| Entry |
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| Name |
(RefSeq) triosephosphate isomerase, chloroplastic
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| KO |
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| Organism |
smil Salvia miltiorrhiza (redroot sage)
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| Pathway |
| smil01110 | Biosynthesis of secondary metabolites |
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| Module |
| smil_M00001 | Glycolysis (Embden-Meyerhof pathway), glucose => pyruvate |
| smil_M00002 | Glycolysis, core module involving three-carbon compounds |
| smil_M00003 | Gluconeogenesis, oxaloacetate => fructose-6P |
| smil_M00165 | Reductive pentose phosphate cycle (Calvin cycle) |
| smil_M00611 | Oxygenic photosynthesis in plants and cyanobacteria |
|
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| Brite |
KEGG Orthology (KO) [BR:smil00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
131005513
00051 Fructose and mannose metabolism
131005513
00562 Inositol phosphate metabolism
131005513
09102 Energy metabolism
00710 Carbon fixation by Calvin cycle
131005513
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:smil04147]
131005513
Enzymes [BR:smil01000]
5. Isomerases
5.3 Intramolecular oxidoreductases
5.3.1 Interconverting aldoses and ketoses, and related compounds
5.3.1.1 triose-phosphate isomerase
131005513
Exosome [BR:smil04147]
Exosomal proteins
Exosomal proteins of colorectal cancer cells
131005513
Exosomal proteins of bladder cancer cells
131005513
Exosomal proteins of melanoma cells
131005513
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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 |
1:complement(69512361..69515659)
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| AA seq |
320 aa
MAVVSTSLAGAGAVTSQLTHFSGLRKSFLKLDTSSANSTHSFFQSVDSHIRLTSSGKACR
GVVAMAGTGKFFVGGNWKCNGTKESISKLVSDLNSATLESDVDVVVSPPFVYIDQVKNSL
TDRIEIAAQNCWIGKGGAFTGEISVEQLKDLGCKWVVLGHSERRHVIGEDDQFIGKKAAY
AVSQGVGVIACIGELLEEREAGKTFDVCFKQLKAYADAVSSWDNIVIAYEPVWAIGTGKV
ASPEQAQEVHAAVRNWLSKNVSAEVASKTRIIYGGSVNGGNSADLAKKEDIDGFLVGGAS
LKGPEFATIINSVTAKKVAA |
|---|
| NT seq |
963 nt +upstreamnt +downstreamnt
atggcggtcgtctccacttctctcgccggcgccggcgctgtcaccagccagctcactcac
ttctccggcctccgaaaatccttcctcaagctcgacacctccagcgccaactctacgcac
tcgtttttccagagcgtcgactcgcacatccgcctcacatcctccggtaaagcatgccgc
ggcgtcgtcgcgatggcaggcaccggaaagttctttgttggtgggaattggaaatgtaat
gggaccaaagagtccatcagcaagcttgtgtcggacttgaacagtgcaacacttgaatct
gatgttgatgttgttgtttcgcctcctttcgtctacattgatcaagtaaagaattcattg
actgatcggatagagatagcagcccaaaattgttggattggaaaaggtggcgctttcact
ggagaaatcagcgtggagcaactgaaagaccttggatgcaagtgggtcgttcttgggcat
tctgagcggaggcatgtaataggagaagatgatcaattcattggaaagaaggctgcttat
gccgtgagccagggtgtaggagtaatagcctgcatcggggagttgttggaagaaagagaa
gctggaaaaacctttgatgtttgctttaagcaattgaaggcttatgctgatgctgtctca
agttgggacaatattgtcattgcctatgagcccgtatgggcaattggaactggtaaagtg
gcctcacccgagcaggcccaggaagtgcacgctgctgttaggaattggctgagcaagaac
gtatcagcagaagttgcttctaaaacacgtattatctacggaggttcggtcaacggaggc
aactctgcagatcttgccaaaaaagaagacattgatggattcctcgtaggtggtgcatct
ctaaagggtcctgagttcgccaccatcatcaattccgttactgccaagaaggttgccgcc
tag |
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