Carassius gibelio (silver crucian carp): 128027578
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Entry
128027578 CDS
T08819
Name
(RefSeq) histone-lysine N-methyltransferase NSD2-like isoform X1
KO
K15588
[histone H3]-lysine36 N-dimethyltransferase NSD1 [EC:
2.1.1.357
]
Organism
cgib
Carassius gibelio (silver crucian carp)
Pathway
cgib00310
Lysine degradation
cgib01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
cgib00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
128027578
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
cgib03036
]
128027578
Enzymes [BR:
cgib01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.357 [histone H3]-lysine36 N-dimethyltransferase
128027578
Chromosome and associated proteins [BR:
cgib03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
128027578
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:
128027578
NCBI-ProteinID:
XP_052471273
LinkDB
All DBs
Position
A14:13811520..13829351
Genome browser
AA seq
2153 aa
AA seq
DB search
MLTAVFHAPNTHHVNCTVCTTRLGRSKTCACILSTWILRWSHDNMNQSYKVAGRDGSECR
GDPQETKALDSRLSSCGYQSTKRQGDQGSAMHFLNSGYKLSASPFAYNTRESTSNYSPLR
RLQDLTTMVNHADMSLQDKDFHRRNKLLMHNPTGGSEFGIGLYHTSNSQGNTDRTSIQDL
DKNGFSPVSSDSLEHLPSIPNGILHFESTLFDSGDSKDNDEDEHDRGDAVAPFKDKSKKF
KKRNLANTKAPSNHRLDLSKNKHGSCNLVSKNTVKSDPPGSLSHLPVEVMMEDFDSLDDY
SDSDCDLPSTVNSASIFNSCLSKRPDSPSDSHSNPSNSPKKKQLPGIKYSAEDVVWAKFN
RRPWWPCHVTIDPQIEVHTKMKDPSRRPCRLYFVRMFGEIIDQAWVPAKATFPFEGGHQF
EKLPVLRRRGRQKDKDYKYTVPKRLMSSWKASVLEAEAALTQRLNIEPPLTVIRDVHMPI
TEDKAPNSPACQTSTTQSISSSSLLTNGLHASVKIRGKPGTGRKKKATKKNSSTVKSPVN
LTENALSSKPSSNPSTDSYKPSTAAEGHKPDAVDSPYSDIDSVPRILCPKRSEDLPQEDA
AKELITKPKKVHPSKKTKKANVDKPVKKTEATSKCTTNRKLKKSTPKEKTLRATNTRQKE
SSSPGSSDGSFAMHSHYLPASSGLISRALAASEETEEKDLRREPESRSPCAGDEPSFYNK
CSSPTNHSELSKHQWQVKTEASEESTDDSNSHTPPNPTLIKFTRIRNEKNGVHKGPRQKG
SKSDVNKSSLDSVKIKNESMILDTSSSSIPSPSISPMDAFQDMKELSFRSLVKDECSSGE
PSLCADSNYKFSTFLMILKDLHDSREKEGKPLTLPPMSPSSLIREEPSFIPPGEEATNEV
LCEKDWKVIADQNSRQGKTSTPNSSKRSKAKPKSSVKKETQKHDGGNNVVSTLKKQNSSV
GLDALEKSLPLLGELSNSHHDAVTDVCGKGTISKVAPKKRWQTFESGIGKSTKPKSDPIG
LNQDIVKESTELNGVFKDSLEEEATNPDIPDKKDASENKRLRKPSKRLIESSEEYEQIFS
TKKKTKKTPESCKTVSWIANTNTDEPSPEQITPDVLSSSPENPSEQATPEEQKEPADNLV
SPSTPLSSSCEGPSLTRESCEKKSAPSDRKRPRKTVHKILDSTIEDSVKIPKKEESKQQE
NSPNQSEVKDLQKQEEPAPSSPCAAASAAAQSEDEIRTSSPIQQDTASDSQIQLEGEQCS
PSKPQAKESDTNGEDSLISEVFGAGLNDSAFSSRDSLSGDVTGFSTNRKSGEKGGGASLK
ENVCQVCEKTGELLLCEGQCCGAFHLQCIGLTETPKGRFICQECKTGVHTCFVCKTPDKE
VRRCMIPVCGKFYHMECILKYSPTVAQNRGFRCSLHVCLACYITNPANPSISKGRLTRCV
RCPVAYHANDYCMAAGSVPLANNSFLCPNHFTPRKGCKNHEHINVSWCFVCSEGGSLLCC
ESCPAAFHRECLNIDMPQGSWFCNDCRAGKKPHYKDILWVKVGRYRWWPAEVTQPKNVPE
NIFRLRHEVGEFPVHFFGSKDYVWTYQARCFPYMEGDANNKEKMGKGADAVYKKALNEVA
ERFRELQAEKEMRQLQEDRKNDKKPPPYKHIKVNRLIGKVQIITADLSEIPRCNCKVSDE
NPCGIDSECINRMLMYECHPQVCPAGERCQNQCFTKRQYTEVEIFRTLARGWGLRSVSDI
KKGAFVNEYVGEVIDEEECRSRIKHAQENNICNFYMLTLDKDRIIDAGPKGNQSRFMNHS
CQPNCETQKWTVNGDTRVGLFALEDIPTGVELTFNYNLECLGNGKTVCKCGAPNCSGFLG
DRPKNQPSSEDKVRKLKKKVAGKRKSQLEVAKEREDECFYCGDGGQIVSCKKLGCPKVYH
ADCLNLSKRPAGRWECPWHQCNECGREAASYCEMCPNSYCKQHREGMLFISKLDGKLSCS
EHDPCGPDPLEPGEIREYVPGTPILPPLPNMSVSGRIPPTALPPAAPLFIPAPNRHAFQA
QRHPYADEVVDNIVFPPSSPSKDIKEEDMSDEGEVVEGVIGDEGEEDLEVVDDDEEMDYR
GMGFNDEEEEKASLDEDWGDEFVDDEFEETEDLGEVEEEDRESSWDEFVEGEK
NT seq
6462 nt
NT seq
+upstream
nt +downstream
nt
atgctcactgctgtcttccatgcgcccaacacgcaccacgtcaactgtactgtatgcacg
acgcgtttgggacgaagtaaaacttgcgcttgcatattgtccacatggattttgcgatgg
agccatgacaacatgaatcagtcctacaaagtggctggcagggatggctcggagtgtcgt
ggtgatccacaggagaccaaggcacttgatagccgcctcagctcctgtggataccaaagc
acaaagaggcagggggaccaggggtctgccatgcatttcctaaactctggctacaagctc
tctgcatcgccgtttgcgtacaatacgagagaatccacctccaactacagtccgctgagg
aggcttcaggacctgaccactatggtgaaccatgccgacatgagtttgcaggacaaggac
tttcacaggcggaataaattgctcatgcacaatcccactggtggaagtgagttcggaata
ggcctttatcacacgtccaattcgcaaggaaacactgacaggacttctattcaggatctg
gacaaaaatggtttctcaccagtaagctctgatagcttggaacatcttccatccatccca
aatggaattttgcatttcgagtcgaccctgtttgatagtggggacagcaaagataatgat
gaggacgagcatgataggggtgatgcggtggcaccctttaaagacaagtcaaagaaattc
aagaaacgaaatctggcaaacacaaaggctcctagcaaccacaggctggacctaagtaaa
aacaaacatggaagttgtaaccttgtttctaaaaatacagtgaagtctgacccccctggt
agtctatcacatttgcctgtcgaggtcatgatggaggattttgacagtttggatgattat
tcagacagtgactgtgatctgcccagcactgtgaacagtgcttcaattttcaactcctgt
ctctctaaaagaccagattcacccagtgactcccattcaaatccttccaacagcccaaag
aagaagcagctccccggtataaagtactctgctgaagatgtcgtgtgggccaaattcaac
cgcagaccctggtggccctgtcatgtaaccattgacccacagattgaagtccacaccaaa
atgaaagaccccagtcgtcggccatgccgtctctatttcgtcaggatgttcggggagatc
atagaccaagcttgggtcccggcaaaagccacttttccttttgaaggaggtcatcagttt
gaaaaactgcctgtacttagacggagaggaagacagaaggacaaagattataaatacacg
gttcctaagcgtctaatgtcctcatggaaagctagtgtcttggaggcagaggcagcactg
acccagcggttaaatatcgaacctccattgactgtaattcgggatgtccacatgcctatc
acagaagacaaggcaccaaatagtcctgcttgtcagacatctactacacagtccatatca
tcaagctcacttttgaccaatggactacatgcatccgttaaaatcagaggaaaacctggc
actggaagaaaaaagaaggcaactaagaagaacagctcaactgtaaaatctcccgtgaat
ctaactgaaaatgctttatcgtctaaaccatcctcaaacccttcaacagacagctacaaa
ccttccacagctgctgaagggcacaaaccagatgccgtagatagtccatattcagatatt
gactctgtcccaaggattctttgccccaaacgttcagaggacttgccgcaggaggatgcg
gcaaaagaattgatcactaaacctaagaaagtacatccaagtaaaaagacgaaaaaagcc
aacgtggacaagccagtgaagaaaacagaggctacttcaaaatgcacaacaaaccgtaag
ctaaagaagtcaacgcccaaagaaaaaacacttagggctacgaacaccagacagaaggaa
agcagttccccagggtcctcagatgggtcttttgccatgcactctcattatttgcctgcc
agcagtggcttaatctcaagagcacttgctgccagtgaagaaaccgaggagaaagattta
aggcgggagccagaatctcgctcaccatgtgctggcgatgaaccctctttttataacaag
tgctcatcccccaccaaccattctgagttgtcaaaacatcagtggcaggtaaaaacagag
gccagtgaagagtccacggatgactcgaactcccacacccccccaaacccaactcttatt
aagtttaccagaatccgaaatgagaaaaatggcgttcataaaggacctcgacaaaaaggg
tccaagtcagatgtgaataaatcctccctcgattctgtgaaaatcaaaaacgagagcatg
attttagacacttcgtcttcgtccatcccatctccctcgatctctcctatggatgctttc
caggatatgaaggagctttctttcaggtctcttgtcaaagacgaatgcagctcaggagaa
ccttcgctctgtgcggattcaaactacaaattcagcactttcctaatgatcctgaaggat
ctgcacgacagccgggagaaagaagggaaacctttaaccctccctcctatgtctccatcc
tctctcatcagggaagaaccttcttttattccacctggagaagaagcaacaaatgaggtg
ctttgtgaaaaggactggaaggtaatcgcggatcagaacagtcggcagggaaagacgtca
acaccaaacagctcaaaacggagcaaggccaagccgaaatcatcagtgaagaaggagaca
caaaaacacgatggtgggaacaatgtagtttctacgctgaaaaagcagaactcatcagta
ggtttggatgcacttgaaaagagtttgcctctgctaggggaactttccaactctcaccat
gatgctgttactgatgtctgtggcaagggcaccatctccaaggttgctcctaaaaagcga
tggcaaacttttgagtctggtattgggaaaagcaccaagcctaagagcgatccgattgga
ttgaatcaagatatagtgaaggagtccacggagctaaatggagttttcaaagacagtctt
gaagaagaagcgactaatcctgacatccctgataaaaaagatgcttcagaaaacaaaagg
ctcaggaaaccaagcaagaggctgattgaatccagtgaagaatatgagcaaatcttttcc
acaaagaagaaaacaaagaaaactcctgagtcctgtaaaacggtatcttggatcgccaac
actaacactgatgagccgtcacctgagcagatcacacctgatgttttaagctcttcacct
gaaaacccctctgagcaggccacaccagaggagcagaaagaaccagcagataatctcgta
tcaccttcaacaccgttatcctcatcctgtgaaggcccatcgctaaccagagagtcatgt
gaaaagaaatctgcaccctcggatagaaagagaccacgtaagactgtgcataaaattcta
gactccaccattgaggattctgtaaagatcccaaaaaaagaggagagtaaacaacaagaa
aacagcccaaatcaatcagaggtcaaagatttgcagaaacaggaagagcctgcaccatca
agcccgtgtgctgctgcatcagcagcagctcaaagtgaggatgaaataagaacatcatcc
ccaatccagcaggacacagccagtgactcccagatccagcttgaaggagagcagtgcagc
ccgtctaagcctcaggcgaaggagtccgacacaaacggcgaggactccctgatctctgag
gtgtttggtgcaggactcaatgacagtgctttttcaagcagagattctttatcaggtgat
gtaacagggttctcgaccaatagaaaatcaggggagaaaggtggaggtgcatcattgaag
gagaatgtttgccaggtttgtgagaaaacgggtgaactgctcctctgtgaggggcagtgc
tgtggtgccttccatctgcagtgcatcggcctcactgagacccctaaaggccggtttatc
tgccaagagtgcaagacgggtgtgcacacatgttttgtgtgtaaaactcctgacaaggag
gtcaggaggtgtatgatcccagtgtgtgggaagttttatcacatggaatgcatactgaaa
tattcccccaccgtcgctcagaaccgcggcttccgctgctccctccacgtctgtctggcc
tgctacatcaccaaccccgccaaccctagcatttccaaaggccgtttgactcgctgcgtc
cgctgccctgtggcctaccacgccaatgactactgtatggctgccggcagtgtcccattg
gctaataacagcttcctgtgccccaaccacttcactccacgcaaagggtgcaaaaaccat
gaacacattaatgtcagctggtgttttgtgtgttctgaaggaggaagtctgctctgctgt
gaatcttgtcctgctgcctttcaccgtgagtgtctgaacattgacatgccccagggaagc
tggttctgtaacgactgtcgagcgggaaagaaaccccactacaaggacattctgtgggtg
aaagtgggccgctacaggtggtggcccgctgaagtgactcaaccaaaaaacgttcctgag
aacatcttccgcttgaggcatgaggtgggggagtttcctgtgcacttctttggctccaaa
gactacgtgtggacatatcaggctcgctgttttccctacatggaaggggatgccaacaat
aaggaaaaaatgggaaagggtgcagatgcagtctataagaaagctttaaatgaagtagcg
gaaaggttcagggaactgcaggcggagaaggagatgagacagcttcaagaagacaggaag
aatgacaagaaacctccgccatacaaacacataaaggtgaacagactgatagggaaggtg
caaatcatcacagcagatctgtctgagatcccacgctgcaactgcaaagtctcggacgag
aacccgtgcggcattgactcggagtgcatcaaccgcatgctaatgtacgagtgtcatcct
caagtgtgtccagcaggggaacgctgtcagaaccaatgcttcaccaaacgccagtacact
gaggtggagatcttcaggacactggcgcgtggttggggtttgcgcagtgtgtctgacatc
aagaagggagcttttgtgaatgagtatgttggagaggtcattgacgaagaggagtgtcga
tccaggatcaaacatgcacaggaaaacaatatctgtaacttctacatgctcacactggat
aaggatcggataatagatgccgggccgaagggaaaccagtcgcgttttatgaaccacagc
tgccagccgaactgtgagacacagaagtggacggtgaatggagacaccagagttgggctt
tttgcattagaggacattcctacaggtgttgaactcacttttaactataacttggagtgt
cttggtaatgggaagacggtgtgtaaatgtggagcacccaactgcagcggattccttggt
gacagaccaaagaatcagccttcatctgaagacaaggtgcggaaactgaagaagaaggtt
gcagggaagcgtaagagccagttagaggtcgccaaggagcgggaggatgaatgcttctac
tgtggtgatggagggcagattgtgtcttgtaagaagctcggctgccccaaggtctatcat
gccgactgtctgaatctgtccaagagacctgcaggccgctgggagtgtccgtggcatcag
tgtaatgagtgcggaagggaggcagcatcctactgcgagatgtgtcccaactcctactgc
aaacagcaccgcgagggaatgctgttcatatccaaactggacggcaagctgtcctgcagc
gaacacgacccatgcggccccgatcctctggaaccaggtgaaattcgagagtacgtgccc
ggtactcctatcctaccccctctgcccaatatgtcagtgtcaggcaggatacccccaact
gccctaccgcctgctgccccgctcttcattcccgcccccaacagacatgcgttccaagcc
caaagacacccgtatgcagacgaggtggtggacaacatagtttttccaccctcctctcct
tctaaggacatcaaggaggaagatatgagtgatgaaggtgaggtggtggaaggggtgatc
ggggatgaaggagaagaagaccttgaggttgtggacgatgatgaagaaatggactacaga
gggatgggattcaatgatgaggaggaagaaaaggcgagtcttgacgaggactggggagat
gaatttgtggatgatgaatttgaagaaactgaggatttgggggaagtggaggaggaagac
cgggaatcatcatgggatgagtttgtcgaaggagaaaagtga
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integrated database retrieval system
