Qualitative and quantitative changes in mRNA of castor beans during the initial stages of germination

The increase in extractable RNA during the initial germination stages of castor bean was measured, for both the embryonic axis and the storage endsperm. The extractable rRNA increased between 24 and 72 h after initial imbibition in the embryo and 48–72 h in the endosperm. The mRNA species present over the first 6 days of germination were identified by the products from in vitro translation. The mRNA from dry seeds gave predominantly low molecular weight polypeptide products. Between 0.5 and 1 h of initial imbibition new mRNA species were detectable and the qualitative changes were largely complete by 8 h, some 16 h–40 h before the detectable quantitative changes. Despite the large variations in enzyme activity occurring 48 h–192 h after imbibition, the mRNA species qualitatively varied very little, after this initial change, up to 144 h after imbibition. In the light of this large, early, qualitative change in mRNA, the possible importance of long-lived mRNA in seed germination is discussed.Abbreviations SDS sodium dodecyl sulphate - TMV tobacco mosaic virus - DEP diethyl pyrocarbonate - MDL message-dependent reticulocyte lysate - TCA trichloroacetic acid - MW molecular weight - PAGE polyacrylamide gel electrophoresis     

Cloning and characterization of the acid lipase from castor beans

Castor bean endosperm contains a well known acid lipase activity that is associated with the oil body membrane. In order to identify this enzyme, proteomic analysis was performed on purified oil bodies. A approximately 60-kDa protein was identified (RcOBL1), which shares homology with a lipase from the filamentous fungus Rhizomucor miehei. RcOBL1 contains features that are characteristic of an alpha/beta-hydrolase, such as a putative catalytic triad (SDH) and a conserved pentapeptide (GXSXG) surrounding the nucleophilic serine residue. RcOBL1 was expressed heterologously in Escherichia coli and shown to hydrolyze triolein at an acid pH (optima approximately 4.5). RcOBL1 can hydrolyze a range of triacylglycerols but is not active on phospholipids. The activity is sensitive to the serine reagent diethyl p-nitrophenyl phosphate, indicating that RcOBL1 is a serine esterase. Antibodies raised against RcOBL1 were used to show that the protein is restricted to the endosperm where it is associated with the surface of oil bodies. This is the first evidence for the molecular identity of an oil body-associated lipase from plants. Sequence comparisons reveal that families of OBL1-like proteins are present in many species, and it is likely that they play an important role in regulating lipolysis.     

Isolation and characterization of the protein body membrane of castor beans

Intact protein bodies were isolated from dry castor bean seeds (Ricinus communis L.) after homogenization in nonaqueous medium. After repeated washing with glycerol to remove trapped lipid globules, the soluble matrix proteins were removed by the addition of aqueous buffer. The membrane remained attached to the insoluble protein crystalloids and was subsequently released by sonication. Purification of the membrane vesicles in a sucrose gradient produced a single band at a density of 1.21 grams per cubic centimeter. Treatment with 6 molar urea, 1 molar KCl, or 0.25 molar galactose had no effect on the equilibrium density of the membrane. Electron microscopy revealed a highly pure and uniform collection of membrane vesicles. No enzyme activity was specifically associated with the membrane. Sodium dodecyl sulfate gel electrophoresis of the protein body fractions showed that the membrane contained unique proteins, two of which were glycosylated. The membrane contained 153 nanomoles of phospholipid per milligram of protein. The composition of the phosphoglycerides was 51% ethanolamine, 41% choline, 8% inositol, and a trace of serine.     

Mineral reserves in castor beans: the dry seed

Elemental composition and distribution of the mineral reserves in the endosperm and embryo tissues of Ricinus communis cultivars Hale and Zanzibarensis were investigated. Energy dispersive x-ray analysis was used to determine the elemental composition of the globoid crystals, while atomic absorption spectrometry allowed quantification of the elements, particularly Ca, in various seed regions. No major differences were found between the two cultivars with regard to the elemental distribution in globoid crystals. While the majority of globoid crystals contained P, K, and Mg, the occasional one also contained Ca. In extremely rare instances, Fe was detected in globoid crystals. Ca-containing globoid crystals were more common in provascular cell protein bodies in the stem and radicle. Polarized light microscopy, micro-incineration, and acid solubility tests demonstrated the presence of calcium oxalate crystals in the innermost testa which adheres to the endosperm and is often mistakenly identified as endosperm. Atomic absorption spectrometry revealed that most of the calcium present in castor bean seeds is localized in the testa. On a perseed-region basis, the much larger endosperm contains more Ca than does the embryo. However, on a unit-weight basis, the radicle-plus-stem regions contain considerably more Ca than does the cotyledon or endosperm, an observation that is consistent with the observed distribution pattern for Ca-containing globoid crystals.     

Isolation and characterization of a proteinase inhibitor from marama beans

A protease inhibitor was purified from the African marama bean (Tylosema esculenturm). The inhibitor is present in large amounts, representing about 10.5% of the total protein. The molecular weight is slightly larger than soybean trypsin inhibitor and was estimated at 23,000 by SDS-gel electrophoresis or 24,500 by amino acid analysis. The amino acid composition was atypical of most other plant inhibitors with a cysteine content of only one or possibly two residues/mole and a blocked amino terminus. Inhibition studies indicated virtually no inhibition of chymotrypsin activity. Elastase, however, was inhibited to the same extent as trypsin, requiring about 2 moles of inhibitor for complete inhibition of the enzyme.     

Isoenzymes of sugar phosphate metabolism in endosperm of germinating castor beans

Two isoenzymes each of phosphoglucomutase, hexose phosphate isomerase, aldolase, fructose diphosphatase, phosphofructokinase, and 6-phosphogluconate dehydrogenase have been separated by DEAE-cellulose column chromatography of extracts from endosperm of germinating castor beans (Ricinus communis cv. Hale). One of each of the enzymes is localized in the cytosol and the other is confined to plastids. Developmental studies of these isoenzymes were carried out to clarify their roles in the endosperm. In extracts from ungerminated seeds the activities of marker enzymes of mitochondria (fumarase), plastids (ribulose bisphosphate carboxylase), and glyoxysomes (catalase) were low, but phosphoglucomutase, hexose phosphate isomerase, aldolase, and 6-phosphogluconate dehydrogenase were present in relatively high activity. The total amounts of these enzymes increased 3- to 4-fold during the first 5 days of growth. The activities of isoenzymes in the plastids rose in parallel with that of ribulose bisphosphate carboxylase to reach a maximum at day 4, and like the carboxylase they declined sharply thereafter. The activities of the cytosolic isoenzymes peaked at day 5. These changes are consistent with the roles previously proposed for the sequences present in plastid and cytosol.     

Binding of saccharides to ricin E isolated from small castor beans

The binding of saccharides to ricin E isolated from small castor beans was studied by equilibrium dialysis and spectroscopy. Equilibrium dialysis data indicate that ricin E has two galactose-binding sites, a high affinity site (HA-site) and a low affinity site (LA-site). The binding of specific saccharides to ricin E induces a shift of the fluorescence spectrum to shorter wavelength by 3 nm and UV-difference spectra with a maximum at 290 nm and a negative intensity around 300 nm. The interaction of ricin E with its specific saccharides was analyzed in terms of the variation of the intensity at 320 nm in the fluorescence spectrum and the magnitude of the negative intensity at 300 nm in the UV-difference spectra as functions of saccharide concentration. The results indicate that these spectroscopic changes are representative of the binding of saccharides to the LA-site, which contains a tryptophan residue. By comparing the association constants of saccharides for ricin E with those for ricin D, isolated from the large castor beans, it was found that the HA of ricin E binds saccharides with an affinity of less than one-half that of ricin D, while the saccharide-binding abilities of the LA-site of the two ricins were about the same.     

The breakdown of lipid reserves in the endosperm of germinating castor beans.

1. Lipid extracts were obtained from castor-bean endosperm tissue at various times during germination and, after purification, the total lipid content was determined. Quantitative measurements of the triglyceride and phospholipid content together with the fatty acid composition were made. 2. The total lipid content of the endosperm rapidly decreased during germination; after 10 days less than 20% of the original weight of lipid remained. In contrast, the phospholipid content (initially less than 0.5% of the total lipid) increased slightly during this time. The fatty acid composition and the relative proportions of the triglyceride species of the total lipid extract remained constant during 10 days of germination. 3. Gibberellic acid (0.3 mM) markedly stimulated the rate of lipid breakdown but did not alter either the fatty acid composition or the relative proportion of triglyceride species. 4. The embryo had little effect on lipid metabolism in the endosperm tissue; only after 6 days of germination were differences observed in the rate of fat utilization in the presence and absence of the embryo.     

Development of ribulose 1,5-diphosphate carboxylase in nonphotosynthetic endosperms of germinating castor beans

Ribulose 1,5-diphosphate (RuDP) carboxylase has been partially purified from dark-grown nonphotosynthetic endosperms of germinating castor beans (Ricinus communis var. Hale). The Km values for RuDP, HCO(3) (-), and Mg(2+) are 0.51, 33, and 1.78 mm, respectively. The pH optimum for the carboxylation reaction is pH 7.5. Germination is required for the development of the carboxylase in the endosperms. The enzyme reaches a maximal activity in 4- to 5-day-old dark-grown seedlings (which have an endosperm weight of approximately 0.75 g fresh weight/bean) and then declines. Total endosperm carboxylase activity is 1230 nmoles/min.g fresh weight which is 25 and 50% of the total activity developed in soybean and maize leaves, respectively. Specific activity of the carboxylase in crude soluble endosperm preparations (which contain enzymic and storage protein) is 0.05 mumole/min.mg protein. This is 5 times greater than the specific activity of RuDP carboxylase in soluble preparations from etiolated leaves. During germination the V(max) of the endosperm carboxylase for RuDP increases 10-fold. Development of the enzyme is inhibited 90% by the exposure of the endosperm to 2 mug/ml cycloheximide or 50 mug/ml chloramphenicol. Light (or phytochrome Pfr) is not required for the synthesis of the enzyme. Electron photomicrographs of dark-grown endosperm cells (with peak RuDP carboxylase activity) show proplastids with several invaginations of the inner membrane but no prolamellar-like structures.