDILWVKVGRYRWWPAEVTQPKNVPENISRMRHEVGEFPVHFFGSKDYVWTYQAR
CFPYMEGDAHNKEKMGKGTDAVYKKALNEAAERFRELQAEKEMRQLQEDRKNDKKPPPYR
HIKVNRPVGKVQIVTADLSELPRCNCKATDENPCGMDSECINRMLLYECHPQVCAAGERC
QNQCFTKREYTPVEIFRTLSRGWGLRSINDIRKGAFVSEYVGEVIDEEECRARIRHAQEN
DICNFYMLTLDKDRIIDAGPKGNQARFMNHCCQPNCETQKWTVNGDTRVGLFALVDIPEG
VELTFNYNLECLGNGKTVCKCGAPNCSGFLGVRPKNQPPSDDKARKGKKKMSAKRKSQLQ
VVKEHEDECFYCGDGGQIISCKKPGCPKVYHADCLNLSKRPAGRWECPWHQCNECGKEAA
SFCEMCPSSYCKQHRDGMLFISKLDGKLSCSEHDPCGPDPLEPGEIREYIPGMPVLSPPP
KCRLTPPTADLYIPPVTRKAPYSRQQTAFEDEVVLDEDLLPAPSLSKEVKDDVMAEVEEG
EVVEGLIGGEGVGLEVIGEDDVDEDGEVDYEEFEDEDEEEGFEKGWDEDDWDDDSCIDED
FVTEGLEDESYRGK
NT seq
6165 nt
NT seq
+upstream
nt +downstream
nt
atgaatcagtcgtataaactgggcgccaaagatggctcggaacgtcgcccgggcccgcac
tgtccgcaggtcgcgtcctgtgggctccagcatggcgccaagcaggcgtcctcgttcggg
tacggccaaagggaatcgacgtccaactacagtccgctgaggaggctccaggacctgacg
gctatggtaagcaggccggagatgagtctacaggacaaggatttccacgggcgagctaaa
gcgcacgtccacgcatcggagttcggcctcggcatcgtccactcgccgcagtccttcagt
cgtgacgctgatgacaacgtgtttagaaacgtccagaatctggataagaatggcttttct
cccgttagctcggacagcctggagcacatatctccgatcccaaacggattcctgcatttc
gaatcgagcctcttcgacagcggggacagcaaggacgaccacgacgaagaggagcacgtg
gtggcgtataaaccttcagccaaaaaatgccagaaaagggactccaagagcttctctggt
gcaggcctaaacttaagcttgaacagacacgaacgttttgacccagtttcgaaaagtact
ccacagccagcaccggaacctcctcctactccacctccactacgtgttgaagacatgata
agggattttgacagttcggatggctactcggacagcgactgtgaccttccgagcaccgaa
aactgcgcttcgatgttcaacgtaggcctttctcagaggccaagctcacctagcagcacc
tacacagatccttctgacagcccaaagaagaagcctcttccagaagtgaagtttaccgta
ggcgatgtggtgtgggccaaatttaaccgcaggccttggtggccctgtcgcgtctccatc
gaccattcaagaaacagccacaccaagatgaaagagcccagcagcaggccatgccgaatg
tattttgtcaggacgtttggggagatcgtggaccaagcctgggtgtctgcgaaagctacg
tgtgcttttgaaggaggacagcagtttgagaaacttccagtgctgaggcgacgaggcaga
gataaaatcttggtttcaaaacgcttgatgcctctgtggaaagccagtgtgctggaggca
gaggcagctctaccagagtatctcaggagtaaactacaacttccctcagtcagagagata
cactctcctgttatggatgagaggacatccgtttctccgaccttcccagactttcactca
tcctcaccgagtccagttttctcaaacggacacgatcatcccattgtcgcttcacccaaa
attaaggagggaagcaaaaagaaattatccgctaaaaggaaaaacagctcgctgcacaaa
agcccggttaaaaacaaagacgaattgttctccaaattgacgtcaagccccaagccggac
atctcgaaacctcctgctgctcttgcaaacaatctggcgtccgactccagggactgccct
tacttggacattgattcggttcccaggatactgtgccccaaacgcccggaagagcagctt
aaagaggtgtcagataaagaactgtgcattgaaccgaaggcagaacggacaagcagaaaa
gcaaaaaaagtccgcaaggtggcaaaagaaaccgcggctttgacaaaacccaagtcatct
acaatcagaaacaaaaaggacaccacttcgaacggcagcagcttgagtcgcacttcttcc
ggatcaacagacggcacatttgagatgcattctttctacttcccggcgagttgcggcctt
atctccagagccctcgcaaactacgagctatccgaaaagaagaacgagcttgattctagc
catgaatcccgatcatcatctccagctctctctgatgagcacgattcattttccccagtc
atggacataccagaaaccacagagcaccaatggcaagtaaaaacagaccccgtagccaat
ccgacacatccgaaatctcagcactgtggaggctccccaaacccaactttgctcaagtta
acaagaatccggtccaacaaggaaccctctttaaacggctctcatcgaaaaaggaaggat
tctaccaccagacctgcggaattgccagtcgcaggtttaaaaatcaagaaagaatcaagc
agttcctcatcctcctcctccatttcatccccatcacctttacccttcgaggctttccgg
gagcctaaagacttttctttgcattctctggtaaaagacgagtgcggttcagatgacaag
tacaaattcaccacctaccttatgttgctgaaggacttgcatgagacccgggagaaggaa
ggaaggcccctgacgctcccgccgacatccccgtcttcccttatcaaggaagaaccctct
ctcctccctgcacagccccagcctgaacgtacaactcccgacatggttcaaaagaaagat
agtcagactcctagggttccaaacgggccccaggggaaaaccccaagcagcctgaagcca
aacaaattgaaacctaaatccacaggcaaaaaagaacctcaaaaacatgacggggtgaac
aacttgctccctccggttacagagctcaagaaacaagatgatgtgagagcgactccaacc
gagaagctgccaaagtaccggacaggttctgtccttgctggcagtgggaagggcatgatg
tcagcagtggcgccaaagaagcgctggcagacgtttgatgccgagcaggaggacagggca
aagccaaaaagagatcagagcagcttgcttgagcaagacagggtcatgcctcctaccaga
ctcaacggagtatttgaagagagccacgaaagcccccaggtcaacgctaaggacaggagg
gatagctctgagagcaaaagacttcgaaagccaagcaagaggctgatcgagtggagcgag
gactacgagcagatctccactacaaagaagaaaacgaggaaaacccccgagtcctacaaa
gcagcgtctttgattaataacactaatgttggtgaggatacgccgagaactttgttggct
gacgttttgtgctcagtagcaagtcagccgtccgagtcttggataccaaaactatcacag
cccgaacgtcaactcgctctcgatgaaaccgataacgcttcttccccaccaaaatcaacg
ccccctaaagctcctacggtcgaactggaattggttgaaaagaaaacagcatcttcagaa
aggaaaaggccgcggaagactaaagtgatggacttgactttcgaggatgcgattctcagg
attccaaagaagaaggagtcgaggctgaaaggtcaatggatacaacaagtggtggttgaa
gatgttcagaaaaacaaagtgcctgaaaccactctgtccagccctccttccaaagcaggt
atatcacctgaactgggtgatgcacaggcatccttaaagcaacccacaacacccagagtc
ttccagagccacattcagggagagaacagcagtccgactaagccccaaacggtcgagatg
aaaccatgtgacgactcaggacctttacacacagaggtgtttggtccagcactgactgaa
gacatggtccagtccagagactcattaactgctgaaatgggtgtctcaaacagtaaaaag
gtatctgagaaaggtggaggcgcctcactgaaggaaaacgtgtgccaggtgtgtgagaat
acaggcgagttgctactgtgtgaaggacagtgctgtggagcttttcacctccagtgtatc
ggccttagcgagaccccgaaaggacgctttatctgtcaggagtgcactacaggcgtgcac
acgtgtttcgtgtgtaagaaaccaggcaaggacgtgcgacgctgtatgatcccggtgtgt
gggaagttctaccacatggaatgtgtaatgaaattctcccccacgctccaacagaaccga
ggcttccgctgctctctccacgtctgtctgtcctgctacatcaccaaccccttaaacccc
tctagctccaagggtcgcctgacccgctgtgtgcgctgtccagtggcgtaccacgcaaac
gactactgcatggccgccggcagtgttccgctggccaacaacagctttctgtgtccaaat
catttcactccccgcaaaggctgcaagaaccacgagcacatcaacgtcagctggtgcttc
gtctgctctgaagggggcagtctgctgtgctgcgagtcctgtcctgctgccttccatcgc
gagtgtctgaacatcgagatgcccaaagagagttggtactgcaacgactgtcgagcaggc
aagaaaccccactacaaggacatcctgtgggtaaaagtcggtcgctacaggtggtggcca
gccgaggtgacccaacccaagaacgtacccgagaacatctcgcgcatgaggcacgaggta
ggcgagttccctgtacacttctttggctccaaggactacgtgtggacctatcaggctcgc
tgttttccctatatggagggcgacgctcacaacaaggagaaaatgggcaaaggcacagat
gctgtctacaagaaagctttaaacgaggccgccgagcgattccgggagctccaggcggag
aaagaaatgaggcagcttcaggaagataggaagaatgacaagaagcccccaccatacaga
cacattaaggtgaaccgtccagtaggtaaggtgcagatcgtgacggcggacctgtcggag
ctcccgcgttgtaactgcaaggccacggacgagaacccatgcggaatggactcggagtgc
atcaaccgcatgctattgtacgagtgccacccgcaggtgtgtgctgcaggagaaaggtgc
caaaaccagtgctttaccaaacgcgagtacactccagtggagatcttcaggacactgtcg
cgtggctgggggctccgtagcatcaacgacatcagaaagggtgcattcgtgagcgagtat
gtgggcgaggtgattgacgaggaggagtgtcgtgccaggatcagacatgcacaggagaac
gacatctgcaacttctacatgctcacactggataaggaccgaatcattgatgcagggccg
aaaggaaaccaggctcgattcatgaaccactgctgccagcccaactgcgagactcaaaaa
tggacagtgaacggggacacgcgagtcggcctcttcgccctcgtggacattcctgaaggt
gtcgagctcacattcaactataacctggagtgtctgggaaacggcaagacagtgtgtaaa
tgcggagcaccgaactgcagcggcttcctgggggtgcgaccaaagaatcagcctccatca
gatgacaaggcccggaaaggaaagaagaagatgtctgcgaagaggaagagccagctgcag
gttgtgaaagagcatgaagacgaatgcttctactgtggagatggagggcaaataatttct
tgtaaaaagcccggctgccccaaagtttaccacgctgactgtctgaacctgtccaagaga
cctgcaggtcgctgggagtgcccgtggcaccagtgcaacgagtgtggcaaggaggcggcg
tcgttctgcgagatgtgccccagctcgtactgcaagcagcaccgtgacggcatgctcttc
atctcaaagctggacggcaagctctcgtgcagcgagcatgacccgtgcggccctgacccc
ctggaacccggagagattcgcgagtatatcccgggaatgcctgtcctatcccctccaccc
aagtgcaggttaactccgcctactgccgatctctacatccctcccgtcaccaggaaagcg
ccctacagcaggcagcaaacggcctttgaggacgaggtcgtgttggacgaagacttgctc
cccgccccttctctgtctaaagaggtgaaagatgacgtcatggcagaggtcgaggaagga
gaagtggtggaagggctgatcgggggcgaaggtgtgggcctggaagtcatcggggaggac
gatgtagatgaggacggcgaggtggattacgaggagtttgaggacgaggatgaagaggag
ggattcgaaaaggggtgggacgaggacgactgggacgatgacagttgcatagacgaagac
tttgtcacggaaggtttagaggacgagtcatatagggggaagtga
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integrated database retrieval system
