Sequence of AEE7_ARATH
EC Number:6.2.1.2
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
ATP + a medium-chain fatty acid + CoA = AMP + diphosphate + a medium-chain acyl-CoA
Other sequences found for EC No. 6.2.1.2
General information:
Sequence
0 MAATKWRDID DLPKIPANYT ALTPLWFLDR AAVVHPTRKS VIHGSREYTW RQTYDRCRRL
60 ASALADRSIG PGSTVAIIAP NIPAMYEAHF GVPMCGAVLN CVNIRLNAPT VAFLLSHSQS
120 SVIMVDQEFF TLAEDSLRLM EEKAGSSFKR PLLIVIGDHT CAPESLNRAL SKGAIEYEDF
180 LATGDPNYPW QPPADEWQSI ALGYTSGTTA SPKGVVLHHR GAYIMALSNP LIWGMQDGAV
240 YLWTLPMFHC NGWCFPWSLA VLSGTSICLR QVTAKEVYSM IAKYKVTHFC AAPVVLNAIV
300 NAPKEDTILP LPHTVHVMTA GAAPPPSVLF SMNQKGFRVA HTYGLSETYG PSTVCAWKPE
360 WDSLPPETQA KLNARQGVRY TGMEQLDVID TQTGKPVPAD GKTAGEIVFR GNMVMKGYLK
420 NPEANKETFA GGWFHSGDIA VKHPDNYIEI KDRSKDVIIS GGENISSVEV ENVVYHHPAV
480 LEASVVARPD ERWQESPCAF VTLKSDYEKH DQNKLAQDIM KFCREKLPAY WVPKSVVFGP
540 LPKTATGKIQ KHILRTKAKE MGPVPRSRL
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Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
387390
Shockey J.M.,Fulda M.S.,Browse J.A.
Arabidopsis contains nine long-chain acyl-coenzyme A synthetase genes that participate in fatty acid and glycerolipid metabolism.
Plant Physiol.
129
1710-1722
2002
387391
Sato S.,Nakamura Y.,Kaneko T.,Katoh T.,Asamizu E.,Tabata S.
Structural analysis of Arabidopsis thaliana chromosome 3. I. Sequence features of the regions of 4,504,864 bp covered by sixty P1 and TAC clones.
DNA Res.
7
131-135
2000
387392
Cheng C.Y.,Krishnakumar V.,Chan A.P.,Thibaud-Nissen F.,Schobel S.,Town C.D.
Araport11: a complete reannotation of the Arabidopsis thaliana reference genome.
Plant J.
89
789-804
2017
387393
Yamada K.,Lim J.,Dale J.M.,Chen H.,Shinn P.,Palm C.J.,Southwick A.M.,Wu H.C.,Kim C.J.,Nguyen M.,Pham P.K.,Cheuk R.F.,Karlin-Newmann G.,Liu S.X.,Lam B.,Sakano H.,Wu T.,Yu G.,Miranda M.,Quach H.L.,Tripp M.,Chang C.H.,Lee J.M.,Toriumi M.J.,Chan M.M.,Tang C.C.,Onodera C.S.,Deng J.M.,Akiyama K.,Ansari Y.,Arakawa T.,Banh J.,Banno F.,Bowser L.,Brooks S.Y.,Carninci P.,Chao Q.,Choy N.,Enju A.,Goldsmith A.D.,Gurjal M.,Hansen N.F.,Hayashizaki Y.,Johnson-Hopson C.,Hsuan V.W.,Iida K.,Karnes M.,Khan S.,Koesema E.,Ishida J.,Jiang P.X.,Jones T.,Kawai J.,Kamiya A.,Meyers C.,Nakajima M.,Narusaka M.,Seki M.,Sakurai T.,Satou M.,Tamse R.,Vaysberg M.,Wallender E.K.,Wong C.,Yamamura Y.,Yuan S.,Shinozaki K.,Davis R.W.,Theologis A.,Ecker J.R.
Empirical analysis of transcriptional activity in the Arabidopsis genome.
Science
302
842-846
2003
387394
Shockey J.M.,Fulda M.S.,Browse J.
Arabidopsis contains a large superfamily of acyl-activating enzymes. Phylogenetic and biochemical analysis reveals a new class of acyl-coenzyme a synthetases.
Plant Physiol.
132
1065-1076
2003
387395
Hooks M.A.,Turner J.E.,Murphy E.C.,Graham I.A.
Acetate non-utilizing mutants of Arabidopsis: evidence that organic acids influence carbohydrate perception in germinating seedlings.
Mol. Genet. Genomics
271
249-256
2004
387396
Turner J.E.,Greville K.,Murphy E.C.,Hooks M.A.
Characterization of Arabidopsis fluoroacetate-resistant mutants reveals the principal mechanism of acetate activation for entry into the glyoxylate cycle.
J. Biol. Chem.
280
2780-2787
2005
387397
Reumann S.,Babujee L.,Ma C.,Wienkoop S.,Siemsen T.,Antonicelli G.E.,Rasche N.,Lueder F.,Weckwerth W.,Jahn O.
Proteome analysis of Arabidopsis leaf peroxisomes reveals novel targeting peptides, metabolic pathways, and defense mechanisms.
Plant Cell
19
3170-3193
2007
387398
Hooks M.A.,Allen E.,Wattis J.A.
Modelling the peroxisomal carbon leak during lipid mobilization in Arabidopsis.
Biochem. Soc. Trans.
38
1230-1233
2010
387399
Allen E.,Moing A.,Wattis J.A.,Larson T.,Maucourt M.,Graham I.A.,Rolin D.,Hooks M.A.
Evidence that ACN1 (acetate non-utilizing 1) prevents carbon leakage from peroxisomes during lipid mobilization in Arabidopsis seedlings.
Biochem. J.
437
505-513
2011
