Entry |
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Name |
(RefSeq) aminotransferase class I and II protein
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KO |
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Organism |
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Pathway |
rsx00250 | Alanine, aspartate and glutamate metabolism |
rsx00270 | Cysteine and methionine metabolism |
rsx00330 | Arginine and proline metabolism |
rsx00400 | Phenylalanine, tyrosine and tryptophan biosynthesis |
rsx01110 | Biosynthesis of secondary metabolites |
rsx01210 | 2-Oxocarboxylic acid metabolism |
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Brite |
KEGG Orthology (KO) [BR:rsx00001]
09100 Metabolism
09105 Amino acid metabolism
00250 Alanine, aspartate and glutamate metabolism
RhiXN_11552
00270 Cysteine and methionine metabolism
RhiXN_11552
00220 Arginine biosynthesis
RhiXN_11552
00330 Arginine and proline metabolism
RhiXN_11552
00350 Tyrosine metabolism
RhiXN_11552
00360 Phenylalanine metabolism
RhiXN_11552
00400 Phenylalanine, tyrosine and tryptophan biosynthesis
RhiXN_11552
09180 Brite Hierarchies
09181 Protein families: metabolism
01007 Amino acid related enzymes [BR:rsx01007]
RhiXN_11552
Enzymes [BR:rsx01000]
2. Transferases
2.6 Transferring nitrogenous groups
2.6.1 Transaminases
2.6.1.1 aspartate transaminase
RhiXN_11552
Amino acid related enzymes [BR:rsx01007]
Aminotransferase (transaminase)
Class I
RhiXN_11552
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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 |
12:join(1006564..1006678,1006738..1006847,1006904..1007032,1007095..1007316,1007382..1007486,1007545..1007679,1007742..1007923,1008599..1008724,1009061..1009217)
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AA seq |
426 aa
MSLAVRAAQLQRPIARLSLRAGVSTWSNVPAGPPDPILGVTEAFKSDKDPRKINLGVGAY
RDDKGKPYILPSVQAAEDKISASKADKEYLPITGLADFTKLAAKLAYGSDSAPFNEGRIA
VTQSISGTGALRIGGAFLARHYPHVKTIYLPTPSWGNHTPIFRDSGLEVKNYRYFDKKTV
GLDFEGLKADLKAAPEKSIVLLHACAHNPTGVDPTPSQWNEISDIVKERQLFPFFDMAYQ
GFASGNTTKDAYAVRHFVKEGHQIALSQSFAKNMGLYGERVGAFSLVTSSPEERARVDSQ
LKIIVRPMYSNPPIHGARIAGTILGDPALYQQWEGEVKGMAERIISMREKLYNSLKGAGT
PGEWGHIKSQIGMFSFTGLSQPQTRALAEKAHIYMTADGRISMAGLNAGNIEYFAESVDK
AVKGTL |
NT seq |
1281 nt +upstreamnt +downstreamnt
atgtctcttgccgtgcgcgctgcccagctccaacgcccaatcgccaggctctcgctgcgt
gccggtgtctccacatggtccaatgtccctgctggtcccccagacccaattctcggcgtg
accgaggcattcaagtccgacaaggatccgcgcaagatcaaccttggtgtcggtgcctac
cgtgatgacaaaggcaagccatacattcttcccagtgtccaggcggccgaggataagatc
tctgcatccaaggccgacaaggaatacctccctatcactggtctcgccgacttcaccaag
cttgctgctaagctcgcctatggcagcgacagtgctccattcaacgagggacgcatcgcg
gtgactcaatctatctctggaaccggtgcactccgcattggcggtgccttccttgcacgt
cactatccccacgtcaagacgatctatcttcctaccccgtcctggggcaaccacacccct
atcttccgtgactctgggctcgaggtcaagaactacaggtactttgacaagaagaccgtt
ggtcttgatttcgagggcctcaaagccgacttgaaggctgctcctgagaagagcatcgta
ctcctccacgcctgcgcgcataacccaactggtgtcgaccccactccttcgcaatggaac
gaaatatcagatatcgtcaaggagcgccaactattccccttcttcgacatggcctaccaa
ggcttcgcatccggtaacactacgaaagatgcttatgcagtcaggcactttgtcaaagag
ggccaccaaatcgccctctctcaatccttcgccaagaacatgggtctctatggtgaacgt
gttggagccttctctcttgttaccagctcgccagaagaacgtgctcgtgtcgattcgcag
ctcaagatcatcgtccgaccgatgtactccaaccctccgatccatggtgcaaggattgct
ggtactattttgggagacccagccttgtaccagcaatgggaaggcgaagttaaagggatg
gctgagcgaattatctcaatgcgcgagaagctctacaactcactaaagggtgctggcaca
cctggcgagtggggacatatcaaatcccagattggcatgttcagctttactgggctctcc
cagcctcaaacccgtgcgctggccgagaaggcacatatctatatgactgctgatggtcgt
atctcgatggccggcctcaacgctggaaatatcgagtactttgcggagagcgttgacaag
gccgtcaagggcacactctaa |