Sequence of LOX1_ARATH
EC Number:1.13.11.58
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
linoleate + O2 = (9S,10E,12Z)-9-hydroperoxy-10,12-octadecadienoate
Other sequences found for EC No. 1.13.11.58
General information:
Sequence
0 MFGELRDLLT GGGNETTTKK VKGTVVLMKK NVLDFNDFNA SFLDRLHEFL GNKITLRLVS
60 SDVTDSENGS KGKLGKAAHL EDWITTITSL TAGESAFKVT FDYETDFGYP GAFLIRNSHF
120 SEFLLKSLTL EDVPGHGRVH YICNSWIYPA KHYTTDRVFF SNKTYLPHET PATLLKYREE
180 ELVSLRGTGE GELKEWDRVY DYAYYNDLGV PPKNPRPVLG GTQEYPYPRR GRTGRKPTKE
240 DPQTESRLPI TSSLDIYVPR DERFGHLKMS DFLAYALKAI AQFIQPALEA VFDDTPKEFD
300 SFEDVLKIYE EGIDLPNQAL IDSIVKNIPL EMLKEIFRTD GQKFLKFPVP QVIKEDKTAW
360 RTDEEFAREM LAGLNPVVIQ LLKEFPPKSK LDSESYGNQN STITKSHIEH NLDGLTVEEA
420 LEKERLFILD HHDTLMPYLG RVNTTTTKTY ASRTLLFLKD DGTLKPLVIE LSLPHPNGDK
480 FGAVSEVYTP GEGVYDSLWQ LAKAFVGVND SGNHQLISHW MQTHASIEPF VIATNRQLSV
540 LHPVFKLLEP HFRDTMNINA LARQILINGG GIFEITVFPS KYAMEMSSFI YKNHWTFPDQ
600 ALPAELKKRG MAVEDPEAPH GLRLRIKDYP YAVDGLEVWY AIESWVRDYI FLFYKIEEDI
660 QTDTELQAWW KEVREEGHGD KKSEPWWPKM QTREELVESC TIIIWVASAL HAAVNFGQYP
720 VAGYLPNRPT ISRQYMPKEN TPEFEELEKN PDKVFLKTIT AQLQTLLGIS LIEILSTHSS
780 DEVYLGQRDS KEWAAEKEAL EAFEKFGEKV KEIEKNIDER NDDETLKNRT GLVKMPYTLL
840 FPSSEGGVTG RGIPNSVSI
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Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
692391
Melan M.A.,Dong X.,Endara M.E.,Davis K.R.,Ausubel F.M.,Peterman T.K.
An Arabidopsis thaliana lipoxygenase gene can be induced by pathogens, abscisic acid, and methyl jasmonate.
Plant Physiol.
101
441-450
1993
692392
Melan M.A.,Nemhauser J.M.,Peterman T.K.
Structure and sequence of the Arabidopsis thaliana lipoxygenase 1 gene.
Biochim. Biophys. Acta
1210
377-380
1994
692393
Theologis A.,Ecker J.R.,Palm C.J.,Federspiel N.A.,Kaul S.,White O.,Alonso J.,Altafi H.,Araujo R.,Bowman C.L.,Brooks S.Y.,Buehler E.,Chan A.,Chao Q.,Chen H.,Cheuk R.F.,Chin C.W.,Chung M.K.,Conn L.,Conway A.B.,Conway A.R.,Creasy T.H.,Dewar K.,Dunn P.,Etgu P.,Feldblyum T.V.,Feng J.-D.,Fong B.,Fujii C.Y.,Gill J.E.,Goldsmith A.D.,Haas B.,Hansen N.F.,Hughes B.,Huizar L.,Hunter J.L.,Jenkins J.,Johnson-Hopson C.,Khan S.,Khaykin E.,Kim C.J.,Koo H.L.,Kremenetskaia I.,Kurtz D.B.,Kwan A.,Lam B.,Langin-Hooper S.,Lee A.,Lee J.M.,Lenz C.A.,Li J.H.,Li Y.-P.,Lin X.,Liu S.X.,Liu Z.A.,Luros J.S.,Maiti R.,Marziali A.,Militscher J.,Miranda M.,Nguyen M.,Nierman W.C.,Osborne B.I.,Pai G.,Peterson J.,Pham P.K.,Rizzo M.,Rooney T.,Rowley D.,Sakano H.,Salzberg S.L.,Schwartz J.R.,Shinn P.,Southwick A.M.,Sun H.,Tallon L.J.,Tambunga G.,Toriumi M.J.,Town C.D.,Utterback T.,Van Aken S.,Vaysberg M.,Vysotskaia V.S.,Walker M.,Wu D.,Yu G.,Fraser C.M.,Venter J.C.,Davis R.W.
Sequence and analysis of chromosome 1 of the plant Arabidopsis thaliana.
Nature
408
816-820
2000
692394
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
692395
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
692396
Melan M.A.,Enriquez A.L.D.,Peterman T.K.
The LOX1 gene of Arabidopsis is temporally and spatially regulated in germinating seedlings.
Plant Physiol.
105
385-393
1994
692398
He Y.,Fukushige H.,Hildebrand D.F.,Gan S.
Evidence supporting a role of jasmonic acid in Arabidopsis leaf senescence.
Plant Physiol.
128
876-884
2002
692399
Vellosillo T.,Martinez M.,Lopez M.A.,Vicente J.,Cascon T.,Dolan L.,Hamberg M.,Castresana C.
Oxylipins produced by the 9-lipoxygenase pathway in Arabidopsis regulate lateral root development and defense responses through a specific signaling cascade.
Plant Cell
19
831-846
2007
692400
Bannenberg G.,Martinez M.,Hamberg M.,Castresana C.
Diversity of the enzymatic activity in the lipoxygenase gene family of Arabidopsis thaliana.
Lipids
44
85-95
2009
692401
Lopez M.A.,Vicente J.,Kulasekaran S.,Vellosillo T.,Martinez M.,Irigoyen M.L.,Cascon T.,Bannenberg G.,Hamberg M.,Castresana C.
Antagonistic role of 9-lipoxygenase-derived oxylipins and ethylene in the control of oxidative stress, lipid peroxidation and plant defence.
Plant J.
67
447-458
2011
692402
Vicente J.,Cascon T.,Vicedo B.,Garcia-Agustin P.,Hamberg M.,Castresana C.
Role of 9-lipoxygenase and alpha-dioxygenase oxylipin pathways as modulators of local and systemic defense.
Mol. Plant
5
914-928
2012
692403
Keunen E.,Remans T.,Opdenakker K.,Jozefczak M.,Gielen H.,Guisez Y.,Vangronsveld J.,Cuypers A.
A mutant of the Arabidopsis thaliana LIPOXYGENASE1 gene shows altered signalling and oxidative stress related responses after cadmium exposure.
Plant Physiol. Biochem.
63
272-280
2013
692404
Montillet J.L.,Leonhardt N.,Mondy S.,Tranchimand S.,Rumeau D.,Boudsocq M.,Garcia A.V.,Douki T.,Bigeard J.,Lauriere C.,Chevalier A.,Castresana C.,Hirt H.
An abscisic acid-independent oxylipin pathway controls stomatal closure and immune defense in Arabidopsis.
PLoS Biol.
11
0-0
2013
692405
Nalam V.J.,Alam S.,Keereetaweep J.,Venables B.,Burdan D.,Lee H.,Trick H.N.,Sarowar S.,Makandar R.,Shah J.
Facilitation of Fusarium graminearum infection by 9-lipoxygenases in Arabidopsis and wheat.
Mol. Plant Microbe Interact.
28
1142-1152
2015
692406
Marcos R.,Izquierdo Y.,Vellosillo T.,Kulasekaran S.,Cascon T.,Hamberg M.,Castresana C.
9-Lipoxygenase-derived oxylipins activate brassinosteroid signaling to promote cell wall-based defense and limit pathogen infection.
Plant Physiol.
169
2324-2334
2015
692407
Oenel A.,Fekete A.,Krischke M.,Faul S.C.,Gresser G.,Havaux M.,Mueller M.J.,Berger S.
Enzymatic and non-enzymatic mechanisms contribute to lipid oxidation during seed aging.
Plant Cell Physiol.
58
925-933
2017
