Eleginops maclovinus (Patagonian blennie): 134861400
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Entry
134861400 CDS
T09869
Name
(RefSeq) histone-lysine N-methyltransferase ASH1L-like isoform X1
KO
K06101
[histone H3]-lysine4 N-trimethyltransferase ASH1L [EC:
2.1.1.354
]
Organism
emac
Eleginops maclovinus (Patagonian blennie)
Pathway
emac00310
Lysine degradation
emac01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
emac00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
134861400
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
emac03036
]
134861400
Enzymes [BR:
emac01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.354 [histone H3]-lysine4 N-trimethyltransferase
134861400
Chromosome and associated proteins [BR:
emac03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
134861400
BRITE hierarchy
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Ortholog
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GFIT
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NCBI-GeneID:
134861400
NCBI-ProteinID:
XP_063734657
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Position
3:10712222..10727345
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AA seq
1980 aa
AA seq
DB search
MDQRVKGGTPPTTNSTVDPTPASEDSEVSEKKRWGEGDADVGQKEEEKRGAGKKREGDKG
AVLELLIEGRCGSTGQQQLQISGRETTCPEGNVRLRIGLQAKRTKKPPKILESYVCKPTI
RTYQRQARGVLKGDGEGGQQNKTSSTPVEATRDQCSVLDAVQTTFKQNASAASPPVAILS
SSSQPASTTASKTVSVPAIISQGTKSAKQVPVKLADKTEVKSNSSSERVKKEKLPNINGQ
TINAGQKPCSPTIDQTVSSTPTDAGIQVPSALETRNEGKNSKKHNGLVQTTKQKGLSNGK
SSAGIHGTSTSSKSKVGKQSSFSSVSSMDSSAKPPVSISSHKELSLSTKSRPDSPSSYSA
TPKPQSSLSVDISSAQSKDQDPPLEKKRDKERKAKKEKRKDRKSKRDKLEAETAKSEIRK
DEGKKKKKDKGKDKGKEGKSRHSKEKDERLKTDDILRDELMIEKGKPELKKRDKLSPDRQ
QTEDNKCGESVDIGKLDKTCQIVNTGRSDEKEKTDDGCKPVKQAEPATGDTSKSKEQDVT
RHSNVPPSHPSSSAPLSLPTPSARAPISPPRSPQEQDSRPLKKRKARRPSWTKLVQRAQR
AENQEAPSGSQHNPLHSFPQNPKSPLPAKATIQQTDESRQSPSSSVTSSCSPLSSATKPS
SPKQGHPTSDLSHHASRCQITPARKRGRPKTPSSSLDEPPPKLSPNAIPTDVPLLGCDAV
QKAPVLEPSPKLQCAAQSKSSPKKRGRPPKQPLPEDQSGDALNRTDRNKDCHPSEQGNRQ
LKIRRLINEMKKRKKKRLHKVMLSGYVGKEGRGGQAANGETSLGICKSIEATTVNTLSAL
SSSFGSKLGPQINVSKRGTIYMGKRRGRKPKALTSYLNSKSATQSSLFTTSSEPCLFSSN
QPQPPSSHPFPSPSLTHSSGAQSPYSEGSLTEPTSSLLFPHSFSLPSPSSSCTSPRPPSS
SSLSPFVKKSCPCQGRHHFPFHQSSCKLSCPTLALHHTPGSPSHLKEANPSPRSESHSEE
TLPSDSGIGTDNNSVSERAENRGVRGMFRLGQGSGVILGGQKHLSSLVDRPSPVSSPLSL
MPRHTNPISNSSTLERHRDKHRHRRRDYDCSSAYNCLCPCPGHNKCTHSDFYPCLGHNAM
KRQKSKHKKKHQQLHMQDPEFLAELEDLIGQFSEVHIGRRGWARTGLGQGYDGSGNAPGG
RRHHSPSHSLRSNIFRINLNGFYSPHPSSYAGNPSFSPQPFYPCQPLHCNRKQDRRQCGC
PSKFQETIENMGYYSSYPPATTLYHHLPSSYPIPSPHQYAPHQSHHAHFLLNPARFHRRR
SRLLREGALGGEAEGDMGGGSGGGPHLSSGFTSSLSCGCGRSEHKHKHKHRHRHCERDMD
DEEELHEDEEEDRREREVLASSRSRSGFILGQGEGGRKGARGLGSTAAATSSSSAERYKH
TSLTSLGLGSSHLSSFGGSWGGLGQNWKRFGGLGGTGFGNSSPSWKGFNAEYNTGRLIAS
DGEDEDGEDESNLYRTSPPPTHTNLFTSAVVATGGRGLKSGLPSRNPGSGDRLWRRDEPA
WTERRGTGLQGDSRSRGQQKNVPTLDSVAGGKKRRPGRPRKNPLPSAVSSPTHSSAAPFV
SSNDHLPGHNRDGREAVGSKEGPERERGGDTIQQVTELELQARRKKRQKRKHGDSPCQQS
VAEDKPESDTLPECFSQSELDQAPSPPETILREEREDEPPRKTFLRAGLYSDDYKIIDPP
SQAQQLCRESIEDTPGEREYSLLPAPINVGKYLRLKRINFQLPYDVMWLWQNNQLHSQPA
VPLKRKRRYCRLKVKSLSSHQTAESSSEITGLYPHLDLEPLTGVERSFVVKHHVFLVRNL
EMVRDRQIRLRIERERKRDVEEEGRDSCHLSCDGADDGEESHIKSDQQAGGMVIEGTVIS
SDEHHQSQDTSSLLTASPSPNQTQNRQQEEREEEKPEEEVCTREQRRKRLNDLLLTLQHS
NT seq
5943 nt
NT seq
+upstream
nt +downstream
nt
atggaccagagagtgaaggggggaacccctccaaccacaaactccactgtggaccccacc
cctgcatctgaagactctgaagtttcagagaaaaagcgatggggtgagggggatgcagat
gttgggcagaaggaggaggagaagagaggagcagggaaaaagagagaaggggacaagggg
gcagtgctggagctgctcatcgagggccgctgtggaagcacagggcaacaacagcttcag
atctctggcagggagaccacctgcccagagggaaatgtacgactccgcattgggctccag
gccaaacgcaccaagaaaccgccgaagatcttggaaagctatgtctgcaagcccaccatc
aggacctatcagaggcaagctaggggggtgctaaagggcgatggagaagggggacagcaa
aacaaaaccagctctactccagtcgaggcaaccagagatcaatgctcagtgttggatgct
gtccagaccacgttcaaacaaaatgcatctgctgcttcaccaccagttgcaatattatca
tcgtcatcacagccagcgtctaccacagcttccaagacagtctcagtccctgccattatc
agccagggaaccaagtctgccaaacaggttcctgtcaaactggctgataagacggaggtg
aaatcaaatagttcatctgagagagtgaagaaagagaagcttcctaatatcaatgggcag
actatcaatgcaggacagaaaccctgctcgcctacaatagaccagacagtttcctccaca
cctaccgacgcaggcatccaagtcccatctgcactggaaaccaggaatgaaggaaagaac
tccaagaaacataatggtttggttcagacaacaaaacagaagggactatctaatgggaaa
agctctgctggcatccatggcacttccacctcgtcgaaaagcaaagttggaaaacagagc
agtttttcctctgtttcctccatggactcttcagcaaaacctccagtctccatcagctcc
cataaagaactcagcctttccaccaagagtaggccagactctccttcctcttattcagcc
acccctaaaccacagtcctccctctctgtggatatctcctctgcccagtctaaagatcag
gatccccctctagagaaaaagagagacaaagagaggaaagcaaagaaagagaaacggaaa
gacagaaaatctaagcgagataaattggaggctgaaacagcaaagagtgagatcagaaag
gatgaaggaaagaagaagaaaaaggataaagggaaggataaagggaaggaggggaaatca
aggcacagtaaagaaaaggatgaaagactgaagactgatgatattttgagggatgagtta
atgattgaaaaaggaaaacctgagctgaaaaaaagggataaacttagcccagacagacaa
caaacagaggataataaatgtggagaatcagttgatattggtaaactagataaaacatgt
caaatagtaaatacaggcagatcagatgagaaagaaaagacggatgacggttgcaagcca
gttaaacaagcagagccagcaacaggtgacaccagtaaatcaaaagaacaagatgtcaca
agacattcaaatgtgcctccaagccacccctcttcttctgctccgctgtctttgcccact
ccctctgcccgtgcccctatttctccccctcgttccccccaagagcaggacagccgtccg
ctcaagaaacgcaaagccagacggcccagctggaccaagcttgtgcaacgagctcagagg
gcagaaaatcaggaagccccgtcaggttcccaacataatcctctacatagctttccccaa
aaccccaagtccccccttcctgccaaggccaccattcagcagactgatgaatcccgacaa
tctccgtctagctctgtaaccagcagctgctccccactctcttctgcaaccaaaccttca
tccccaaagcagggtcaccccacatcagaccttagccaccatgcttccagatgccaaata
acccctgcccgaaaaagaggccgccctaaaaccccgagctctagcttagatgaacctccc
cctaaactttcacccaatgctatccctactgatgtgcctcttctggggtgtgacgcagtt
cagaaagcccctgtgctagagccaagtcccaaactgcagtgtgccgctcagtctaaatcc
agtcccaagaagcgtggccgtcctcccaaacaaccactcccagaagaccagagtggagac
gcactgaatcgcactgacaggaataaagattgtcatccttctgaacaggggaacaggcag
ctaaagatcaggagattgattaatgagatgaagaaaagaaagaagaagaggcttcacaag
gtaatgctttctgggtatgtgggaaaggagggaaggggaggccaggcagcgaatggcgag
acctctctgggaatttgcaaatcgatagaggctacaacagtaaacacactctcagccctg
tcatcttcctttgggagtaagctgggccctcagatcaatgtgagcaagagagggacgatc
tacatgggcaagaggcgaggacgcaagccaaaagccctaacatcttaccttaattccaag
agcgccactcaatcatccctgtttaccacttcctctgaaccatgtctcttctcctctaac
caaccccagcctccttcctctcatccatttccctccccatctctcacacactccagtggg
gcccaaagcccttatagtgaaggaagcctcacagaaccaacatcctccctactttttcct
cactccttctcccttccttccccatcgtcctcctgtacctccccacgccctccctcctcc
tcatccctctctccctttgtgaagaagagttgtccatgtcagggaaggcatcacttcccc
tttcaccagtcttcatgtaagctttcctgtcccacccttgcgttgcatcacacacctggc
tctcccagccacctaaaagaggccaacccctcccccaggagtgagtcgcacagcgaggag
acgctgcccagcgacagcgggattggaacagataacaacagtgtttctgagcgagcagag
aataggggagttcgaggcatgttcaggttgggtcaggggtcaggggttattctaggggga
caaaagcacctctcctctcttgtggaccgtccctctcctgtctcttcccccctttctctc
atgccaagacacacaaaccccatcagcaactcctctactctggagcggcacagagacaaa
cacaggcacaggcggagggattacgactgttcctctgcctataattgcttgtgcccctgc
ccaggacacaacaagtgcactcattctgacttttacccttgccttgggcacaatgcaatg
aagagacaaaaaagtaaacataagaagaaacaccagcagctgcacatgcaggatccagag
tttctggccgagttagaagatctgatcggtcagttcagcgaggtacatattgggcggcgt
ggttgggcaaggacaggcctgggacagggctatgatgggagtggtaatgctcctggagga
aggcgtcatcactccccctcccattctctccgctccaacatcttcaggataaatctgaat
ggcttctactcgcctcacccttcatcttacgctggtaatccctccttctccccccagccg
ttctacccctgccagcctttgcattgcaataggaagcaagatcgcaggcagtgtggttgc
ccttcaaagttccaggagaccattgaaaatatgggatactacagcagctatcctccagcc
acaacactttaccaccacctccccagctcctatccaattccctctccgcaccagtatgcc
ccccatcagtcccatcatgcccacttcctcctcaaccctgccaggttccacaggcggagg
agcaggttgctgagggaaggagctttaggaggcgaggctgagggagatatggggggaggc
agtggaggaggcccacacctaagctcagggttcacctccagcctctcctgtggctgtggg
aggagcgaacacaaacacaaacataaacatcgacacaggcactgcgagagagacatggat
gacgaggaggagttgcatgaggatgaggaggaagataggagggagagggaggtgttagcc
agttcaaggtcaaggtcagggttcattttggggcaaggagaaggaggaaggaaaggggcg
agaggactggggtccactgctgctgccacatcgtcatcctcagcagaaaggtacaaacac
acatctctcacctcactggggttgggttcctctcacctatcgtcatttggaggaagctgg
gggggcctgggccagaattggaaaagatttgggggccttggagggacaggatttggaaat
tcatctcccagctggaaaggctttaatgcggagtacaatacaggcagactgattgcatca
gacggagaagacgaagacggtgaggatgagtcaaacctttacaggacatccccgcctcca
acacacaccaacctgttcacatcagctgtcgtggcaacaggggggaggggtctgaagagc
ggattgcccagtaggaatccaggaagtggagacagattgtggaggagagatgaaccagca
tggacagagaggagaggaacaggtttacaaggtgactcaagaagccgcgggcagcagaaa
aatgtgccaacgctcgacagtgtagcagggggaaaaaagagaaggccaggacggcccaga
aagaacccactgccctctgctgtatcgtcccccacacactcatctgcagctcccttcgtg
tcatccaacgaccacttgccaggacataacagagatggtagagaagctgtagggagtaaa
gaagggccagagagagaaagaggaggtgacaccatccagcaggtgactgagttggagctg
caggccaggaggaagaagcgacagaagagaaaacatggtgactctccctgtcaacagagt
gtcgctgaggataaacctgagtctgacaccctccctgaatgttttagccagtcagagctc
gaccaggctccatctccaccagaaaccatcctaagagaggagagggaagacgagcctccc
aggaagacgtttctaagggcgggtctttactctgatgattacaaaattatagacccgccc
tcccaagcccagcagttgtgcagagagagtatagaagacactccaggggagcgtgaatac
agccttttacctgctccaataaatgttgggaagtacctaaggctgaagcggattaatttc
cagttaccttatgatgtgatgtggctgtggcagaacaatcagcttcacagccagcctgct
gttcccctgaagaggaagcggcgttactgccggctgaaggtgaagagtttatcctctcat
cagacagcggagagctctagtgaaattaccggcttgtatccccatctcgacctggagcct
ttgaccggtgttgagaggagctttgtggtgaaacatcacgtcttccttgtgaggaacttg
gagatggtgagagacagacagatccgactgaggatagagagggagaggaagagagacgtg
gaggaagaggggagggactcatgtcatctgtcctgcgatggagccgatgatggggaagaa
agccacatcaagtcagatcagcaagcagggggcatggtcattgaggggacggttatcagc
agtgacgaacaccatcagagtcaagacacctccagcttgctcactgccagccccagtccc
aaccaaacccagaacagacaacaggaggagagagaggaagaaaaaccagaagaagaggtc
tgcaccagagaacagagaagaaaacggctgaatgatttacttttgaccctgcagcattca
taa
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