Plutella xylostella (diamondback moth): 105384716
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Entry
105384716 CDS
T03915
Name
(RefSeq) uncharacterized LOC105384716
KO
K11421
[histone H3]-N6,N6-dimethyl-lysine9 N-methyltransferase [EC:
2.1.1.366
]
Organism
pxy
Plutella xylostella (diamondback moth)
Pathway
pxy00310
Lysine degradation
pxy01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
pxy00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
105384716
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
pxy03036
]
105384716
Enzymes [BR:
pxy01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.366 [histone H3]-N6,N6-dimethyl-lysine9 N-methyltransferase
105384716
Chromosome and associated proteins [BR:
pxy03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
105384716
Heterochromatin formation proteins
Other heterochromatin formation proteins
105384716
BRITE hierarchy
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
Tudor_4
Tudor_5
Pre-SET
SET
MBD
Tudor_3
Motif
Other DBs
NCBI-GeneID:
105384716
NCBI-ProteinID:
XP_011553298
LinkDB
All DBs
Position
Un
AA seq
2016 aa
AA seq
DB search
MEDQPKESLAAQNAENTKGDILAGDIPKAGDDLNDPNASKIDGSGDALKETSDEVTKLCM
ESEDTVDPSNATPNKASEPVPEGHDNVCSPKTVDATSDLQKPKPFDMKSLNNETELNSED
IELKWDDDEDGDNVVDDKTPGLIEKLNLMDDKISNKEDYLDKAADTTPMNVDETEKEEIL
PPKALDSKIKLPEHTETAITDAKVETNSNRQTDDSDGKIDTPVASTDDVEMDSSNISSFV
KESIKKELEGKVLDAETSDSVNMTEKMETDLVNDELSSTSILEHKNTNDDNIQTMIENEV
NTMMSPTEKNVDGAPSIDTTLLHKTSIGTLSLEGQSIPNDDPGSKIISESTVATVENLQK
DMPEPFISKDIDDPSVETPVPSKAQSDDIDTTTDTAENVALSTKISENAVSTLENPIDPS
DTIKNVELVPSEVSATNVNSSVKKDSSNEKEFVDSTHTKKEIENLSPTAKDVEKCKNMEP
IATLDEVKDVNNGFALQSSKTMMEPKETVTNTEPITSKEEKIEVDTAKANAANDITDTVQ
STMEIDTPAPAVEPKPSTSKAEDESIETQDIKTECPEPVKNSNPADFDPSSSNEGQLDES
DEIQEMADSLGLLAESSRIMDDEEDEEEDADDDDDADADEDQDDESNLMTAEQSEDSNNA
QTSETDAPKDATADIDISENSFAGKIVQKETEVAVEAEEKERDIAEEAGETDVAEDTEAD
IAEEADGDIGESEIAAAEDVIEDAAEAEVKDAELDVDIDDVVVEEIEIVGKPLTPVEDAT
PVIAAVEPVVEASDVNPPAQEGVSSVQLSELSADTSWDSVSDREKNTILKRLLDKDSVAP
PLKTLDLTSDTESPRQTRSTSKAEKKTEVLEPDNIVNIVDFGEISSEDDIQEVNQEQSKL
DSTPTKEDPNSSVTSVNIPKDLDIISAASGNTSQIVEKDGETIIKGVPKPAPPKMARLNT
SEISIKTTTASAEPNIVIPETTQNGSKAAEKSKFGLEVFSLDSDEEDDAVKENTDKPSDR
GAGRCINPLCPETCRDKIVADAGTLRYYDIERKRKAMVCQDCADVVALRLQGLISGVRSS
RGLLQLPMSRPEQQLVEISDSEEEEEEAPRPPPLGAAAAGFLEAHLADMINQTWHKYDLD
ERLLDARAEIEMELEHLEEERKEIDAMLNDCQAATDALRNELYATFTPRTQALPPIDIID
TPFAQYAALSDDDIKINQNENEVRRSKRPRPASIANKQERMSTDVKSESSTDQQFDNSSK
MDDDNTDIKVVKLSAEAAPAGLPAAGELVRPALAPGQVVLAMRHAFGSWMRASVLEVSSK
AQFSVCKVRFEHKVKNAVVSITARHLAYADPAPVRLTIGTRVVALFSDVSDSTKRKSFYS
GVIAEMPNPVNSYRYLVFFDDGYAQYVSHGDVRVVCECSSLVWEEVHPFSREFVRQYLRA
YPERPMVRLHEGQSLKTEWNGKWWISKVLKTDASLVQVYFEADNRSEWIYRGSTRLAPLY
LELQAAERPRNRPLPRSTQNRGIEKQNMPYVEYTRTEEQEQNKADAQTQQQQQEYYTPKA
AVKPLKMVPHSCGPSCRRADVLPLRELRTYNPLARPLLSGWDXQIVRYKGRKEVMYRAPC
GRRLRDMRELHAYLRATQSDMTVDLFHFGAGTHCLAEFLLTRCIVSKKDLSHGKENVPVP
CVNYYDNSLPEFCSYNTERTPTAGVPLNLDPEFLCGCDCTDDCQDKSKCACWKLTLDGAK
TIGMDDDAGYVYRRLLDPVPSGIYECNSRCKCKHTCLNRVAQHPLQLKLQVFKTQNRGWG
IRALNDVPKGAFLCVYAGNLLTDATANLDGLNEGDEYLAELDYIEVVEQMKEGYEEDVPD
KDKELDKNANEDSEEDESTESDSEERREKNDEQDDDFRPAYDIPQPRGPLMFNKSLRKRD
KKNKKDKEGSPAAEKKKQGGDCITISDDEEVREPQRFAAQAGMGGNDFKSKHRSVRAHFG
KDEACYIMDAKVQGNIGRYLNHSCQPNVFYVDNKLV
NT seq
6051 nt
NT seq
+upstream
nt +downstream
nt
atggaagaccaacccaaggaatctttagcagcacaaaatgccgaaaacacaaagggtgac
atattggctggcgatattccgaaagccggtgatgatttaaacgatcctaatgcttctaaa
attgatggcagtggcgatgcacttaaggaaacatcagatgaggtgaccaaactatgtatg
gagagtgaagacactgttgacccatcaaatgctactccaaataaggcttcagaacctgta
cctgaaggtcatgataatgtttgttcacccaaaaccgtagatgccacatcagaccttcag
aaaccgaagccttttgatatgaaaagcttaaataacgaaactgaactgaatagtgaagat
atagaactgaaatgggatgacgatgaggacggagataatgtagttgatgacaaaactcca
ggactgattgagaaacttaatttaatggatgacaaaatctccaacaaagaagattatttg
gataaggctgctgatacaacacctatgaatgtagatgaaacagaaaaagaagagatattg
ccacctaaggcattagatagtaaaataaaactgccagaacatactgaaacagccattact
gatgccaaagtggaaactaacagtaatagacagactgatgacagtgatggtaaaatagat
actcctgttgcatcgacagatgatgttgaaatggattcttctaatataagtagttttgtc
aaagaatctattaagaaagaactagaaggtaaagtacttgatgctgaaactagtgatagt
gtcaatatgactgaaaaaatggaaactgaccttgtaaatgatgaactttcatccacatca
attttagaacacaaaaataccaatgatgacaacatacagacaatgatagaaaatgaagta
aatactatgatgtcaccaactgaaaagaatgttgatggcgctccatctattgataccact
ttacttcataaaacatccattggtactctaagtttagaaggtcagtcaattcctaatgat
gatccaggttctaaaataatatctgaaagtacagttgctacggttgaaaaccttcagaaa
gatatgcctgaaccattcatcagcaaagatattgatgatccatcagttgaaactcctgta
ccatctaaagctcaatctgatgacattgatacaactacagatacagcagaaaatgttgct
ttgtcaacaaaaatatcggaaaatgctgtgagtacattggaaaatcctattgatcctagt
gacacaataaagaatgttgaactagttccatcagaagtatcagcaactaatgttaattct
tctgtaaagaaagacagtagtaatgaaaaagaatttgttgactctactcacactaaaaag
gagatagaaaatctctctcccacagcaaaagatgtagaaaagtgcaaaaatatggaacca
attgcaacattagatgaagtcaaggatgtcaacaatggttttgctctacaaagttcgaaa
actatgatggaaccgaaagagactgtaactaacacagaaccaataacttctaaagaggaa
aaaatagaagttgatacagcaaaggccaatgcagctaatgatatcactgacacagtacaa
agcacaatggaaattgacactccagctccagcagttgaaccaaaaccatctacatcaaaa
gctgaagatgagtctattgaaacacaagacattaaaacagaatgtccagaaccagtaaaa
aactcaaacccagctgattttgacccatcatcatcaaatgaaggtcagttagacgagtct
gatgagatacaggaaatggcggatagtctcggactgttggctgagtcatcaaggatcatg
gatgatgaagaggatgaagaagaggatgcggatgatgacgatgatgctgatgctgatgaa
gaccaagatgatgaaagcaacctaatgacagccgaacagtccgaggactcaaacaatgct
caaacttccgaaacagatgccccgaaagacgccacagctgatattgacatatcagagaac
agctttgccggtaaaattgtgcagaaagagacagaggtagccgtggaagctgaggagaaa
gagagagatatagcagaggaagcaggagagacagatgtagcagaggacacagaggcagat
atagcggaggaagcagacggagatataggagagagtgagatagcagcagcagaagatgtg
atagaagatgcagcggaggctgaggttaaagatgctgagttagatgtggacattgacgat
gtggtcgttgaggagatagaaattgttgggaagccactaaccccagtagaagatgcaacg
ccagtaatagcggcagtagaaccagtggtcgaagcctcagacgttaacccacccgcgcag
gaaggggtctcgtcggtgcaactgtctgaactgtctgctgacaccagctgggactctgtc
tccgatcgggagaagaatactatacttaaaagactgttggataaagatagtgtggcacca
cccctcaagactctagatctgacatccgacacggaatcaccaagacagacgaggtctacc
agcaaagcagagaagaagactgaagtattggaaccggacaatatcgtcaacattgtggac
ttcggagagatatcttctgaggatgacatccaagaagtcaaccaagagcaatccaaactc
gactctacgccgacgaaagaagacccaaattcgagtgtgacgtccgtgaacatccctaaa
gacctggacatcatcagtgcagcatcagggaacacctcgcaaattgtggagaaggatggg
gagaccattataaagggtgtgccgaagcctgcgccgcccaaaatggctcgactgaacaca
agcgagatatcaataaagaccaccactgcatctgctgagcccaatattgtcatcccagaa
actacgcaaaacggttctaaagcggcggaaaaatccaagtttggcctcgaagtgttcagt
ttggactctgatgaagaggacgatgctgtcaaagagaatactgacaagccgtccgaccgc
ggcgcgggccgctgtattaacccgctctgtcctgagacatgtcgcgacaagatcgttgct
gatgcaggcacgctcagatactacgacatcgaacgcaagaggaaggcgatggtatgtcaa
gattgcgctgacgtggtggctctacgacttcagggtctgatctccggagtaaggtcctct
cgcgggctgctgcagctgcccatgtcccgcccggagcagcagctcgtggagatatccgac
tcggaggaggaggaggaggaggcgccgcgccccccgcccctgggcgccgccgccgccgga
tttctggaggcacacctggcggacatgatcaaccagacgtggcacaagtacgacctggac
gagcgcctgttggacgcccgcgccgagatcgagatggagctcgagcatttagaggaggag
cgtaaagagatcgacgccatgctaaacgactgccaggcggcgacggatgctctgcgcaac
gaactatacgcgactttcactccgcgcacgcaagctctgccgccgatcgacatcatagac
acaccttttgcacagtatgctgcgctgtcggatgatgacattaaaattaatcaaaatgaa
aatgaggtccgaaggtcgaagcgtcctcgaccagcttccatcgccaataaacaagagaga
atgtctactgatgtcaagagcgagtcgtccactgatcaacaattcgataattcatccaaa
atggatgacgataacacagacatcaaagtggtcaagctctcagccgaagcggccccggcc
gggctgcccgccgccggggagctggtccggccggccctcgccccggggcaggtggtgctc
gccatgagacacgccttcggctcctggatgagggccagcgtgctcgaggtgtcttccaag
gctcaattctctgtgtgcaaagtccgcttcgagcataaagtgaagaacgccgtcgtgtcc
atcacagccaggcacctcgcctatgctgacccggctcccgtcagacttactatcggtact
cgagtggtggctctattcagcgacgtttctgactcgacaaaacggaaatctttctactcg
ggagtcatcgctgagatgcccaaccccgtcaatagttacagatacctggtgttcttcgac
gacggctacgcgcagtacgtgtcgcacggcgacgtgcgagtcgtgtgcgagtgctcgtca
ttagtatgggaggaggtgcacccgttctcccgtgagttcgtgcgccagtacctgcgcgcc
taccccgagcggcccatggtgcggttgcacgaggggcagagcctcaagactgagtggaac
ggaaaatggtggatatccaaggtcctcaaaacggacgcttccctagtccaagtgtacttc
gaagcggacaaccgaagcgagtggatctatcgagggtccacgcggctcgcgccgctgtac
ctggagctgcaggcggctgagcggcccaggaatagacccctgccgaggtccacgcagaat
agggggattgaaaagcaaaacatgccttacgtggagtacacacgcacggaggaacaagaa
cagaacaaagcggatgcacagacgcaacagcaacaacaagagtactacacccccaaagcg
gccgtgaaacccctcaagatggtcccccattcgtgcggcccctcgtgccggcgcgccgac
gtgctgcctcttcgcgaactgcgcacctacaacccgctggcgcgcccgctgctcagcggc
tgggactagcaaatagtccgctacaagggtcgcaaagaagtcatgtaccgggcgccgtgc
ggccgccgtctgcgcgacatgagagagttacacgcctacttacgagcaactcagtcggat
atgactgtggatttgttccacttcggagcaggcacccattgtcttgccgagtttctgctg
actaggtgtattgttagcaagaaggacctctcccacggcaaggaaaacgttccagtcccg
tgtgtgaactactacgacaactctctgccggagttctgttcgtacaacacggagaggacc
cctacagctggggtgccgcttaacttggatccggagtttttgtgcggctgcgactgtacc
gatgattgtcaggacaagagcaagtgcgcgtgctggaagctgacgctagatggcgctaag
accatcggcatggacgacgacgcgggatacgtctacagacgattactagacccggtgcct
tcggggatatatgagtgcaattccagatgtaagtgcaaacacacctgtctaaaccgagtg
gcgcagcatccgctacagttgaagttacaagttttcaaaacccaaaaccggggatggggc
atccgcgctctaaatgacgtgcctaaaggagccttcctgtgcgtgtacgcggggaaccta
ctcaccgatgctacggccaacctggacggtctaaacgagggtgacgaatatctagccgag
ctggactacatcgaggtggtggaacagatgaaagaaggatatgaagaagacgtgcctgac
aaggacaaggagctggacaagaacgccaacgaagacagcgaagaagacgaatcgaccgaa
tcggactcggaggagagacgggagaagaacgacgagcaggacgacgacttccggcccgcg
tacgacatcccgcagccgcgggggccgctgatgttcaataagagtctccgtaagcgtgac
aagaagaacaagaaggataaggaaggctcccccgcggccgagaagaagaagcaggggggg
gactgcatcaccatcagtgatgatgaggaagtgagggaaccgcaaaggtttgctgctcaa
gcaggcatgggtgggaatgacttcaaatcgaaacataggtctgttcgcgcgcatttcggc
aaagatgaggcgtgctacatcatggacgcgaaggtgcagggcaacatcggcagatatctt
aatcactcctgccaaccgaacgttttctacgtcgataacaaactcgtgtaa
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integrated database retrieval system