[1]	NUCLEOTIDE SEQUENCE [MRNA], AND PARTIAL PROTEIN SEQUENCE. PubMed=3112136 [NCBI, ExPASy, EBI, Israel, Japan] Shibata D., Steczko J., Dixon J.E., Hermodson M., Yazdanparast R., Axelrod B.; "Primary structure of soybean lipoxygenase-1."; J. Biol. Chem. 262:10080-10085(1987).
[2]	NUCLEOTIDE SEQUENCE [MRNA]. STRAIN=cv. Bonminori; TISSUE=Cotyledon; Fukazawa C., Masayoshi M., Chikafusa F.; Submitted (JUN-1992) to the EMBL/GenBank/DDBJ databases.
[3]	NUCLEOTIDE SEQUENCE [MRNA] OF 426-752. DOI=10.1007/BF00020127; AGRICOLA=IND87003970 Start W.G., Ma Y., Polacco J.C., Hildebrand D.F., Freyer G.A., Altschuler M.; "Two soybean seed lipoxygenase nulls accumulate reduced levels of lipoxygenase transcripts."; Plant Mol. Biol. 7:11-23(1986).
[4]	SEQUENCE REVISION TO 479-482, AND MUTAGENESIS OF SOME HISTIDINE RESIDUES. DOI=10.1021/bi00131a022; PubMed=1567851 [NCBI, ExPASy, EBI, Israel, Japan] Steczko J., Donoho G.P., Clemens J.C., Dixon J.E., Axelrod B.; "Conserved histidine residues in soybean lipoxygenase: functional consequences of their replacement."; Biochemistry 31:4053-4057(1992).
[5]	MUTAGENESIS OF SOME HISTIDINE RESIDUES. DOI=10.1016/0006-291X(92)90801-Q; PubMed=1497657 [NCBI, ExPASy, EBI, Israel, Japan] Steczko J., Axelrod B.; "Identification of the iron-binding histidine residues in soybean lipoxygenase L-1."; Biochem. Biophys. Res. Commun. 186:686-689(1992).
[6]	ACTIVE SITE, AND IRON LIGANDS. DOI=10.1021/bi00076a003; PubMed=8518276 [NCBI, ExPASy, EBI, Israel, Japan] Minor W., Steczko J., Bolin J.T., Otwinowski Z., Axelrod B.; "Crystallographic determination of the active site iron and its ligands in soybean lipoxygenase L-1."; Biochemistry 32:6320-6323(1993).
[7]	X-RAY CRYSTALLOGRAPHY (2.6 ANGSTROMS) IN COMPLEX WITH IRON IONS. PubMed=8502991 [NCBI, ExPASy, EBI, Israel, Japan] Boyington J.C., Gaffney B.J., Amzel L.M.; "The three-dimensional structure of an arachidonic acid 15-lipoxygenase."; Science 260:1482-1486(1993).
[8]	X-RAY CRYSTALLOGRAPHY (1.4 ANGSTROMS) IN COMPLEX WITH IRON IONS. DOI=10.1021/bi960576u; PubMed=8718858 [NCBI, ExPASy, EBI, Israel, Japan] Minor W., Steczko J., Stec B., Otwinowski Z., Bolin J.T., Walter R., Axelrod B.; "Crystal structure of soybean lipoxygenase L-1 at 1.4-A resolution."; Biochemistry 35:10687-10701(1996).
[9]	X-RAY CRYSTALLOGRAPHY (1.4 ANGSTROMS) OF WILD-TYPE AND MUTANTS GLN-495 AND GLN-697 IN COMPLEX WITH IRON IONS, AND MUTAGENESIS OF GLN-495 AND GLN-697. PubMed=11412104 [NCBI, ExPASy, EBI, Israel, Japan] Tomchick D.R., Phan P., Cymborowski M., Minor W., Holman T.R.; "Structural and functional characterization of second-coordination sphere mutants of soybean lipoxygenase-1."; Biochemistry 40:7509-7517(2001).

Comments

FUNCTION: Plant lipoxygenase may be involved in a number of diverse aspects of plant physiology including growth and development, pest resistance, and senescence or responses to wounding. With linoleate as substrate, L-1 shows a preference for carbon 13 as the site for hydroperoxidation (in contrast to L-2 and L-3, which utilize either carbon 9 or 13).
CATALYTIC ACTIVITY: Linoleate + O₂ = (9Z,11E)-(13S)-13-hydroperoxyoctadeca-9,11-dienoate.
COFACTOR: Binds 1 iron ion per subunit. Iron is tightly bound (By similarity).
PATHWAY: Lipid metabolism; oxylipin biosynthesis .
SUBUNIT: Monomer.
SUBCELLULAR LOCATION: Cytoplasm.
INDUCTION: The hydroperoxide product serves to activate the resting enzyme. The activation is accompanied by the oxidation of Fe(2+)entadiene structure. L-1 prefers anionic substrate.
MISCELLANEOUS: Soybean contains at least 4 distinct isoenzymes, L-1, L-2, L-3a and L-3b in dry seeds, and at least two distinct isozymes in the hypocotyl/radicle region of the seedling stem.
SIMILARITY: Belongs to the lipoxygenase family.
SIMILARITY: Contains 1 lipoxygenase domain.
SIMILARITY: Contains 1 PLAT domain.
SEQUENCE CAUTION:
- Sequence=CAA47717.1; Type=Frameshift; Positions=663, 697;

Copyright

Copyrighted by the UniProt Consortium, see http://www.uniprot.org/terms. Distributed under the Creative Commons Attribution-NoDerivs License.

Cross-references

Sequence databases

EMBL

J02795; AAA33986.1; -; mRNA.	[EMBL / GenBank / DDBJ] [CoDingSequence]
X67304; CAA47717.1; ALT_FRAME; mRNA.	[EMBL / GenBank / DDBJ] [CoDingSequence]

PIR

S25064; DASYL2.

UniGene

Gma.30722

3D structure databases

PDB

1F8N; X-ray; 1.40 A; A=1-839.	[ExPASy / RCSB / EBI]
1FGM; X-ray; 1.90 A; A=1-839.	[ExPASy / RCSB / EBI]
1FGO; X-ray; 1.62 A; A=1-839.	[ExPASy / RCSB / EBI]
1FGQ; X-ray; 1.85 A; A=1-839.	[ExPASy / RCSB / EBI]
1FGR; X-ray; 1.60 A; A=1-839.	[ExPASy / RCSB / EBI]
1FGT; X-ray; 1.62 A; A=1-839.	[ExPASy / RCSB / EBI]
1Y4K; X-ray; 1.95 A; A=1-839.	[ExPASy / RCSB / EBI]
1YGE; X-ray; 1.40 A; A=1-839.	[ExPASy / RCSB / EBI]
2SBL; X-ray; 2.60 A; A/B=1-839.	[ExPASy / RCSB / EBI]
3BNB; X-ray; 1.45 A; A=1-839.	[ExPASy / RCSB / EBI]
3BNC; X-ray; 1.65 A; A=1-839.	[ExPASy / RCSB / EBI]
3BND; X-ray; 1.60 A; A=1-839.	[ExPASy / RCSB / EBI]
3BNE; X-ray; 1.40 A; A=1-839.	[ExPASy / RCSB / EBI]

Detailed list of linked structures.

PDBsum

1F8N; -.
1FGM; -.
1FGO; -.
1FGQ; -.
1FGR; -.
1FGT; -.
1Y4K; -.
1YGE; -.
2SBL; -.
3BNB; -.
3BNC; -.
3BND; -.
3BNE; -.

ModBase

P08170.

Ontologies

GO:0005737;	Cellular component: cytoplasm (inferred from electronic annotation from UniProtKB-KW).
GO:0009055;	Molecular function: electron carrier activity (inferred from electronic annotation from InterPro).
GO:0005506;	Molecular function: iron ion binding (inferred from electronic annotation from InterPro).
GO:0016165;	Molecular function: lipoxygenase activity (inferred from electronic annotation from InterPro).
GO:0055114;	Biological process: oxidation reduction (inferred from electronic annotation from UniProtKB-KW).
GO:0031408;	Biological process: oxylipin biosynthetic process (inferred from electronic annotation from UniProtKB-KW).
QuickGo view.

Family and domain databases

InterPro

IPR000907; LipOase.
IPR013819; LipOase_C.
IPR001024; LipOase_LH2.
IPR001246; LipOase_pln.
Graphical view of domain structure.

Gene3D

G3DSA:2.60.60.20; Lipase_LipOase; 1.

PANTHER

PTHR11771; LipOase; 1.

Pfam

PF00305; Lipoxygenase; 1.
PF01477; PLAT; 1.
Pfam graphical view of domain structure.

PRINTS

PR00087; LIPOXYGENASE.
PR00468; PLTLPOXGNASE.

SMART

SM00308; LH2; 1.
SMART graphical view of domain structure.

PROSITE

PS00711; LIPOXYGENASE_1; 1.
PS00081; LIPOXYGENASE_2; 1.
PS51393; LIPOXYGENASE_3; 1.
PS50095; PLAT; 1.
PROSITE graphical view of domain structure (profiles).

Other

P08170; -.

View cluster of proteins with at least 50% / 90% / 100% identity.

Keywords

3D-structure; Cytoplasm; Dioxygenase; Direct protein sequencing; Fatty acid biosynthesis; Iron; Lipid synthesis; Metal-binding; Oxidoreductase; Oxylipin biosynthesis.

Features

Feature table viewer

Feature aligner

`Key`	`From To`	`Length`	`Description`	`FTId`
`CHAIN`	`1 839`	`839`	`Seed lipoxygenase-1.`	`PRO_0000220717`
`DOMAIN`	`16 145`	`130`	`PLAT.`
`DOMAIN`	`148 839`	`692`	`Lipoxygenase.`
`METAL`	`499 499`		`Iron; catalytic.`
`METAL`	`504 504`		`Iron; catalytic.`
`METAL`	`690 690`		`Iron; catalytic.`
`METAL`	`694 694`		`Iron; catalytic.`
`METAL`	`839 839`		`Iron; via carboxylate; catalytic.`
`MUTAGEN`	`494 494`		`H->Q: 37% of wild-type activity.`
`MUTAGEN`	`494 494`		`H->S: 8% of wild-type activity.`
`MUTAGEN`	`495 495`		`Q->A: Reduces catalytic activity.`
`MUTAGEN`	`495 495`		`Q->E: No effect on catalytic activity.`
`MUTAGEN`	`499 499`		`H->Q: Inactive.`
`MUTAGEN`	`504 504`		`H->Q,S: Inactive.`
`MUTAGEN`	`517 517`		`H->Q: 33% of wild-type activity.`
`MUTAGEN`	`522 522`		`H->Q: 1% of wild-type activity.`
`MUTAGEN`	`531 531`		`H->Q: 20% of wild-type activity.`
`MUTAGEN`	`690 690`		`H->Q: Inactive.`
`MUTAGEN`	`697 697`		`Q->N,E: Reduces catalytic activity.`
`CONFLICT`	`426 427`		`AK -> RN (in Ref. 3).`
`CONFLICT`	`558 560`		`LPS -> AL (in Ref. 3).`
`CONFLICT`	`572 574`		`KNW -> EL (in Ref. 3).`
`CONFLICT`	`641 641`		`N -> P (in Ref. 3).`
`CONFLICT`	`741 748`		`KLPTLISL -> SCRLSLAV (in Ref. 3).`
`STRAND`	`7 16`	`10`
`HELIX`	`32 35`	`4`
`TURN`	`36 39`	`4`
`STRAND`	`40 50`	`11`
`STRAND`	`54 58`	`5`
`STRAND`	`66 68`	`3`
`STRAND`	`79 86`	`8`
`HELIX`	`89 91`	`3`
`STRAND`	`94 101`	`8`
`STRAND`	`103 105`	`3`
`STRAND`	`107 114`	`8`
`STRAND`	`123 131`	`9`
`HELIX`	`134 136`	`3`
`STRAND`	`141 144`	`4`
`HELIX`	`151 153`	`3`
`HELIX`	`156 158`	`3`
`HELIX`	`159 170`	`12`
`TURN`	`195 197`	`3`
`HELIX`	`199 201`	`3`
`STRAND`	`206 212`	`7`
`HELIX`	`242 244`	`3`
`HELIX`	`251 253`	`3`
`HELIX`	`255 257`	`3`
`HELIX`	`258 264`	`7`
`HELIX`	`266 275`	`10`
`HELIX`	`286 290`	`5`
`HELIX`	`291 293`	`3`
`HELIX`	`301 307`	`7`
`HELIX`	`313 315`	`3`
`STRAND`	`321 326`	`6`
`HELIX`	`331 333`	`3`
`HELIX`	`339 341`	`3`
`HELIX`	`343 352`	`10`
`STRAND`	`353 355`	`3`
`STRAND`	`364 366`	`3`
`HELIX`	`373 376`	`4`
`HELIX`	`385 387`	`3`
`HELIX`	`395 400`	`6`
`STRAND`	`404 408`	`5`
`HELIX`	`410 421`	`12`
`STRAND`	`430 437`	`8`
`STRAND`	`443 451`	`9`
`STRAND`	`465 467`	`3`
`HELIX`	`473 496`	`24`
`HELIX`	`497 503`	`7`
`HELIX`	`504 517`	`14`
`HELIX`	`523 528`	`6`
`HELIX`	`529 532`	`4`
`HELIX`	`535 545`	`11`
`HELIX`	`552 556`	`5`
`HELIX`	`560 562`	`3`
`HELIX`	`563 571`	`9`
`HELIX`	`576 579`	`4`
`HELIX`	`581 587`	`7`
`STRAND`	`590 593`	`4`
`STRAND`	`600 605`	`6`
`HELIX`	`609 628`	`20`
`HELIX`	`629 631`	`3`
`HELIX`	`636 640`	`5`
`HELIX`	`643 654`	`12`
`TURN`	`655 657`	`3`
`HELIX`	`658 660`	`3`
`HELIX`	`672 686`	`15`
`HELIX`	`688 694`	`7`
`HELIX`	`697 701`	`5`
`TURN`	`704 706`	`3`
`HELIX`	`721 728`	`8`
`HELIX`	`730 737`	`8`
`HELIX`	`741 754`	`14`
`HELIX`	`776 801`	`26`
`HELIX`	`803 805`	`3`
`HELIX`	`806 809`	`4`
`TURN`	`810 814`	`5`
`STRAND`	`826 828`	`3`
`STRAND`	`834 836`	`3`

Sequence information

Length: 839 AA [This is the length of the unprocessed precursor]

Molecular weight: 94369 Da [This is the MW of the unprocessed precursor]

CRC64: 1586250ACD3E34A4 [This is a checksum on the sequence]

        10         20         30         40         50         60 
MFSAGHKIKG TVVLMPKNEL EVNPDGSAVD NLNAFLGRSV SLQLISATKA DAHGKGKVGK 

        70         80         90        100        110        120 
DTFLEGINTS LPTLGAGESA FNIHFEWDGS MGIPGAFYIK NYMQVEFFLK SLTLEAISNQ 

       130        140        150        160        170        180 
GTIRFVCNSW VYNTKLYKSV RIFFANHTYV PSETPAPLVS YREEELKSLR GNGTGERKEY 

       190        200        210        220        230        240 
DRIYDYDVYN DLGNPDKSEK LARPVLGGSS TFPYPRRGRT GRGPTVTDPN TEKQGEVFYV 

       250        260        270        280        290        300 
PRDENLGHLK SKDALEIGTK SLSQIVQPAF ESAFDLKSTP IEFHSFQDVH DLYEGGIKLP 

       310        320        330        340        350        360 
RDVISTIIPL PVIKELYRTD GQHILKFPQP HVVQVSQSAW MTDEEFAREM IAGVNPCVIR 

       370        380        390        400        410        420 
GLEEFPPKSN LDPAIYGDQS SKITADSLDL DGYTMDEALG SRRLFMLDYH DIFMPYVRQI 

       430        440        450        460        470        480 
NQLNSAKTYA TRTILFLRED GTLKPVAIEL SLPHSAGDLS AAVSQVVLPA KEGVESTIWL 

       490        500        510        520        530        540 
LAKAYVIVND SCYHQLMSHW LNTHAAMEPF VIATHRHLSV LHPIYKLLTP HYRNNMNINA 

       550        560        570        580        590        600 
LARQSLINAN GIIETTFLPS KYSVEMSSAV YKNWVFTDQA LPADLIKRGV AIKDPSTPHG 

       610        620        630        640        650        660 
VRLLIEDYPY AADGLEIWAA IKTWVQEYVP LYYARDDDVK NDSELQHWWK EAVEKGHGDL 

       670        680        690        700        710        720 
KDKPWWPKLQ TLEDLVEVCL IIIWIASALH AAVNFGQYPY GGLIMNRPTA SRRLLPEKGT 

       730        740        750        760        770        780 
PEYEEMINNH EKAYLRTITS KLPTLISLSV IEILSTHASD EVYLGQRDNP HWTSDSKALQ 

       790        800        810        820        830 
AFQKFGNKLK EIEEKLVRRN NDPSLQGNRL GPVQLPYTLL YPSSEEGLTF RGIPNSISI

P08170 in FASTA format

View entry in original UniProtKB/Swiss-Prot format
View entry in raw text format (no links)
Report form for errors/updates in this UniProtKB/Swiss-Prot entry

	BLAST submission on ExPASy/SIB or at NCBI (USA)		Sequence analysis tools: ProtParam, ProtScale, Compute pI/Mw, PeptideMass, PeptideCutter, Dotlet (Java)
	ScanProsite, MotifScan		Submit a homology modeling request to SWISS-MODEL
	NPSA Sequence analysis tools