| Entry |
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| Name |
(RefSeq) peroxisomal fatty acid beta-oxidation multifunctional protein MFP2 isoform X1
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| KO |
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| Organism |
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| Pathway |
| zma00592 | alpha-Linolenic acid metabolism |
| zma01110 | Biosynthesis of secondary metabolites |
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| Module |
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| Brite |
KEGG Orthology (KO) [BR:zma00001]
09100 Metabolism
09103 Lipid metabolism
00071 Fatty acid degradation
103630229
00592 alpha-Linolenic acid metabolism
103630229
Enzymes [BR:zma01000]
1. Oxidoreductases
1.1 Acting on the CH-OH group of donors
1.1.1 With NAD+ or NADP+ as acceptor
1.1.1.35 3-hydroxyacyl-CoA dehydrogenase
103630229
1.1.1.211 long-chain-3-hydroxyacyl-CoA dehydrogenase
103630229
4. Lyases
4.2 Carbon-oxygen lyases
4.2.1 Hydro-lyases
4.2.1.17 enoyl-CoA hydratase
103630229
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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 |
6:complement(149542430..149557052)
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| AA seq |
718 aa
MARGITTMEVRADGVAVITIINPPVNALSLDVIASLQRNYAEALSRNDIKAIVLTGSKGR
FCGGFDIAAFENKPKNEKPGSMSIDFLTDIVEDAHKPSVAAIDGIALGGGLEVAMVCHAR
ISTPSAQLGLPELQLGIIPGMGGTQRLPRLVGLPKALEMMLTSKTIKGKMAHELGLVDAV
TSANKLVNTACSWALEIFEKKKPWFKSLHRTDRLPDLEEVKDILKFARVQAEMKAANVQH
PIVCIDVIKEGIISGPRAGLMKEVLSGKMLEQSQTSKSLRHFFFAQRATSKIPNITNIGL
TARKIKKAAIVGGGLMGSGIATILILNNFNVVLKEVNEQFLSAGINRIKVNLQSLVRKGQ
LTEEDYEKKLSLLCGALDYEQFRDTDVVIEAVIEDMVLKQQIFSDLEKYCHHNCIFATNT
STIDLNIIGQKTASQDRIVGAHFFSPAHVMSLLEIVCTHHTSSQVIVDLIDLAKKIQKTP
IVVGNCTGFAVNRMFFPYAQAASFLVDYGLDVYHIDHVITQFGMPMGPFRLADLVGFGVA
IATRKQYYQSYPERSYKSMLLQILVEDNRTGESSCKGFYVYDDKRKASRDPDFGKYIEKS
RNMAGVMQDPKLMKLTDNDIVEMIFFPVVNEACRVLDEGIALKASDLDVASIMGMGFPSY
RGGVMFWADSLGAKYVYDKLDAWSKDYGEFFRPCEYLAVRARQGASLAAKVDGVKSRL |
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| NT seq |
2157 nt +upstreamnt +downstreamnt
atggcgaggggcatcaccaccatggaggtgcgcgccgacggcgtggccgtcatcaccatc
atcaacccgcccgtcaacgccctctcgctcgacgtcatagctagtttgcagaggaactat
gcagaggctctaagcaggaacgatatcaaggcaatcgtcctcactggttccaaaggaagg
ttttgtggtggattcgatatagccgcgtttgaaaataagccaaaaaatgagaagcctgga
tccatgtctattgattttttgactgacatagtggaagatgctcacaaaccgtcagtggct
gctatagatggcattgctctaggtggtggattggaggttgcgatggtttgccatgctcgc
atttcaacaccgtcagctcagttaggactacctgaacttcaacttggaatcattcctgga
atgggagggacacaacgtcttccccgtcttgttggtctgccaaaagcccttgagatgatg
ttgacatcaaagactataaaaggcaagatggcacatgaactcggtttagttgatgctgtt
acctcagctaataaattggtcaacactgcctgttcctgggctctggaaatttttgaaaag
aagaaaccatggttcaaaagtctccacagaactgatagacttccagatcttgaggaagtg
aaggatattctgaaatttgcaagagttcaagctgaaatgaaggctgctaatgttcagcat
ccaatagtttgcattgatgttattaaagaaggaataatctctggccctcgtgcaggcctc
atgaaggaagtgctctctgggaaaatgcttgagcagtctcaaacaagcaaaagcttaagg
cactttttttttgctcagcgtgccacttcaaagattccaaatattaccaacataggtttg
acagcacggaaaattaaaaaggcagctatcgttgggggtggtctaatgggatccggaatt
gcaacaatactgatattgaacaactttaatgttgtcttgaaagaagtaaatgaacagttc
ttatctgctggcattaacagaattaaagtgaatttgcaaagtcttgtcagaaagggtcaa
cttactgaagaagattatgaaaagaagctttctctgctatgtggtgctcttgactatgaa
cagttcagagatacagatgtagtaattgaggcggtaattgaggatatggtgctgaagcag
caaatattttctgaccttgagaagtattgccatcataattgcatatttgcaacaaacact
tcaacaatagacctgaacataattggtcagaagacagcttctcaggaccgcattgttggt
gcacacttctttagtccagctcatgtcatgtcactgttggaaatagtttgtactcatcat
acttcctctcaagttattgtggacctgattgatttggcaaagaaaatacagaaaacacca
atagttgttggcaactgcacaggtttcgctgtcaaccggatgttctttccttacgctcag
gcagcttcttttcttgttgattatggtctggatgtgtatcacatagatcatgtgatcaca
caatttggaatgccaatggggcccttccgattagccgatcttgttggttttggtgttgct
attgctacaagaaagcaatattaccaaagttatcctgagcgaagttacaaatcaatgctt
cttcagattcttgttgaggataataggacaggtgaatcttcttgtaagggcttctatgta
tatgatgataaacgcaaagcctctcgagatcctgattttgggaagtacattgaaaaatca
aggaacatggcaggtgttatgcaagatcctaagctgatgaaactaacagataatgacatc
gtggagatgatcttctttcctgtggtgaatgaagcctgccgagtgcttgatgagggaatt
gctctcaaagcatctgaccttgatgtagcttccattatggggatgggtttcccttcttac
aggggtggagtaatgttttgggctgactcgcttggtgcgaaatatgtgtatgacaaactg
gatgcatggtcgaaggattatggggagttcttcagaccctgtgaatatttagctgtgaga
gctcgtcagggtgcatccctggctgccaaggttgatggtgtcaaatcgcgactctag |
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