MEMBRANE-ASSOCIATED AND SOLUBLE LIPOXYGENASE ISOFORMS IN TOMATO PERICARP - CHARACTERIZATION AND INVOLVEMENT IN MEMBRANE-ALTERATIONS

被引：52

作者：

DROILLARD, MJ ^{[1
]}

ROUETMAYER, MA ^{[1
]}

BUREAU, JM ^{[1
]}

LAURIERE, C ^{[1
]}

机构：

[1] LAB PHYSIOL ORGANES VEGETAUX,CNRS,4 ROUTE GARDES,F-92190 MEUDON,FRANCE

来源：

PLANT PHYSIOLOGY | 1993年 / 103卷 / 04期

关键词：

D O I：

10.1104/pp.103.4.1211

中图分类号：

Q94 [植物学];

学科分类号：

071001 ;

摘要：

Membrane-associated and soluble lipoxygenases from green tomato (Lycopersicon esculentum Mill. cv Ailsa Craig) fruit have been identified. Microsomal lipoxygenase was localized partly in the plasma membrane and tonoplast fractions. The possibilities of glycosyl-phosphatidylinositol or transmembrane polypeptide anchors in the membrane were ruled out by differential solubilization and temperature-induced phase separation in Triton X-114. High performance liquid chromatography of reaction products combined with polarography showed that tomato lipoxygenase is capable of specific oxygenation of fatty acids esterified in phospholipids. This possibility of direct action on membrane phospholipids strengthened the hypothesis of a role for lipoxygenase in plant senescence and membrane turnover. Membrane-associated lipoxygenase is polymorphic, with two forms differing by their isoelectric points (pIs) (around 4.2 and 5.1). The pI of the soluble lipoxygenase corresponds to the minor microsomal enzyme, with a pI of 5.1. The charge-differing isoforms were separated and analyzed by western blotting using anti-soybean lipoxygenase antibodies. A single polypeptide with an apparent molecular weight of 92,000 was identified in each case for the soluble and microsomal enzymes. It is suggested that a charge modification of the soluble lipoxygenase allows its association with the membrane.

引用

页码：1211 / 1219

页数：9

共 30 条

[1] THE OXYGENATION OF CHOLESTEROL ESTERS BY THE RETICULOCYTE LIPOXYGENASE [J].

BELKNER, J ;

WIESNER, R ;

KUHN, H ;

LANKIN, VZ .

FEBS LETTERS, 1991, 279 (01) :110-114

[2]

BLIGH EG, 1959, CAN J BIOCHEM PHYS, V37, P911

[3] PURIFICATION AND PARTIAL CHARACTERIZATION OF A MEMBRANE-ASSOCIATED LIPOXYGENASE IN TOMATO FRUIT [J].

BOWSHER, CG ;

FERRIE, BJM ;

GHOSH, S ;

TODD, J ;

THOMPSON, JE ;

ROTHSTEIN, SJ .

PLANT PHYSIOLOGY, 1992, 100 (04) :1802-1807

[4]

BRADFORD MM, 1976, ANAL BIOCHEM, V72, P248, DOI 10.1016/0003-2697(76)90527-3

[5] ANALYSIS OF A SPECIFIC OXYGENATION REACTION OF SOYBEAN LIPOXYGENASE-1 WITH FATTY-ACIDS ESTERIFIED IN PHOSPHOLIPIDS [J].

BRASH, AR ;

INGRAM, CD ;

HARRIS, TM .

BIOCHEMISTRY, 1987, 26 (17) :5465-5471

[6] DETERMINATION OF INORGANIC-PHOSPHATE IN PRESENCE OF DETERGENTS OR PROTEIN [J].

DULLEY, JR .

ANALYTICAL BIOCHEMISTRY, 1975, 67 (01) :91-96

[7] BILE SALT-DEPENDENT OXYGENATION OF POLY-UNSATURATED PHOSPHATIDYLCHOLINES BY SOYBEAN LIPOXYGENASE-1 [J].

ESKOLA, J ;

LAAKSO, S .

BIOCHIMICA ET BIOPHYSICA ACTA, 1983, 751 (03) :305-311

[8] EXTRACTS OF PISUM-SATIVUM METABOLIZE PHOSPHOLIPID VIA A LIPOXYGENASE-LIKE MECHANISM [J].

HARDY, DJ ;

GALLEGOS, MAV ;

GAUNT, JK .

PHYTOCHEMISTRY, 1991, 30 (09) :2889-2894

[9] GLYCOSYL-PHOSPHATIDYLINOSITOL-ANCHORED MEMBRANE-PROTEINS CAN BE DISTINGUISHED FROM TRANSMEMBRANE POLYPEPTIDE-ANCHORED PROTEINS BY DIFFERENTIAL SOLUBILIZATION AND TEMPERATURE-INDUCED PHASE-SEPARATION IN TRITON-X-114 [J].

HOOPER, NM ;

BASHIR, A .

BIOCHEMICAL JOURNAL, 1991, 280 :745-751

[10]

KUHN H, 1990, J BIOL CHEM, V265, P18351

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