| Entry |
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| Name |
(RefSeq) EGF domain-specific O-linked N-acetylglucosamine transferase isoform X1
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| KO |
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| Organism |
aflr Apis florea (little honeybee)
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| Pathway |
| aflr00514 | Other types of O-glycan biosynthesis |
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| Brite |
KEGG Orthology (KO) [BR:aflr00001]
09100 Metabolism
09107 Glycan biosynthesis and metabolism
00514 Other types of O-glycan biosynthesis
100867968
09180 Brite Hierarchies
09181 Protein families: metabolism
01003 Glycosyltransferases [BR:aflr01003]
100867968
Enzymes [BR:aflr01000]
2. Transferases
2.4 Glycosyltransferases
2.4.1 Hexosyltransferases
2.4.1.255 protein O-GlcNAc transferase
100867968
Glycosyltransferases [BR:aflr01003]
O-Glycan biosynthesis
O-linked GlcNAc type
100867968
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
Unknown
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| AA seq |
560 aa
MMIDYALSIKYSVTIAMVFAVTSTYSNYTDIDLPSDHIKYYFNYFPTVAEECRNNTACPY
KDSLDTKACWGYEPNCKDENSFSVPQCPGDHRGWVTTKKAQVETFYAQGDFGYVRDQRKE
MSIFCEPLFVDDSSLECSEHMRFCRARNIMINFTDLIRRKEPIRYKMDVLKEGQIGGYCT
LNEKRLEENADHISPLQSWGPELRNFRKLSRPPIVNHDCDIVIEKPTFVMKIDAIVNMYH
HFCDFFNLYASLHVNLSHPAGFSTDNHIMIWESYSYRSAFQDAFEAFTRNPLWDLKTFRG
ETVCFKNLVFPLLPRMIFGLYYNTPLIYGCENSGLFKAFGEHVLHRLRIPLHERKNQRIR
VTLLSRDTQYRRILNEDELVRALKENPLYKVKKVVYNKKISFKKQLEITRNSDIFIGIHG
AGLTHLMFLPDWAAVFEIYNCEDPGCYKDLARLRGVKYFTWENNSKLVQQDPGTHPDGGA
HAKFTNYSFDVEEFLRIVSQATDYVKNHDSFKNFVAKNAQRKRTEMKNQTSAMSNVKESA
TSKSKEVTELKSDIQSKDEL |
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| NT seq |
1683 nt +upstreamnt +downstreamnt
atgatgatcgattacgcgttaagtattaaatactcagtgacgatcgcgatggtgttcgcg
gtcacatccacgtacagtaattacacggacattgatctaccctctgatcacatcaagtat
tacttcaactattttcccacggtggccgaagagtgccgcaataataccgcctgtccgtac
aaggatagccttgataccaaagcttgttggggttacgagccgaattgcaaagacgaaaat
tctttttccgttcctcaatgtccaggtgatcacagaggatgggtgactacgaaaaaagca
caggtagagacgttttacgctcaaggcgactttggctacgtacgcgatcaaagaaaagaa
atgtcgattttttgcgaaccgttgtttgtggacgactcgtctctggaatgctcggaacac
atgagattctgccgagcaaggaatataatgatcaatttcacggatctgatcagaaggaag
gaacctatacggtacaagatggatgtgttaaaagaaggtcaaattggaggatactgcaca
ttgaacgaaaaaagattagaagagaacgcggatcatattagtccattgcaatcttgggga
cctgaactacgaaatttccgcaagttatctcgaccaccaatcgtcaatcacgattgcgat
atcgtgatcgagaagccaacattcgtaatgaaaatagacgctatagtaaacatgtatcat
catttctgcgactttttcaacttatacgcgtcattgcacgtaaatctctcgcatccagcc
ggcttcagtactgataatcacataatgatttgggaaagctacagctatcgttctgcgttt
caagatgcttttgaggctttcacgagaaacccgctgtgggatttaaaaacattccgagga
gaaaccgtctgtttcaagaatctcgtattccccttattgccgcgcatgatttttggtcta
tactataatacacctcttatttacggctgtgagaacagtggattgttcaaagctttcggt
gaacatgtgttgcatagattgcgcatacctctccatgaaaggaaaaaccaaagaataaga
gttactctgcttagcagagatactcaatatcgaagaattctgaacgaggacgaattggtg
agggctttgaaagaaaatccgttatataaagtgaaaaaggtagtttataataaaaaaata
tcatttaagaaacaattagaaatcacaagaaattctgatatctttattggtatacatgga
gctggattaacacatcttatgtttttgccagattgggcagcagtgtttgaaatatataat
tgcgaagatccaggatgttataaagatctagctcgtttgcgtggtgtaaaatactttaca
tgggaaaataattcgaaattagtgcaacaagatcctggtacgcatcctgatggaggagcg
catgcaaaattcacgaattacagtttcgatgttgaagaatttttacgtatagtttcacaa
gctaccgattatgtaaaaaatcatgattcgtttaaaaactttgtcgctaaaaatgcgcaa
cgtaagagaacagaaatgaaaaatcaaactagcgcaatgagtaatgtaaaagaaagtgca
acttctaaatcgaaagaagtaaccgaattaaaatctgatattcaatccaaagatgaatta
taa |
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