| Entry |
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| Name |
(GenBank) NADP-dependent isocitrate dehydrogenase
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| KO |
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| Organism |
rek Reichenbachiella agarivorans
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| Pathway |
| rek01110 | Biosynthesis of secondary metabolites |
| rek01120 | Microbial metabolism in diverse environments |
| rek01210 | 2-Oxocarboxylic acid metabolism |
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| Module |
| rek_M00010 | Citrate cycle, first carbon oxidation, oxaloacetate => 2-oxoglutarate |
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| Brite |
KEGG Orthology (KO) [BR:rek00001]
09100 Metabolism
09101 Carbohydrate metabolism
00020 Citrate cycle (TCA cycle)
N6H18_02630
09102 Energy metabolism
00720 Other carbon fixation pathways
N6H18_02630
09106 Metabolism of other amino acids
00480 Glutathione metabolism
N6H18_02630
09140 Cellular Processes
09141 Transport and catabolism
04146 Peroxisome
N6H18_02630
Enzymes [BR:rek01000]
1. Oxidoreductases
1.1 Acting on the CH-OH group of donors
1.1.1 With NAD+ or NADP+ as acceptor
1.1.1.42 isocitrate dehydrogenase (NADP+)
N6H18_02630
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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 |
complement(659701..661917)
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| AA seq |
738 aa
MTKSKIIYTKTDEAPALATYSFLPIVAAFTSAAGVEVETRDISLAGRIIANLSDYLTDDQ
KIGDALAELGDLAKQPEANIIKLPNVSASIPQLQAAIKELQAQGYKLPNYPADPKTAEEK
EIKAKYAKVLGSAVNPVLREGNSDRRAPKAVKNYAKKHPHSMGAWTADSKSHVASMASGD
FYGSEKSVTIAEPTDVKIEFVATDGATEVLKASTPLKAGEIIDTAVMSIAELKKFVAAEI
AAAKKDGVLFSLHLKATMMKVSDPIIFGAVVEVFYKDVFEKYADLFAELGVTATNGLGDV
YAKIAGHAKQAEVEAAIEAVYTNSPDLAMVNSDKGITNLHVPSDVIVDASMPAMIRTSGQ
MWNKAGKSQDTVALIPDRSYAGVYQATIDFCKKNGAFDPSTMGSVSNVGLMAQKAEEYGS
HDKTFQMKAAGSVKVTDQSGTVLMEQPVEAGDIFRMCQVKDAPIQDWVKLAVNRAKATGD
ATVFWLDENRAHDRELIKKVNTYLKDYDTKGLEILIKNPVAATEFTLAKVIEGKDVVSVT
GNVLRDYLTDLFPILELGTSAKMLSIVPLMNGGGLFETGAGGSAPKHVQQFEEEGYLRWD
SLGEFLALAVSLEHLSETFDNPKAKVLADTLDAATAKFLDEDKSPARKVGQIDNRGSHFY
LAMYWAQELAAQSKDAELKAKFANLAKVLTESEDKINAELIGAQGKPEDIGGYYMPNVDL
ASKAMRPSATLNAALAAL |
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| NT seq |
2217 nt +upstreamnt +downstreamnt
atgacaaaatcaaagatcatttacaccaaaacggacgaagcgccagctttggctacctat
tcatttttacccattgttgctgcgtttacatcagcggctggcgtggaggttgagaccaga
gacatttcattggcaggcagaattatcgccaatttatctgactacctcacagatgatcaa
aaaataggggatgcactggcagaactcggtgatttggccaagcagccagaggctaacatc
atcaagttgcccaacgtatctgcatccatcccacagctccaagcggctatcaaagaattg
caagcacagggatacaagttgccgaactatccagcagaccctaagactgctgaagaaaaa
gaaatcaaagccaagtatgccaaagtattgggtagtgcagtgaatccagtcttgagggaa
ggtaactctgacagaagagcacccaaagcggtaaaaaattatgcaaagaagcacccacac
agcatgggagcatggactgcagactctaaatcacatgtcgctagcatggcttctggagat
ttttacgggagtgaaaaatcagtaaccatcgcagagccaaccgatgtgaagattgagttt
gttgctacagatggagctacagaggtcttgaaggcatctactccattgaaagcaggcgaa
atcatcgatacagcagtgatgagtatcgcagaattgaaaaagtttgtcgctgctgaaata
gcagctgctaaaaaggacggtgtgttgttctctcttcacctcaaagccaccatgatgaag
gtttctgacccgattatctttggtgctgttgtagaagtgttttacaaagacgtgtttgag
aagtatgccgacctatttgcagagttgggagtcacagctaccaacggtctgggtgacgtc
tatgcgaaaatcgccggccatgccaagcaagcggaagtagaagctgcgatcgaagcagtg
tacacaaatagcccagatttggctatggtcaattctgacaaaggaatcacgaacctacac
gtaccttcagatgtgatcgtggatgcatctatgccagctatgatccgtacgtctggtcag
atgtggaacaaagcaggtaagtcacaagacacagttgcattgattccagatagaagttat
gcaggtgtctaccaagcgacgattgatttttgcaagaaaaatggcgcgtttgatccctct
accatgggttctgtgtccaacgtagggttgatggcacaaaaagctgaagagtacggctcg
catgacaagaccttccaaatgaaagctgccggttctgtcaaggtaacagatcagtcaggc
acggtattgatggagcagccagtagaggctggagacatcttcagaatgtgtcaggtgaag
gatgctcctattcaggattgggtgaaattggctgtaaacagagcaaaagcaacaggtgat
gcgactgtattctggttggatgagaacagagcacacgatagagaactgatcaaaaaggta
aatacctacttgaaagattatgataccaaaggcttagagattttgatcaaaaacccagta
gcggctactgagttcactttggcaaaagtgatcgaaggaaaagatgttgtttctgtgaca
ggaaacgtactgagagattacttaactgaccttttccccatcttggaattagggacgagt
gcgaaaatgttgtctatcgttccgttgatgaatggtggaggcttgttcgaaacaggagct
ggcggatcagcacctaagcacgtacagcagttcgaagaagaaggttatttgcgttgggat
tctttgggagagttcttggcattggcggtttcgttggagcacttgtcagagacatttgac
aatccaaaagcgaaagttttggcagataccttggatgcagctactgctaaattcttggat
gaagacaaatcacctgcacgtaaagtaggtcagattgacaacagaggctcacatttttac
ctagcgatgtactgggcacaggaattggccgcacaaagcaaagacgctgagttgaaagca
aaatttgccaacttggccaaggtcttgaccgaaagtgaagacaaaatcaatgctgagttg
attggagcgcaaggcaaaccagaagacatcggtggctattacatgccaaacgtggatttg
gcgtctaaggccatgagaccaagtgctactttgaacgctgctttagcggcattgtaa |
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