| Entry |
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| Name |
(RefSeq) aspartokinase 2, chloroplastic isoform X1
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| KO |
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| Organism |
pop Populus trichocarpa (black cottonwood)
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| Pathway |
| pop00260 | Glycine, serine and threonine metabolism |
| pop00270 | Cysteine and methionine metabolism |
| pop01110 | Biosynthesis of secondary metabolites |
| pop01210 | 2-Oxocarboxylic acid metabolism |
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| Module |
| pop_M00018 | Threonine biosynthesis, aspartate => homoserine => threonine |
| pop_M00527 | Lysine biosynthesis, DAP aminotransferase pathway, aspartate => lysine |
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| Brite |
KEGG Orthology (KO) [BR:pop00001]
09100 Metabolism
09105 Amino acid metabolism
00260 Glycine, serine and threonine metabolism
7462009
00270 Cysteine and methionine metabolism
7462009
00300 Lysine biosynthesis
7462009
09110 Biosynthesis of other secondary metabolites
00261 Monobactam biosynthesis
7462009
Enzymes [BR:pop01000]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.2 Phosphotransferases with a carboxy group as acceptor
2.7.2.4 aspartate kinase
7462009
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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 |
14:complement(9954635..9961477)
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| AA seq |
561 aa
MANTLHFSATLQAAPSPVFSKRMNKMHCQSLRVQMVNYNSEATNLALSRSNRVLKVSCEA
ASVDVLEMNKTDNQAETQLTCVMKFGGSSLASAERMREVAELILSFRNERPVIVLSAMGK
TTNKLLLAGEKAVSCGVTNVDSIEELIIIKELHLLTAKELGVDESVIAKHLEELEQLLKG
IAMMKELTPRTKDYLVSFGECMSTRIFAAYMNKIGAKARQYDAFKIGFITTDDFTNADIL
EATYPAVAQSLHGDWIRDTAIPIVTGFLGKGWRSCAITTLGRGGSDLTATTIGKALGLRE
IQVWKDVDGVLTCDPNIYPHAEPVPYLTFDEAAELAYFGAQVLHPQSMRPAREGDIPVRV
KNSYNSNAPGTLITRTRDMSKAVLTSIVMKRNVTMLDIVSTRMLGQFGFLAKVFSIFEDL
GISVDVVATSEVSISLTLDPSKLWSRELIQQASELDHVVEELEKIAVVNLLQHRSIISLI
GNVQRSSLILEKVFNVLHIKGINVQMISQGASKVNISLIVNDDEAEQCVRSLHSAFFESD
VSELDGKCVSDNGSVQLRSEE |
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| NT seq |
1686 nt +upstreamnt +downstreamnt
atggcaaacacactacatttttctgctactcttcaagctgctccctcccctgttttctcc
aagaggatgaataaaatgcattgccaatctttacgcgtccagatggttaattataattca
gaggctacaaatttggcactgtctagaagtaatagggttttgaaagtgagttgtgaggca
gccagtgttgatgtacttgaaatgaacaaaaccgataatcaagccgagacgcagctaaca
tgtgtgatgaagttcggtggttcttcgctggcctctgccgagaggatgagagaggtggct
gaacttattcttagctttcgaaacgagaggcctgtcattgttctctctgccatgggaaag
acaactaacaaacttttgctggctggagaaaaggctgttagttgtggtgttaccaatgta
gacagtattgaagagctcattatcattaaggaattgcatctcctgactgcgaaggaattg
ggagtagacgagtcggttattgctaaacacctggaggaattagagcagcttttgaaggga
attgctatgatgaaagagctgactccacgcacaaaagactacctggtttcatttggggag
tgcatgtccacgaggatttttgcagcatatatgaataaaatcggtgcaaaagctcgccaa
tatgatgctttcaaaattggttttatcaccacagatgacttcacgaatgcagacattcta
gaagcaacttatccagctgtggcacagagtttgcatggagattggattagagatactgca
attcccattgttaccggcttccttggaaagggctggcgatcttgtgcgattactacatta
ggccgtggtggcagtgatttgacggccacaacaattggaaaagcattaggtttgcgcgag
attcaggtgtggaaggatgttgatggtgttttgacatgtgatcctaatatatatccacat
gctgaacctgtgccatacttgacatttgatgaggcagcggaactagcatattttggtgct
caggtcttgcatccacaatccatgagacctgctagggagggtgatattccagttagggtt
aaaaattcttacaattcaaatgctcctgggactctcatcaccaggacacgagatatgagt
aaggcagttctaactagcattgttatgaaacggaatgttactatgttggatattgttagc
acccgcatgcttggccaatttggttttcttgctaaggtgttttcgatctttgaagattta
ggaatatcagtagatgttgtggctactagcgaagtcagcatctccttgacactcgatcca
tcaaagctttggagtagagagctgattcagcaggcaagcgaactcgaccatgttgtggaa
gagcttgagaaaattgctgtagtcaatctcctgcagcatagatcaataatctctctcatt
gggaatgtccagaggtcctctctgatattagagaaggtcttcaatgttcttcatatcaaa
ggaatcaacgttcagatgatatcacagggtgcttcaaaggttaacatctcattaattgtg
aatgatgatgaagcagagcagtgtgtcaggagtctccactcagctttctttgaaagcgac
gtctctgaattagatgggaagtgtgtatctgataatggttcagttcagcttcgaagtgaa
gagtaa |
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