| Entry |
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| Name |
(RefSeq) hypothetical protein
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| KO |
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| Organism |
spaa Spathaspora passalidarum
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| Pathway |
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| Brite |
KEGG Orthology (KO) [BR:spaa00001]
09100 Metabolism
09105 Amino acid metabolism
00310 Lysine degradation
SPAPADRAFT_54781
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:spaa03036]
SPAPADRAFT_54781
Enzymes [BR:spaa01000]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.359 [histone H3]-lysine36 N-trimethyltransferase
SPAPADRAFT_54781
Chromosome and associated proteins [BR:spaa03036]
Eukaryotic type
Histone modification proteins
HMTs (histone methyltransferases)
HKMTs (histone lysine methyltransferases)
SPAPADRAFT_54781
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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 |
718 aa
MSDPSRESTRTPPIKQPTPQIFLDAEDKTAEALSKFTELEACTYASKQLGSSQMQEFMTC
DCEEEWDGELQLNLACGEDSHCINRVTSVECMNRHCLCGNDCQNQRFQKREYAAVSVFQT
ELKGYGLRADLEIGEGQFIYEYTGEVIDEATFRQRMVEYDQKSFKHFYFMMLKSDSFIDA
TVRGSLARFVNHSCNPNAYVDKWVVGDKLRMGIFAKRKIARGEEITFDYNVDRYGAQSQP
CYCGEPNCIKFMGGKTQTDAALLLPEGIADALGVSSKEEKQWLKENKHLRQQQSDDAVIN
EMFIKQLEITPLTESDVSKVMGALMKSQDALIIESLIQRIYLTDDKSLNVLIIKFHGYKT
LSNILEKTSDEKLIQTILEILSKWPKVTRNKISSSQIEEVIKEIERKYDNETIKSLASDL
LHEWSKLKMAYRIPKAKPNETPSYSRVSRSPEREEETPQSPSLDPTPSEEPLPDGWEVAY
DPNTKNNYYYHRALQISRWDRPVSSVPRGPKPPTGPRPPTGPGGYKRGGSSTPTKFSEAD
LAEREERRMQMLKNEQYRALQEKERQLQELIEQSRELERKKQEEQQQSQQKPEKKQKTVK
SSHKHDDVSVEAKWKHVLAKHVPNLIKKYEKEIGRDNLKGCARDLVNSLASKEVKIDPKS
SPPKELDHHKLKKIKEFSKTFMEKFLVKYRQKHDKKRSRDSDESGSDSKRTKVATNGA |
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| NT seq |
2157 nt +upstreamnt +downstreamnt
atgtcggatccatcacgagaatcaacgcggacaccgcccatcaaacaaccaacacctcaa
atattccttgatgccgaagacaaaaccgctgaggctctttccaaattcaccgaacttgaa
gcttgcacttatgcctcaaaacaacttggctcgtcacagatgcaagagttcatgacttgt
gattgtgaagaagaatgggacggggaattacaattgaacttagcctgtggtgaggattcc
cactgtattaaccgagttacatccgtggaatgtatgaatcgacattgtttatgtggcaac
gactgtcaaaatcagagattccagaagagagaatatgctgctgtgtctgttttccagact
gaattgaaaggatatggattgagagccgatttagaaatcggtgaaggacagttcatatac
gaatatacaggtgaggttattgatgaggctacattcagacagagaatggtagagtatgat
cagaaaagtttcaagcatttctatttcatgatgcttaagtcagactcgttcattgatgcc
actgtgagagggtcccttgctcggtttgtgaatcactcctgtaaccccaatgcctatgtt
gacaaatgggttgtcggtgataaacttcgtatgggtatattcgccaagaggaaaattgct
cgtggtgaagaaattacttttgactataatgtagacagatacggagctcagtctcaacca
tgttattgtggtgaaccaaattgtataaagttcatgggtggtaagacccaaactgatgcg
gcattattacttccggaaggtattgccgatgctcttggtgttagttccaaagaggaaaag
cagtggttaaaggaaaacaagcatttaagacaacaacaatctgatgatgcagtgataaat
gaaatgtttatcaaacaattggaaatcacaccattaacagagtcagatgtttcgaaagtg
atgggagcattgatgaaatctcaagatgcactaattatagaatcattaattcaaagaata
tatttgacagatgataaaagtttgaatgtgctaattattaaatttcatggatacaaaaca
ttatccaacattcttgagaaaacctctgatgaaaagcttattcaaacgattcttgaaatc
ttatccaaatggccaaaagtcacacgaaacaagatttcttcatcgcaaattgaagaggtt
atcaaggaaattgaacgcaagtatgacaatgaaactataaaatccttggcgtctgactta
ctacacgaatggtcaaaattaaaaatggcataccgtatccctaaagcaaaaccaaacgag
acaccttcatattcccgagtatctcgatcgccagaacgtgaagaagaaacaccacaatct
cctctgttagatcctactcctagtgaagaacccttgcctgatggctgggaagtagcttat
gatccaaacaccaagaataactactattaccatcgcgcattgcaaatatcacgttgggat
cgtccagtttcttcagttccccgtggccctaaaccacccactggtccacgtccacccact
ggtcccggaggatacaagcgcggtggatcaagtacccctacaaaattcctggaggctgat
ttggccgagcgtgaagagcgcagaatgcaaatgttaaagaatgaacagtatcgggctcta
caggagaaggaacgtcaattacaagaattgatcgaacaaagtcgtgagcttgaacgtaag
aagcaagaggaacaacaacaatcacaacaaaaaccagagaagaaacaaaagacagtcaaa
tcaagtcacaagcatgatgatgtttctgtggaagctaagtggaaacacgttcttgctaaa
catgtaccaaatctcattaagaagtatgaaaaggaaataggaagagataatcttaaagga
tgtgctcgagatttagttaatagtttagcttctaaagaagtcaagattgatccaaagagt
tctccaccaaaagaattagaccatcacaaattgaaaaaaatcaaggaattttcaaagaca
tttatggaaaagtttttagtaaaatatagacaaaagcacgacaagaagagaagtcgagat
tcggatgaatcaggttccgattccaaacgtactaaagttgctactaatggagcatga |
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