| Entry |
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| Definition |
hypothetical protein
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| Orthology |
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| Organism |
aly Arabidopsis lyrata (lyrate rockcress)
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| Pathway |
| Glycolysis / Gluconeogenesis | | Purine metabolism | | Pyruvate metabolism | | Carbon fixation in photosynthetic organisms | | Metabolic pathways | | Biosynthesis of secondary metabolites | | Biosynthesis of amino acids |
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| Module |
| Glycolysis (Embden-Meyerhof pathway), glucose => pyruvate | | Glycolysis, core module involving three-carbon compounds | | Adenine ribonucleotide biosynthesis, IMP => ADP,ATP | | Guanine ribonucleotide biosynthesis IMP => GDP,GTP |
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| Class |
Metabolism; Carbohydrate metabolism; Glycolysis / Gluconeogenesis [PATH: aly00010]
Metabolism; Carbohydrate metabolism; Pyruvate metabolism [PATH: aly00620]
Metabolism; Energy metabolism; Carbon fixation in photosynthetic organisms [PATH: aly00710]
Metabolism; Nucleotide metabolism; Purine metabolism [PATH: aly00230]
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| SSDB |
   |
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| Motif |
 |
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| Other DBs |
NCBI-GI: NCBI-GeneID: JGI: UniProt: |
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| Position |
Unknown
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| AA seq |
498 aa  
MAMIEQRPKTKIVCTLGPASRSVPMVEKLLRAGMNVARFNFSHGSHEYHQETLDNLHQAM
LNTGILCAVMLDTKGPEIRTGFLKDGKPIQLKQGQEITISTDYDLKGDENTICMSYKKLA
VDVNPGMVILCADGTISLLVLSCDKENGTVRCRCENSAMLGERKNVNLPGVVVDLPTLTE
KDKEDIMQWGVPNQIDMIALSFVRKGSDLVQVRKLLGKHAKNILLMSKVENQEGVANFDD
ILVNSDAFMIARGDLGMEIPIEKIFLAQKVMIYKCNIQGKPVVTATQMLESMIKSPRPTR
AEATDVANAVLDGTDCVMLSGETAAGAYPELAVRTMAKICVEAESTLDYGDVFKRIMLYS
PVPMSPLESLASSAVRTANSARATLIMVLTRGGSTARLVAKYRPGMPILSVVVPEIKTDF
FDWSCSDESPARHSLIFRGLIPVLYAGSARASHDESTEEAIEFATQYGKEKELCKTGDSV
VALLRVGNASVIKILTVK |
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| NT seq |
1497 nt  +upstreamnt +downstreamnt
atggcgatgatagagcaaaggccgaagacgaagatcgtttgtactctaggtccagcttcc
agatctgttccaatggtcgagaagcttcttagggctggtatgaacgttgctcggtttaat
ttctcacatggatctcatgaataccatcaagagactcttgataatcttcatcaagctatg
cttaatactgggattctctgtgccgtcatgctcgataccaagggtccagaaatccgaacc
gggttcttgaaagatgggaaaccaatccagctgaaacagggccaagagatcaccatttcg
actgactatgacttgaagggtgacgagaacacgatttgcatgagctacaaaaagttggct
gtagatgtgaacccaggaatggtcatactttgcgctgatgggacaatctcgttactggtc
ctctcttgtgacaaagagaatggtacagtccgttgccggtgtgagaacagtgcgatgctc
ggtgagaggaagaacgtcaatcttccaggtgttgttgtggatctcccaactttaactgag
aaagacaaagaagacatcatgcaatggggagtcccgaatcaaatcgacatgattgctctg
tcttttgtcagaaaaggttcagacttggtccaggtccggaaacttctaggaaagcacgca
aaaaacattcttctcatgtctaaggttgagaaccaagaaggtgttgcaaattttgatgac
attttggtgaattcggatgctttcatgattgccagaggagatctgggaatggaaatccca
attgagaagatcttcctagctcagaaggtgatgatatacaaatgcaacatccagggaaaa
cctgtggtcacagcgactcagatgctcgagtccatgatcaagtctcctcgacccacaagg
gccgaagccacagatgttgcaaacgcagtcctcgacggtacagactgtgtcatgctcagt
ggtgaaactgcagctggagcataccctgaactagctgtccgtacaatggctaagatctgc
gtggaagccgagagcaccctcgactacggagatgtcttcaagaggatcatgctgtactct
ccagttccaatgagcccactcgagtcactcgcatcctcagcagtaagaactgctaactca
gctagagctactctcatcatggtcctaaccagaggaggaagcacagcaagacttgttgct
aagtacagaccaggaatgcctattctatccgtcgttgttcctgagatcaaaaccgacttc
tttgactggtcttgcagcgatgagtccccagctagacacagccttatcttccgtggtcta
atcccggtgctctacgctggatccgctagagcctcacacgatgaatcaacagaagaagct
attgagtttgctactcagtacgggaaagagaaagagctgtgcaagactggagactccgtt
gttgctctactccgagtcggtaatgcttccgtgatcaagatcttgacggtcaagtga |
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