PHOSPHOENOLPYRUVATE CARBOXYLASE ACTIVITY AND CONCENTRATION IN THE ENDOSPERM OF DEVELOPING AND GERMINATING CASTOR-OIL SEEDS

被引：70

作者：

SANGWAN, RS ^{[1
]}

SINGH, N ^{[1
]}

PLAXTON, WC ^{[1
]}

机构：

[1] QUEENS UNIV,DEPT BIOL,KINGSTON K7L 3N6,ONTARIO,CANADA

来源：

PLANT PHYSIOLOGY | 1992年 / 99卷 / 02期

关键词：

D O I：

10.1104/pp.99.2.445

中图分类号：

Q94 [植物学];

学科分类号：

071001 ;

摘要：

Monospecific polyclonal antibodies against maize leaf phosphoenolpyruvate carboxylase (PEPC, EC 4.1.1.31) were utilized to examine the subunit composition and developmental profile of endosperm PEPC in developing and germinating castor oil seeds (Ricinus communis L. cv Baker 296). PEPC from developing endosperm consists of a single type of 100-kilodalton subunit, whereas the enzyme from 2- to 5-day germinated endosperm appears to contain equal proportions of immunologically related 103- and 108-kilodalton subunits. The maximal activity of PEPC in developing endosperms (2.67 micromoles oxaloacetate produced per minute per gram fresh weight) is approximately 20 fold and threefold greater than that of fully mature (dry seed) and germinating endosperms, respectively. The most significant increase in the activity and concentration of endosperm PEPC occurs during the middle cotyledon to full cotyledon stage of seed development; this period coincides with the most active phase of storage oil accumulation by ripening castor oil seeds. The data are compatible with the recent proposal (RG Smith, DA Gauthier, DT Dennis, DH Turpin [1992] Plant Physiol 1233-1238) that PEPC plays a fundamental role in vivo in the cytosolic production of an important substrate (malate) for fatty acid biosynthesis by developing castor oil seed leucoplasts. Immediately following seed imbibition, PEPC activity and concentration increase in parallel, with the greatest levels attained by the third day of germination. It is suggested that during this early phase of seed germination PEPC has a critical function to build up cellular dicarboxylic acid pools required to initiate significant activities of both the tricarboxylic acid and glyoxylate cycles.

引用

页码：445 / 449

页数：5

共 26 条

[1] HIGHER-PLANT PHOSPHOENOLPYRUVATE CARBOXYLASE - STRUCTURE AND REGULATION [J].

ANDREO, CS ;

GONZALEZ, DH ;

IGLESIAS, AA .

FEBS LETTERS, 1987, 213 (01) :1-8

[2] FORMATION OF SUCROSE FROM MALATE IN GERMINATING CASTOR BEANS .1. CONVERSION OF MALATE TO PHOSPHOENOL-PYRUVATE [J].

BENEDICT, CR ;

BEEVERS, H .

PLANT PHYSIOLOGY, 1961, 36 (05) :540-&

[3] PHOSPHOGLYCEROMUTASE ACTIVITY AND CONCENTRATION IN THE ENDOSPERM OF DEVELOPING AND GERMINATING RICINUS-COMMUNIS SEEDS [J].

BOTHA, FC ;

DENNIS, DT .

CANADIAN JOURNAL OF BOTANY-REVUE CANADIENNE DE BOTANIQUE, 1987, 65 (09) :1908-1912

[4]

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

[5] A DISCONTINUOUS AND HIGHLY POROUS SODIUM DODECYL SULFATE-POLYACRYLAMIDE SLAB GEL SYSTEM OF HIGH-RESOLUTION [J].

DOUCET, JP ;

TRIFARO, JM .

ANALYTICAL BIOCHEMISTRY, 1988, 168 (02) :265-271

[6] DEVELOPMENTAL STUDIES ON GLYOXYSOMES IN RICINUS ENDOSPERM [J].

GERHARDT, BP ;

BEEVERS, H .

JOURNAL OF CELL BIOLOGY, 1970, 44 (01) :94-&

[7]

GREENWOOD JS, 1991, CAN J BOT, V60, P1751

[8] GENOMIC AND CDNA CLONES FOR MAIZE PHOSPHOENOLPYRUVATE CARBOXYLASE AND PYRUVATE, ORTHO-PHOSPHATE DIKINASE - EXPRESSION OF DIFFERENT GENE-FAMILY MEMBERS IN LEAVES AND ROOTS [J].

HUDSPETH, RL ;

GLACKIN, CA ;

BONNER, J ;

GRULA, JW .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1986, 83 (09) :2884-2888

[9] POSTTRANSLATIONAL REGULATION OF PHOSPHOENOLPYRUVATE CARBOXYLASE IN C4 AND CRASSULACEAN ACID METABOLISM PLANTS [J].

JIAO, JA ;

CHOLLET, R .

PLANT PHYSIOLOGY, 1991, 95 (04) :981-985

[10] THE SYNTHESIS OF PHOSPHOENOLPYRUVATE CARBOXYLASE IN IMBIBING SORGHUM SEEDS [J].

KHAYAT, E ;

DUMBROFF, EB ;

GLICK, BR .

BIOCHEMISTRY AND CELL BIOLOGY-BIOCHIMIE ET BIOLOGIE CELLULAIRE, 1991, 69 (2-3) :141-145

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