Leguminivora glycinivorella (soybean pod borer): 125227134
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Entry
125227134 CDS
T09956
Name
(RefSeq) probable histone-lysine N-methyltransferase CG1716 isoform X1
KO
K11423
[histone H3]-lysine36 N-trimethyltransferase [EC:
2.1.1.359
]
Organism
lgly
Leguminivora glycinivorella (soybean pod borer)
Pathway
lgly00310
Lysine degradation
lgly01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
lgly00001
]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
125227134
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
lgly03036
]
125227134
Enzymes [BR:
lgly01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.359 [histone H3]-lysine36 N-trimethyltransferase
125227134
Chromosome and associated proteins [BR:
lgly03036
]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
125227134
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
SET
SRI
AWS
WW
Motif
Other DBs
NCBI-GeneID:
125227134
NCBI-ProteinID:
XP_047987309
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All DBs
Position
6:complement(19908944..19937493)
Genome browser
AA seq
1611 aa
AA seq
DB search
MARRKKAAAKPATRKMPRRGKAAAAAATVEGESSAAVEPPPEKPTELEPPVEPTPATDSQ
PSVSQDSQTNQTPKPTVPTVVLHKKFGKYRCLFNNEDSFTRKYDLGSDSETNSSVEIRVV
DPCASSESDSNAAADTQSENCSVVTNFSSLNNVKHLNDTNTMSETTTNAVLPLVNEIPMP
SEALLTELPPTSEIPLPVEPPKASIEPVLCKTSEHSQIPLLSESTSMGGNENLLVGITLP
SEIPLPVGAPTSSEQPFEIEASLTSEIPFPAEPAQPSIPYPSDAIPGLSLATGVALPVGI
PLLNDIPMPEAPATEISMNHVPEAATAETKSEVTCNPPAEYSNTVKENMNPDIPSEQEPM
EYGGDEEELITIVQIVEDDNQELYYNINMDSPDETTEKKEQDGEFQKHFEKLNITAPSAG
SMDGSQPGPKVQMPELLSRPDPSLTPSSIVSDDSNSSRVVETVANATDSIESSPTGVRRS
SRIKTISSQKQKSKGYGLVKTPLKKALITQTKLKLEENNSDSQEKSGDTASSIAPNSPSF
PVPSDLPVKVKSRWRRSSELEMGANSPANSPLASPSLPQRLQPVPEAQNPEDQTLTLSKE
AYDKIIDERMRQFQHLDENEYLCERMISKDTKKMICDCFMTKEEIERGELGCGEDCLNRL
LMIECNSRCPVGDRCTNRRFERRENGALKVFYADKKGCGVEAADDIPAGEFLMEYVGEVL
DYDQFYKRAQTYSDENNLHHYFMSLKGDTVIDATMKGNISRFINHSCDPNAETQKWTVNG
ELRIGFFSKRDIAVGEEITFDYQFKRFGKEAQRCYCGADACRGWIGAEPDSDDEDEEEEE
DDVSTTKVPAAVSVEAPAAAEAPRARPRRPRDRQYKPKVDLVQDADIEEDLEALHRTGVK
NQSHTLRLSRTVVRAKTRRAQVALLRLLRDADLPCRRLFLDYRGLRLLAPWCTDAPMDFR
LEMLQTVDRLPITNKTMVSESRFFTIVERWLSDTPTPDVFIDESTGLPVELSNKPQDENT
DVSSVLEKVKDLSSQLLERWSSLKEAFKIPKKERIQQMKEHERQANVERRAADSSGSRDR
ERRDERERERDRERDRDRERERERERDRYRERERDRDRDRDERDRRKRRSSPEARRSIRS
SRVLATVPPMSKEERRRAFAEAAAAAEDSRRQREQHYAHYWPEQAFPQMFPPGMMGGPPN
MLGGMPPGMPPGMAGMPPGMPGMPGMPGMIPGMPPDVPPEWIGPTGEFQGPPGFCPPFGG
PQQFCMQQANMMGMGGYGMPGFMFGQQMPPNAFPNAPQADAMLPQVAEQPPGEVILPSLW
RSAQDQRGRTYYYHVKLRQPQWLPPPPPAANGDESSSEEEAEMPAETPAVRRQGKVVEGV
NGIIYEVVKEGHNGLIPDHALVSVKPRKRRPGLVSERPISPRTEEDKLAGRMEVKRYKQT
KEKLRRRREKLLNKVRQLAQRSRKPNVDELKIVDLAETDSDSEASAEETEPTPVAVVEPE
PVPVPSPPVDAEEAARKLKEQFRSSMARVMVHHLNPYRHSDAPAGRITCTADFKHLARKL
THFVMLKELKHCRSVDELVVTDSVRSKAKEFVKKYMTKFGKVYRRPAEEAD
NT seq
4836 nt
NT seq
+upstream
nt +downstream
nt
atggcaaggcgaaagaaagcagcagcgaagcccgcgacgcggaagatgcctcggcgggga
aaggcggcggccgcggccgcgaccgtggaaggcgagtcgtctgccgccgtcgaacctcct
cctgaaaagcccaccgagctagagccgcccgtagaaccgacgcccgccacagactctcaa
ccatctgtctcccaagactcccaaactaatcagacaccaaaaccgacagtacccactgta
gtacttcataagaaattcggcaaatatagatgccttttcaataacgaggattcatttact
agaaaatatgacttgggaagtgatagtgaaactaatagtagtgtagaaatcagggttgtt
gacccctgtgctagctcagaatctgattcaaatgcagcagcagatacacagtcagaaaac
tgtagtgtagtgactaattttagttctttgaacaatgtcaagcacctgaatgacacaaat
accatgtcagaaacaacaacaaatgctgtgcttccattagtgaatgaaataccaatgcca
agtgaagcccttttgactgaactacctccaacatctgaaatacctctaccagttgaacca
cctaaagcttccatagaacctgtgctatgtaagacatctgagcatagtcaaatcccattg
ttatctgaatcaacatcaatggggggaaatgaaaacttactagttggtattacattgcca
tctgaaatccccttaccagtaggagctccaacttcttcagagcaaccttttgaaattgaa
gcatctttaacctccgaaataccgtttcctgcagagccggctcaacctagcataccatac
ccttcagatgcaataccaggcttgtcattggccacaggagttgctttaccagttggtatt
ccacttttaaatgatataccaatgcctgaagcaccagcaactgaaatcagtatgaatcat
gtacctgaagcagctacagcagaaacaaagtcagaagttacatgtaatccaccggctgaa
tactcaaatacggtaaaagagaatatgaacccagacattccaagtgaacaggaaccaatg
gagtatggaggggatgaagaagagctcattactattgttcagatagttgaagatgacaac
caagagctttactataatatcaatatggatagcccagatgaaacaacagaaaagaaagaa
caggatggagagtttcaaaaacactttgagaaacttaacataactgctccaagtgctgga
tctatggatggttctcaacctggacctaaagtacaaatgcctgagctgttatctaggcca
gacccaagtttgacacctagctccattgtatctgatgacagtaactcttcaagagttgtt
gaaacagttgcaaatgcaactgactccatagaatcttcccctacgggagttagacgttca
agtagaataaagactattagtagccaaaaacaaaaatcaaaaggctatggtttagtgaag
actccattaaagaaagctttgattacacaaacaaaacttaagcttgaagagaacaactca
gatagtcaagaaaaatcaggagatacagcaagtagcattgctcctaattctccttccttc
ccagtgccttcagacctacccgtcaaagtcaaatcaagatggcgtcggtctagtgagcta
gaaatgggtgctaattctccagcaaactcaccgctggctagccccagtttaccacagcgg
ttgcaaccagtacctgaagctcaaaacccagaagaccaaacactgacattaagtaaagaa
gcatatgacaaaattatagatgagagaatgagacaatttcagcacttggatgagaatgag
tatttgtgtgaacgaatgatcagtaaggatacaaagaagatgatttgtgactgttttatg
accaaagaggagattgagaggggagaactaggctgtggagaagactgtctaaatagactg
cttatgattgaatgtaactcccgatgtcctgtgggtgaccgttgtacaaacagaaggttc
gagaggcgagagaatggtgcgctgaaagtgttctatgcggacaagaaaggttgcggtgtg
gaagccgctgatgacattccagcaggcgaattcctcatggaatatgtaggcgaagtgtta
gactacgaccaattctacaagcgcgcacagacctattctgacgagaacaaccttcaccac
tacttcatgtctttaaaaggcgacacggttatcgacgcgaccatgaaaggcaacatatcc
cgctttatcaatcactcctgcgacccgaacgctgaaacgcagaagtggacggtgaacgga
gagctcagaatagggttcttcagtaagagagatatcgctgttggggaggagatcacgttt
gattaccaattcaaacggtttggaaaagaggcgcagcgctgctactgcggggccgatgct
tgccgcggctggatcggtgccgaacccgactccgatgacgaagatgaagaggaggaggaa
gacgacgtgtcgacgacgaaggttccggcggccgtgtccgtggaggcgccggcggccgcg
gaggcgccgcgcgcgcgcccgcgccggccccgcgaccgccagtacaagcccaaggtcgac
ctcgtgcaggacgccgacattgaagaagacctggaagcgttacaccgcaccggggtgaag
aaccagagccacacgctgcgcctgtcgcgtacagtcgtccgcgcaaaaacgcgccgcgcg
caggtcgctctactgcggctcctgcgcgacgccgacctgccgtgtcgccgcctgttcctc
gactaccgcggcctgaggctgctggcgccctggtgcaccgacgctcccatggacttccga
ctcgagatgctacagacggtggaccgtctgcccataacgaacaagaccatggtgtccgag
agtcgattcttcaccatcgtcgagcggtggcttagcgacacgcccactcctgacgtcttc
atcgatgaatccactggtttgccagtagaactgtcgaacaagccacaagatgagaataca
gacgtcagttcagtcttggagaaagtcaaagatctatctagccaactactagaaagatgg
tctagtctaaaggaggccttcaaaatccccaaaaaggagcgcatccaacaaatgaaagag
cacgagcgtcaagccaacgtggagcggcgcgccgcagactcgagcggctcccgcgaccgc
gagcggcgcgacgagcgggaacgcgaacgcgatagagagcgcgaccgggaccgcgagcgg
gagcgagagagggagagagataggtatcgggaacgagagcgtgatagagacagggacaga
gatgaacgggacagaagaaaaagaagaagcagccctgaagccaggagaagtataaggagc
agtcgggtcctagccacagtgccgcctatgagcaaagaggagcggcgacgagcatttgcc
gaagcggctgccgcggccgaagattctcgaagacaacgggaacaacactatgctcactac
tggcccgagcaagccttccctcagatgttcccaccgggaatgatgggcgggccgcccaac
atgctcggcggcatgccgccgggaatgcccccgggcatggcgggcatgccgcccgggatg
ccggggatgcccgggatgccggggatgatcccgggcatgccgcccgatgtacctcctgag
tggatcgggccgacgggcgagtttcagggcccgcctggcttttgcccgccgttcggagga
ccgcagcagttctgcatgcaacaagccaatatgatgggcatgggcggttacgggatgccc
gggttcatgttcgggcagcagatgccgcctaacgccttcccgaacgcgccgcaagccgac
gccatgttgccacaggtagcggaacaaccgccaggagaagtgatcctgccttcgctctgg
cggtcggcgcaggaccagcgcgggcgcacctactactaccacgtcaagctgcgccagccg
cagtggctgccgccgccgccgcctgcggccaatggagatgagagttcatcggaggaggaa
gccgagatgcccgccgagacgccggccgtgagacggcaaggcaaggtcgtcgagggcgtc
aacggaatcatttatgaagtggtaaaagagggtcacaacgggctgatccccgaccacgcg
ctggtgagcgtcaagccgaggaagcggcgcccggggctggtctcggagcgacccatcagt
cctcgaacggaagaggacaagttagcaggacgaatggaagtgaagcgttacaagcaaacg
aaagaaaagctccggcggcggcgtgaaaagttgttgaataaggtgcgacagctggcgcaa
cgatcaaggaaacctaacgttgatgaactaaagatcgtggacctcgccgaaaccgactca
gattccgaagcctcagccgaagagaccgaaccaacgccagtcgcagtagtcgagcctgaa
cccgtaccagttccttctccccccgtcgacgctgaagaggccgcacggaaactcaaggaa
cagttccgaagtagcatggcacgggttatggtgcatcatctcaacccgtatcggcattct
gacgctcctgctggtcgaattacctgcacggctgacttcaaacatctcgctaggaagcta
acccacttcgtgatgctaaaagaactcaaacactgtcggtccgtggacgagctagtcgtc
accgactccgtccggtccaaggccaaggagttcgtcaagaagtacatgaccaagttcggc
aaggtctaccgccgccccgccgaggaggccgactag
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