Entry |
|
Name |
(GenBank) aminotransferase
|
KO |
|
Organism |
net Nitrosomonas eutropha
|
Pathway |
net00250 | Alanine, aspartate and glutamate metabolism |
net00270 | Cysteine and methionine metabolism |
net00330 | Arginine and proline metabolism |
net00400 | Phenylalanine, tyrosine and tryptophan biosynthesis |
net01110 | Biosynthesis of secondary metabolites |
net01210 | 2-Oxocarboxylic acid metabolism |
|
Brite |
KEGG Orthology (KO) [BR:net00001]
09100 Metabolism
09105 Amino acid metabolism
00250 Alanine, aspartate and glutamate metabolism
Neut_1083
00270 Cysteine and methionine metabolism
Neut_1083
00220 Arginine biosynthesis
Neut_1083
00330 Arginine and proline metabolism
Neut_1083
00350 Tyrosine metabolism
Neut_1083
00360 Phenylalanine metabolism
Neut_1083
00400 Phenylalanine, tyrosine and tryptophan biosynthesis
Neut_1083
09110 Biosynthesis of other secondary metabolites
00401 Novobiocin biosynthesis
Neut_1083
09180 Brite Hierarchies
09181 Protein families: metabolism
01007 Amino acid related enzymes [BR:net01007]
Neut_1083
Enzymes [BR:net01000]
2. Transferases
2.6 Transferring nitrogenous groups
2.6.1 Transaminases
2.6.1.1 aspartate transaminase
Neut_1083
Amino acid related enzymes [BR:net01007]
Aminotransferase (transaminase)
Class I
Neut_1083
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
1122880..1124073
|
AA seq |
397 aa
MKLSQRVQAIKPSPTLAVTAKAARLKAEGKNIIGLGAGEPDFDTPLHIKDAAITAIRNGF
TKYTAVGGTASLKQAIISKFKRENSLDFTAGEILVSSGGKQSFFNLILATIDPGDEVIIP
APYWVSYPDMVLIAQGKPVFINTGIEEKFKISADQLEKAITPRTRMFILNSPGNPSGSVY
GQEELQALGAVLRKHPEILIATDDMYEHILLTSDKFVNILNACPDLKARTVVLNGVSKAY
AMTGWRIGYCGGPAAIITAMENIQSQSTSNPNSIAQMAAEAALNGDQSCMIPMVEAFKER
NQFLTDALNSITGIHCLLSEGAFYAFADARQAIKQLQSQQVLQDSSDVAFCSYLLEQAEV
AVVPGSAFGCEGYMRLSFATSMENLREAVKRIASLLS |
NT seq |
1194 nt +upstreamnt +downstreamnt
gtgaaactctcgcaacgcgttcaggctatcaaaccttcgcccaccctggcagtgactgcc
aaagcagccaggctcaaggcggaaggaaaaaatattattggtctgggtgcaggtgagccg
gatttcgatacgccgttgcatatcaaggatgcagcgattacggcaatccggaatggtttt
acaaagtatacggctgtgggtggtactgcatctttaaagcaggcgattatctcgaagttc
aaacgggaaaattccctggattttactgccggagagatcttggtctccagcggaggaaaa
caaagttttttcaacttgatactggctacaattgacccgggtgacgaggttatcatcccg
gcgccatactgggtttcctatccggatatggtcttgattgcacaaggaaaacctgttttt
attaataccgggatcgaagaaaaattcaaaatatcagccgatcagcttgagaaagcgata
acacccagaacccgcatgtttattctcaacagcccaggcaacccttccggcagtgtatac
ggtcaggaagaattacaggcattaggggcagtattacgtaaacatccggaaattctgatc
gctaccgatgatatgtatgaacatatcctcctgaccagtgataagttcgtcaatatcctg
aacgcttgccctgatctgaaagcacgcaccgttgtcctcaatggcgtttccaaagcttat
gccatgaccggctggcgaattggctattgcggtgggccggcagcaatcataaccgcaatg
gaaaatattcaatcacaaagtacatccaacccgaactctattgctcaaatggcagcagaa
gctgcattaaatggtgatcaatcctgcatgattccaatggtggaggcttttaaggaacgc
aatcagtttctgacagatgcgctgaattccataacgggtattcactgtttattatccgaa
ggggcattttatgcttttgcggatgcaaggcaggcaattaagcagttgcaatcccaacaa
gtgttgcaggacagcagtgacgttgctttttgcagttatttgctggaacaggctgaagtg
gctgttgtgccagggtcagcctttggctgtgagggctatatgcggttatcgtttgcgact
tccatggaaaatctcagggaggctgtcaagcgtatcgccagtttgctgagctga |