Entry |
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Name |
(RefSeq) pyruvate kinase isozyme G, chloroplastic isoform X1
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KO |
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Organism |
vvi Vitis vinifera (wine grape)
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Pathway |
vvi01110 | Biosynthesis of secondary metabolites |
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Module |
vvi_M00001 | Glycolysis (Embden-Meyerhof pathway), glucose => pyruvate |
vvi_M00002 | Glycolysis, core module involving three-carbon compounds |
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Brite |
KEGG Orthology (KO) [BR:vvi00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
100257566
00620 Pyruvate metabolism
100257566
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:vvi04131]
100257566
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:vvi04147]
100257566
Enzymes [BR:vvi01000]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.1 Phosphotransferases with an alcohol group as acceptor
2.7.1.40 pyruvate kinase
100257566
Membrane trafficking [BR:vvi04131]
Autophagy
Chaperone mediated autophagy (CMA)
Selective cargos
100257566
Exosome [BR:vvi04147]
Exosomal proteins
Proteins found in most exosomes
100257566
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SSDB |
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Motif |
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Other DBs |
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Position |
2:complement(join(8633219..8633332,8633420..8633528,8634951..8635099,8635672..8635774,8637818..8637993,8640319..8640381,8646866..8646954,8647051..8647161,8647322..8647456,8648259..8648424,8649197..8649478,8658883..8659104))
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AA seq |
572 aa
MAAFNVSSKMTPLKFHAVPTSDRLSWSKSVSDFAAGLHSRRRWERMQVAALRSMKITEHD
QMPDLTSQNGPLTFDTVKTPFELQSSDSTLGNQRIMSNPRRKTKIVCTIGPSTSSREMIW
KLAETGMNVARLNMSHGDHASHKKTIDLVKEYNAQFEDKVIAIMLDTKGPEVRSGDVPKP
IMLKEGQEFNFTIKRGVSSENTVSVNYDDFVNDVEVGDILLVDGGMMSLVVKSKSKDLVK
CQVIDGGELKSRRHLNVRGKSATLPSITDKDWEDIKFGVDNQVDFYAVSFVKDAEVVHEL
KDYLRSCGADIHVIVKIESADSIPNLHSIISASDGAMVARGDLGAELPIEEVPLLQEDII
RRCHSMQKPVIVATNMLESMINHPTPTRAEVSDIAIAVREGADAVMLSGETAHGKYPLKA
VKVMHTVALRTESSLSTSTTPPSQTIPYKSHMGTMFAFHATTMANTLNTPIIVFTRTGSM
AITLSHYRPSSTIFAFTNEERVKQRLVLYHGVMPIFMQFSDDAEETFSRALSILVNKGLM
KEGEHVTLVQSGAQPIWRVESTHHIQVRKVQG |
NT seq |
1719 nt +upstreamnt +downstreamnt
atggccgctttcaacgtctcttccaaaatgacaccgctcaaattccacgcggtcccgacc
tccgatcgtctttcctggtcgaaaagcgtctccgacttcgccgccgggttgcattcgcgg
aggagatgggagcggatgcaagtggccgcccttcgatccatgaagatcacggagcatgat
cagatgcctgatctcacttcccagaacggtcctttaacttttgatacggtgaagactcct
tttgaacttcaatctagtgattccactctgggaaatcagaggataatgtcgaatcctcga
cggaaaacgaagatagtatgtactattggtccctccactagttcacgagaaatgatatgg
aaactggcagaaactggaatgaatgttgcacgtttgaatatgtcacatggggaccatgca
tcgcacaagaaaaccattgatctggtcaaagaatacaatgctcaatttgaagacaaggtt
atagccataatgctggacaccaagggtcctgaggtcagaagtggagatgtccctaaacca
atcatgcttaaggagggacaagaattcaacttcactattaaaagaggagtcagctcagaa
aacactgtcagtgtaaattatgatgactttgtgaatgacgtggaggttggagatatactt
cttgttgatggtggaatgatgtcattagttgtgaaatcaaagtctaaggatttggttaag
tgccaagtaattgatggtggtgagctgaaatcaaggcgtcacttgaatgtgcgtggaaaa
agtgcaactctgccttcaataacagacaaagactgggaagatatcaagtttggagtggac
aaccaagttgatttctatgctgtttcctttgtgaaagatgctgaagtggtccatgagttg
aaagattacctcagaagctgtggtgcagatattcatgtgattgtgaaaattgaaagtgca
gattccataccaaatcttcattccattatttctgcttctgatggggcaatggttgcacgt
ggggatcttggagctgaacttccaattgaggaagtccctttattgcaggaggacatcatt
agaaggtgtcacagcatgcagaagcctgttattgtagcaacaaacatgttggagagcatg
attaatcatcctacaccaacaagggccgaagtttctgatattgcaattgctgtaagagaa
ggtgctgatgcagttatgctttctggagaaactgcccatggaaagtatccgttgaaagct
gttaaagtaatgcatactgtggcattgaggactgagtctagtctatcaaccagcacaact
cctccaagtcaaactataccctacaagagtcatatgggtacaatgtttgctttccatgcc
accactatggctaacactcttaatactcccatcattgtctttacaagaactggatccatg
gctataactttaagccattatcggccttcctcaacaatctttgccttcactaatgaagaa
agagttaagcagaggttggtgctttatcatggtgtgatgcctatatttatgcagttttca
gatgatgctgaggagaccttctctcgagccctcagcatactagtgaacaagggcctaatg
aaggagggagagcatgtgactcttgttcaaagtggagcacaaccaatctggcgtgttgaa
tctactcaccacatccaagttcgtaaggtccaaggttga |