Entry |
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Name |
(RefSeq) aldehyde dehydrogenase (ALDDH)
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KO |
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Organism |
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Pathway |
cgi00053 | Ascorbate and aldarate metabolism |
cgi00280 | Valine, leucine and isoleucine degradation |
cgi00330 | Arginine and proline metabolism |
cgi00770 | Pantothenate and CoA biosynthesis |
cgi01110 | Biosynthesis of secondary metabolites |
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Brite |
KEGG Orthology (KO) [BR:cgi00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
CGB_D1930W
00053 Ascorbate and aldarate metabolism
CGB_D1930W
00620 Pyruvate metabolism
CGB_D1930W
09103 Lipid metabolism
00071 Fatty acid degradation
CGB_D1930W
00561 Glycerolipid metabolism
CGB_D1930W
09105 Amino acid metabolism
00280 Valine, leucine and isoleucine degradation
CGB_D1930W
00310 Lysine degradation
CGB_D1930W
00330 Arginine and proline metabolism
CGB_D1930W
00340 Histidine metabolism
CGB_D1930W
00380 Tryptophan metabolism
CGB_D1930W
09106 Metabolism of other amino acids
00410 beta-Alanine metabolism
CGB_D1930W
09108 Metabolism of cofactors and vitamins
00770 Pantothenate and CoA biosynthesis
CGB_D1930W
Enzymes [BR:cgi01000]
1. Oxidoreductases
1.2 Acting on the aldehyde or oxo group of donors
1.2.1 With NAD+ or NADP+ as acceptor
1.2.1.3 aldehyde dehydrogenase (NAD+)
CGB_D1930W
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SSDB |
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Motif |
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Other DBs |
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Position |
D:join(447781..447908,447957..448141,448192..448252,448302..448334,448384..448545,448593..449001,449051..449161,449214..449384,449434..449736)
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AA seq |
520 aa
MRPTIARRHLLPLGIRSRHIMPTHAKLNVPPLGEVEVPVGLFINNEWVESISKETFSTVN
PATGQKLLNFAHAKKEDIDKAVVAARKAFKTTWGNNVPAAERGALLNKLADLMERDSDKL
AALESINCGKGIRIAREADVADSIACIRYYAGLADKIHGQTVPSFGKEKFVYTLHQPIGV
CGQIIPWNYPIMMWAWKIAPALAAGCTIVMKPSELTPLSALALCDLLKEAGIPAGVVNTV
PGLGTTAGDAISRHMDIDKVAFTGSVVTGRRISIAAAESNLKKVTLELGGKSPVIVFDSA
DVEEAADWAALAIWFNSGQDCCAGSRLYVQESIFDKFLAAMKKRAEACAIGQPYDEKTSF
GPLISEGQRDKVLNYILSGKEQGARVVTGGQKWPKSNGGYWIEPTILADTTPDMTVVKEE
IFGPVVVAASFKTEEEVLELSNDTTYGLAAAVFTNDARQATRVSAALDAGTVWINQYALL
HPGVPFGGFKQSGIGRELGTYGLEAYMQIKAVHNNLTQTS |
NT seq |
1563 nt +upstreamnt +downstreamnt
atgagacccacaattgcccgtagacaccttctcccattaggtataagatccagacacata
atgcccacccacgcgaagctcaacgtcccccctctcggcgaagtcgaagtccccgtaggg
ttgttcatcaacaacgaatgggtagaatccattagtaaagagactttctccactgtaaac
ccagcgactggccagaagctcttgaattttgcacatgccaagaaggaggatatagacaag
gccgtcgtcgctgcccggaaagctttcaagactacttggggaaacaatgtccccgccgct
gagcgaggagctttgttgaataaactggctgatctgatggagagagacagtgataagctt
gctgctctcgaaagtattaactgtggaaagggtataaggattgctcgagaagctgatgtc
gccgactctatcgcctgtattcgatactatgctggtcttgccgataagatccacggtcaa
acggttccttcttttggtaaagagaaattcgtttacacactacaccagcccatcggtgtc
tgtggccagatcatcccatggaattaccctattatgatgtgggcttggaagattgcgcct
gcccttgctgcaggctgtactatcgtcatgaagccttctgaacttaccccgctttctgct
ctcgcactttgtgacctgctcaaggaagctggcattccagctggtgtcgtcaatacggtt
cctggcctcggcacaactgcgggtgatgccatttcacgccacatggatattgacaaggtt
gctttcaccggatctgtcgtcactggtcgaaggatctctattgcagctgccgaatcgaac
ctcaaaaaggtgactctggagcttggtggtaaatctcctgtcattgtgtttgattcagcg
gatgtggaggaggcggcggactgggctgctttggccatctggttcaactctggccaagac
tgctgcgctggtagcagattgtatgtccaagagagcatctttgacaagttccttgcagct
atgaagaagcgcgcagaggcctgtgccattggccaaccctatgacgaaaagacctctttt
ggtcctctaatttccgagggtcagcgtgacaaagttttgaactacatcctctcaggaaag
gagcaaggcgctcgagtggtcacaggtggtcaaaaatggcccaagtctaatggcggttat
tggattgagcctacaatccttgccgataccacgccggatatgacagtagtgaaggaagag
atcttcggccctgtggtcgtcgctgcttctttcaagaccgaggaagaagtccttgaactg
tcgaacgacactacttacggcctcgcagctgctgtcttcaccaacgacgcccgtcaagcc
actcgagtctcagccgcgttggatgctggaactgtctggatcaatcaatatgctttgttg
catcctggagttccttttggtggcttcaagcagagcggtatcggtcgagagctcggaaca
tatgggctagaggcgtacatgcagatcaaggcggttcataataacttgactcagacttcg
tga |