Influence of Sulfur Nutrition on Developmental Patterns of Some Major Pea Seed Proteins and Their mRNAs

In addition to the marked reduction in legumin synthesis and legumin mRNA levels reported earlier (Chandler, Higgins, Randall, Spencer 1983 Plant Physiol 71: 47-54), pulse labeling of S-deficient Pisum sativum L. seeds showed that a high relative level of total vicilin (vicilin plus convicilin) synthesis was maintained throughout the entire phase of protein accumulation, whereas in nondeficient seeds vicilin synthesis is largely confined to the first half of this phase. Fractionation of pulse-labeled proteins on Na-dodecylsulfate-polyacrylamide gels showed that the synthesis of the M_r 50,000 family of vicilin polypeptides was increased and greatly extended in S-deficient seeds whereas that of convicilin was slightly reduced. Other changes apparent from pulse-labeling experiments include a depression, to different degrees, in the synthesis of three major albumin polypeptides.

The level of the mRNAs for seven major seed proteins was followed throughout development of control and sulfur-deficient seeds. In all cases, the changes in each mRNA closely reflected the pattern of synthesis of its corresponding polypeptide seen by pulse labeling. S-deficient seeds showed an elevated level of M_r 50,000 vicilin mRNA which remained high throughout seed formation, whereas legumin mRNA levels were greatly reduced at all stages of development.

When S-deficient plants were given an adequate supply of sulfate midway through seed development, there was a shift toward the protein synthesis profile characteristic of healthy plants. The synthesis of legumin and two albumins rapidly increased and the synthesis of M_r 50,000 vicilin declined more slowly. Similar responses were seen in detached, S-deficient seeds supplied directly with adequate sulfate.

     

Seed storage proteins of spermatophytes share a common ancestor with desiccation proteins of fungi

The legumin- and vicilin-like seed storage globulins of spermatophytes are specifically accumulated during embryogenesis and seed development. Previous studies have shown that a precursor common to both legumin and vicilin genes might have evolved by duplication from a single-domain ancestral gene. We here report that amino acid sequences of legumin and vicilin domains share statistically significant similarity to the germination-specific germins of wheat as well as to the spherulation-specific spherulins of myxomycetes. This conclusion is further supported by the derived intron-exon structure of a spherulin gene. Spherulins are thought to be involved in tissue desiccation or hydration. It is suggested that the present-day seed globulins of spermatophytes have evolved from a group of ancient proteins functional in cellular desiccation/hydration processes. Correspondence to: H. Bäumlein     

The characterisation of vicilin during seed development in Vicia faba (L.)

Summary Vicilin and legumin were extracted from developing seeds at different stages using the classical method of repeated isoelectric precipitations. The subunits of these two protein fractions were separated by SDS gel electrophoresis, and it was shown that the sub-unit structure of vicilin changed during development whereas that of legumin did not. Thus vicilin is not a single protein.Vicilin was formed prior to legumin during seed development although the rate of synthesis of the latter was faster, so that in the mature seed the ratio of legumin to vicilin was about 4:1 by weight.     

Immunochemical behaviour of legumin and vicilin from Vicia faba: a survey of related Proteins in the leguminosae subfamily faboideae

An antiserum specific for the legumin and vicilin of Vicia faba was used to examine extracts of seeds of taxa of the Fabeae and Trifolieae for the presence of related storage proteins, Proteins related to legumin were found to be widely distributed, indicating considerable conservation of the genetic information for this protein. Only Pisum sativum contained a protein immunochemically identical with the vicilin of V. faba; the equivalent proteins of all other genera tested here were immunochemically different from vicilin.     

Correlated in situ hybridisation and immunochemical studies of legumin storage protein deposition in pea (Pisum sativum L.)

Legumin and vicilin are the major globulin seed storage proteins of pea. They are synthesised predominantly in the cotyledons where they are sequestered within membrane-bounded vacuolar protein bodies. In situ hybridisation histochemistry, with both biotinylated and ³⁵S-labelled cDNA probes, has been used to visualise the temporal and spatial patterns of distribution of legumin and vicilin mRNAs during seed development. These patterns have been compared with those of storage protein deposition which have been determined by immunocytochemistry. Results indicate that within the cotyledons high levels of legumin and civilin mRNAs are restricted to the storage parenchyma tissues, whilst the epidermal cells and vascular parenchyma do not show such accumulation. The tissues of the embryo axis also show differential levels of expression, although where present the levels of mRNAs appear much lower than in the cotyledons. Throughout the embryo the patterns shown by in situ hybridisation are similar to those shown by immunocytochemistry, although the transient endosperm of early seed development does not show such a correlation.     

Processing Pisum sativum seed storage protein precursors in vitro

The profile of polypeptides separated by SDS-PAGE from seed of major crop species such as pea(Pisum sativum) is complex,resulting from cleavage (processing) of precursors expressed from multiple copies of genes encoding vicilin and legumin,the major storage globulins.Translation in vitro of mRNAs hybridselected from mid-maturation pea seed RNAs by defined vicilin and legumin cDNA clones provided precursor molecules that were cleaved in vitro by a cell-free protease extract obtained from similar stage seed;the derived polypeptides were of comparable sizes to those observed in vivo.The feasibility of transcribing mRNA in vitro from a cDNA clone and cleavage in vitro of the derived translation products was established for a legumin clone,providing a method for determining polypeptide products of an expressed sequence.This approach will also be useful for characterising cleavage site requirements since modifications an readily be introduced at the DNA level.     

Glycoprotein Metabolism in the Cotyledons of Pisum sativum during Development and Germination

The glycoprotein nature of legumin and vicilin, the reserve globulins in the cotyledons of Pisum sativum was studied. Legumin from mature seed was found to contain 1% neutral sugars (mannose and glucose) and 0.1% amino sugar (glucosamine), whereas vicilin contained 0.3% neutral sugar (mannose) and 0.2% amino sugar (glucosamine). On the basis of the incorporation of ¹⁴C-labeled glucosamine, it appeared that not all of the component subunits of the reserve proteins are glycosylated to the same extent. In addition, it has been established that glycosylation occurs after peptide synthesis. During seed development there was a change in neutral sugars and amino sugar ratio in vicilin. During germination, the neutral sugars and the amino sugar content of the glycoproteins declined. These findings are discussed in relation to the synthesis and degradation of the glycosyl component of the glycoproteins.     

Measurement of gene number for seed storage proteins in Pisum.

We have measured the numbers of genes coding for the three seed storage proteins, vicilin, convicilin and legumin, in a number of Pisum genotypes of variant protein composition. No difference in gene number existed among P. sativum genotypes for any of the proteins. There were differences in the number of genes coding for individual proteins with approximately 11 genes (per haploid genome) for vicilin, 8 genes for legumin and 1 gene for convicilin.     

Protein patterns associated with <Emphasis Type="Italic">Pisum sativum</Emphasis> somatic embryogenesis

Total protein patterns were studied in the course of development of pea somatic embryos using simple protocol of direct regeneration from shoot apical meristems on auxin supplemented medium. Protein content and total protein spectra (SDS-PAGE) of somatic embryos in particular developmental stages were analysed in Pisum sativum, P. arvense, P. elatius and P. jomardi. Expression of seed storage proteins in somatic embryos was compared with their accumulation in zygotic embryos of selected developmental stages. Pea vegetative tissues, namely leaf and root, were used as a negative control not expressing typical seed storage proteins. The biosynthesis and accumulation of seed storage proteins was observed during somatic embryo development (since globular stage), despite of the fact that no special maturation treatment was applied. Major storage proteins typical for pea seed (globulins legumin, vicilin, convicilin and their subunits) were detected in somatic embryos. In general, the biosynthesis of storage proteins in somatic embryos was lower as compared to mature dry seed. However, in some cases the cotyledonary somatic embryos exhibited comparatively high expression of vicilin, convicilin and pea seed lectin, which was even higher than those in immature but morphologically fully developed zygotic embryos. Desiccation treatments did not affect the protein content of somatic embryos. The transfer of desiccated somatic embryos on hormone-free germination medium led to progressive storage protein degradation. The expression of true seed storage proteins may serve as an explicit marker of somatic embryogenesis pathway of regeneration as well as a measure of maturation degree of somatic embryos in pea.     

Heterogeneity of sulphur content in the storage proteins of pea cotyledons

By means of crossed immunoelectrophoresis of the cotyledonary storage proteins of Pisum sativum L. it was shown that reduced accumulation of the legumin fraction, resulting from severe sulphur deficiency during growth, is accompanied by relative suppression of a quantitatively minor storage protein (Peak 3) shown previously by subunit analysis to be related to the vicilin series of holoproteins. The pattern of isotopic labelling of the storage proteins after injection of [³⁵S]methionine into the pedicel during seed development under normal nutritional conditions indicated that Peak-3 protein, like legumin, has a relatively high content of sulphur amino-acids. Like certain of the vicilin molecules carrying the determinants responsible for Peak-4, Peak-3 protein binds selectively to concanavalin A.     

Transient expression of storage-protein genes during early embryogenesis ofVicia faba: synthesis and metabolization of vicilin and legumin in the embryo,suspensor and endosperm

Seed storage proteins are thought to be accumulated exclusively in the cell-expansion phase of embryogenesis and metabolized during germination and seedling growth. Here we show by a sensitive immunohistological technique that the two Vicia faba L. storage proteins vicilin and legumin are accumulated in substantial amounts in the suspensor and coenocytic endosperm and to a lesser extent in the mid-globular embryo. Both proteins appear and disappear at precise stages specific for each tissue. In the endosperm the accumulation starts around 12 d after pollination (DAP). After a maximum attained at 14–15 DAP, storage proteins are degraded within about 4 d. Accumulation is restricted to that part of the endosperm which covers the embryo and displays the highest levels of endoploidy (maximum 96n). In all other parts of the endosperm, storage proteins do not appear to accumulate, although storage-protein-specific mRNA synthesis takes place. In the suspensor, storage proteins are already observed at 6 DAP and disappear very quickly at approximately 10 DAP. Low amounts of legumin and vicilin are also detectable in the mid-globular embryo, but disappear completely as the embryo enters the heart stage. We conclude that storage proteins of Vicia faba accumulated transiently during early seed development are used as nutritive reserves for the growing embryo.Abbreviation DAP days after pollination Dedicated to Prof. Rigomar Rieger in the occasion of his 65th birthdayThis research was supported by the Ministry of Science and Research, Land Sachsen-Anhalt, Germany. U.W. acknowledges additional support by the Fonds der Chemischen Industrie.     

The seed globulins of Lupinus albus

The seed globulins of Lupinus albus were extracted and 12 ditterent proteins were separated: four of them correspond to vicilins and two to legumin     

Cell free synthesis of some storage protein subunits by polyribosomes and RNA isolated from developing seeds of pea (Pisum sativum L.)

Polyribosomes which have template activity in the wheat germ system have been isolated from developing pea seeds. Some of the translation products have identical mobilities to the vicilin and legumin subunits by SDS-PAGE. Certain products were specifically immunoprecipitated with antisera prepared against purified vicilin and legumin fractions. Various RNA fractions including poly A-rich RNA have also been isolated from polyribosomes and shown to direct the synthesis of polyripeptides whose properties are similar to the storage protein subunits. The results are discussed in relationship to other investigations with seed storage protein biosynthesis in vitro.Abbreviations DTT dithiothreitol - SDS-PAGE SDS-polyacrylamide gel electrophoresis - TCA tricarboxylic acid     

The role of glycosylation in storage-protein synthesis in developing pea seeds

Intact pea (Pisum sativum L.) cotyledons were incubated with [¹⁴C]glucosamine at several stages of seed development and the resultant radioactive proteins were analysed by gel electrophoresis combined with immunoaffinity chromatography and sucrose gradient fractionation. Glucosamine was incorporated into at least five vicilin polypeptides (approx. molecular weight 70,000; 50,000, two components; 14,000, two components). No incorporation was detected into the subunits of legumin. Tunicamycin at 50 g/ml largely inhibited glucosamine incorporation but had little effect on the incorporation of ¹⁴C-labelled amino acids into cotyledon proteins, including vicilin. The assembly of vicilin polypeptides into full-sized protein oligomers (7–9 S) was also unaffected by tunicamycin. Chromatography on concanavalin A confirmed that glycosylation of cotyledon proteins was inhibited by tunicamycin. It is concluded that glycosylation of most cotyledonary proteins involves lipid-linked sugar intermediates, but that glycosylation itself is not an essential step in the synthesis of vicilin polypeptides nor in their assembly into oligomers.Abbreviations IgG immunoglobulin G - M W_t approximate molecular weight based on electrophoretic mobility relative to that of protein standards - SDS-PAGE Na-dodecyl sulfate-polyacrylamide gel electrophoresis     

In vitro proteolytic processing of pea and jack bean storage proteins by an endopeptidase from lupin seeds

The highly specific proteolytic breakdown observed upon prolonged treatment of pea legumin and pea and jack bean vicilin with a thiol endopeptidase purified from mature lupin seeds has been studied in detail. Proteolytic cleavage occurred in the acidic subunits of pea legumin, whereas the basic subunits were unaffected. Jack bean vicilin (M, 47 K) was cleaved near the middle of the polypeptide chain, whereas pea vicilin (M, 50 K) was cleaved into two fragments of M, 30 K and 20 K, respectively. The 30 K M, polypeptide chain contained covalently linked carbohydrate and had an N-terminal sequence suggesting that cleavage had taken place between the α and β region of the vicilin 50 K M, polypeptide as previously described in vivo. These results suggested that the cleavage specificity of lupin endopeptidase was in the proximity of paired arginine amino acid residues.The changes in the vicilin polypeptides due to proteolytic cleavage by lupin enzyme and those occurring during germination of pea seeds are also reported and discussed.     

Isolation and Characterization of Glucosamine-containing Storage Glycoproteins from the Cotyledons of Phaseolus aureus

Cotyledons of Phaseolus aureus contain protein-bound glucosamine which is metabolized during germination. The glucosamine is present in storage glycoproteins, and these are concurrently metabolized along with the glucosamine. These glycoproteins are associated with protein bodies. Characterization of the glucosamine-containing storage proteins showed them to be identical with vicilin and legumin, the major storage proteins of the Leguminosae. Phaseolus aureus vicilin has a sedimentation constant of 8.0S and is made up of four nonidentical subunits. It contains 0.2% glucosamine and 1% mannose. Legumin has a sedimentation constant of 11.3S and is made up of three nonidentical subunits. It contains about 0.1% glucosamine.