Structural Relationship among the Rice Glutelin Polypeptides

When the glutelin protein fraction of rice (Oryza sativa L.) seeds was fractionated by sodium dodecyl sulfate polyacrylamide gel electrophoresis, three size classes of proteins, 51 kilodaltons (kD), 34 to 37 kD, and 21 to 22 kD, as well as a contaminating prolamine polypeptide of 14 kD were detected. Antibodies were raised against these proteins and employed in studies to determine whether a precursor-product relationship existed among the glutelin components. Antibodies of the 34 to 37 kD and 21 to 22 kD polypeptides strongly reacted with the 51 kD protein, and conversely, anti-51 kD protein cross reacted with both of the putative subunits. Immunoprecipitation of in vitro translated products resulted in the synthesis of only the precursor form, indicating that the α and β subunits are proteolytic products of the 51 kD precursor protein. The poly(A)⁺ RNA directed in vitro translated product was about 2000 daltons larger than both the authentic glutelin precursor and the in vitro translated product from polysome run-off synthesis. Western blot analysis of the 34 to 37 kD and 21 to 22 kD polypeptides partially digested with Staphylococcus aureus V8 protease revealed distinct patterns indicating that these proteins are structurally unrelated. As observed for the glutelins, the rice prolamines are also synthesized as a precursor of 16 kD, 2000 daltons larger than the mature polypeptide. Addition of dog pancreatic microsomal membranes to a wheat germ protein translation system resulted in the processing of the prolamine preprotein but not the preproglutelin to the mature form.     

Molecular characterization of oat seed globulins

We have isolated full-length cDNA clones that encode oat (Avena sativa) seed storage globulin mRNAs from a cDNA library in the expression vector lambda gtll. The longest of these clones, pOG2, has an 1840-base pair insert that encodes a complete precursor subunit with a signal peptide of 24 amino acids followed by an acidic polypeptide of 293 amino acids and a basic polypeptide of 201 amino acids. Near the C terminus of the acidic polypeptide are four repeats of a highly conserved, glutamine-rich octapeptide. Other oat globulin cDNA clones contain five of these repeats. Nucleotide sequence comparisons between these clones indicate that the genes encoding these proteins are highly conserved. We estimate there to be 7 to 10 genes for the oat globulin per haploid genome. Comparisons of amino acid sequences show that the oat globulin is 30 to 40% homologous with storage globulins of legumes and about 70% homologous with the rice seed storage globulin (glutelin).     

水稻种子贮藏谷蛋白的改良电泳分析法

利用15％－25％丙烯酰胺梯度凝胶的SDS－PAGE分析法可将水稻种子贮藏谷蛋白分离为3个酸性（α）亚基和3个碱性（β）亚基,通过调节两性电解质比例对现有等用点了和焦电泳分析法进行改良,可将谷蛋白酸性亚基和碱性亚基分别分划为13和14条多肽带,将上述两种方法结合起来的双向电泳分析法可以高清晰度地离析谷蛋白并获得单一多肽,此改良的电泳分析系统有助于确定水稻谷蛋白变异及谷蛋白的生化研究。     

Formation of wheat protein bodies: Involvement of the Golgi apparatus in gliadin transport

Developing wheat (Triticum aestivum L.) endosperm was examined using ultrathin sections prepared from tissues harvested at 5, 9, 16 and 25 d after flowering. Protein bodies were evident by 9 d and displayed a variety of membranous structures and inclusions. The Golgi apparatus was a prominent organelle at all stages, and by 9 d was associated with small electron-dense inclusions. By immunocytochemical techniques, gliadin (wheat prolamine) was localized within these vesicles and in homogeneous regions of protein bodies, but not in the lumen of the rough endoplasmic reticulum. The protein bodies appear to enlarge by fusion of smaller protein bodies resulting in larger, irregular-shaped organelles. The affinity of the Golgi-derived vesicles for gliadin-specific probes during the period of maximal storage-protein synthesis and deposition indicates that this organelle includes the bulk, if not all, of the gliadin produced. The involvement of the Golgi apparatus in the packaging of gliadins into protein bodies indicates a pathway which differs from the mode of prolamine deposition in other cereals such as maize, rice and sorghum, and resembles the mechanism employed for the storage of rice glutelin and legume globulins.Abbreviations ER endoplasmic reticulum - IgG immunoglobulin G - DAF days after flowering     

Characterization of HMW prolamines and their coding sequences from Crithopsis delileana

The high-molecular-weight (HMW) prolamines subunits and their coding sequences from wheat-related diploid species Crithopsis delileana were investigated. Only one HMW prolamine subunit with the similar electrophoresis mobility to the y-type HMW glutenin subunit of hexaploid wheat was observed in two accessions of C. delileana by SDS-PAGE analyses of the total storage protein fractions. It was confirmed by sequencing and expression analysis that this prolamine subunit was an x-type subunit. The amino acid sequence of this subunit had the similar typical structure to those of x-type HMW glutenin genes previously described in wheat. An in-frame stop codon was found in the coding sequences of y-type prolamine subunits. It was found by specifically extraction of HMW prolamines and sequence analysis that the coding regions of Ky prolamine subunit gene is very likely to be not expressed as a full-length protein. Phylogenetic analysis indicated that the Kx subunit could be clustered together with 1Ax1 subunit by an interior paralleled branch, and Ky subunit (inactive) was most closely related to the 1Ay subunit. The coding sequences of Kx subunit could successfully be expressed in bacterial expression system, and the expressed protein had the same electrophoresis mobility as the Kx subunit from the seed of C. delileana. It was the first time that the HMW prolamines subunits encoded by K genome of C. delileana were characterized.     

水稻谷蛋白是类似于豆球蛋白的蛋白质

水稻是我国的主要粮食作物,它的蛋白质含量为5—14%。在水稻种子蛋白质中,谷蛋白占80%,球蛋白占10%,醇溶蛋白占5%,清蛋白占5%。据报道,水稻种子清蛋白主要由分子量16800的亚基组成,球蛋白由10种不同分子量的亚基通过疏水交互作用相结合,谷蛋白由分子量38000、25000和16000三种亚基通过双硫键相结合:但是,Yamagata(1982)和作者(1983、1984、1986)的研究表明:水稻种子谷蛋白主要由分子量     

A rice glutelin and a soybean glycinin have evolved from a common ancestral gene

A cDNA clone covering the entire coding region for a glutelin subunit precursor has been identified from a library of endosperm-developing rice cDNA clones using a mixed oligodeoxynucleotide probe, and then by immunoprecipitation of hybrid-selected translation product with an antiserum against the acidic polypeptides of the glutelin. Analysis of the cDNA insert revealed that rice glutelin is synthesized as precursor polypeptides which undergo post-translational processing to form the nonrandom polypeptide pairs, like glycinin precursors of soybean. By comparing the predicted protein sequence of this precursor from monocots with that of glycinin A1aB1b precursor from dicots, it was found that the overall 32% of the amino acid positions are identical in both proteins. Because regions which show identities are dispersed throughout both molecules, the similarity is not due to convergent evolution, but to divergence evolution from a common ancestral gene.     

Isolation and identification of cytoskeleton-associated prolamine mRNA binding proteins from developing rice seeds

The messenger RNA of the rice seed storage protein prolamine is targeted to the endoplasmic reticulum (ER) membranes surrounding prolamine protein bodies via a mechanism, which is dependent upon both RNA sorting signals and the actin cytoskeleton. In this study we have used an RNA bait corresponding to the previously characterized 5′CDS prolamine cis-localization sequence for the capture of RNA binding proteins (RBPs) from cytoskeleton-enriched fractions of developing rice seed. In comparison to a control RNA, the cis-localization RNA bait sequence led to the capture of a much larger number of proteins, 18 of which have been identified by tandem mass spectrometry. Western blots demonstrate that several of the candidate proteins analyzed to date show good to excellent specificity for binding to cis-localization sequences over the control RNA bait. Temporal expression studies showed that steady state protein levels for one RNA binding protein, RBP-A, paralleled prolamine gene expression. Immunoprecipitation studies showed that RBP-A is bound to prolamine and glutelin RNAs in vivo, supporting a direct role in storage protein gene expression. Using confocal immunofluorescence microscopy, RBP-A was found to be distributed to multiple compartments in the cell. In addition to the nucleus, RBP-A co-localizes with microtubules and is associated with cortical ER membranes. Collectively, these results indicate that employing a combination of in vitro binding and in vivo binding and localization studies is a valid strategy for the identification of putative prolamine mRNA binding proteins, such as RBP-A, which play a role in controlling expression of storage protein mRNAs in the cytoplasm.     

Analysis of randomly isolated cDNAs from developing endosperm of rice (Oryza sativa L.): evaluation of expressed sequence tags,and expression levels of mRNAs

Using a cDNA library prepared from poly(A)⁺ RNA from 10-day-old rice endosperm, partial nucleotide sequences of randomly isolated clones were analyzed. A total of 153 (30.6%) out of 500 cDNA clones showed high amino acid identity to previously identified genes. There was significant redundancy in cDNAs encoding prolamine and glutelin. About 21.0% of the cDNA clones were found to code for seed storage protein genes. Consequently, 37 independent genes were identified. Using cDNA clones encoding glutelin, prolamine, seed allergen, -1,4-glucan branching enzyme, glycine-rich RNA binding protein, metallothionein, non-specific lipid-transfer protein and ubiquitin conjugating enzyme the accumulation of mRNA during rice seed development was compared. Genes associated with seed storage protein and starch biosynthesis were expressed according to expected developmental stages. Glycinerich RNA binding protein genes as well as metallothionein-like protein genes were highly expressed in developing seeds, but low in leaves of whole plants.     

Determination of immunological homology between cellulosome subunits and cloned endoglucanases and xylanase of Clostridium thermocellum

Immuno-cross reactivity between the subunits of Clostridium thermocellum cellulosome and cloned endogucanases and xylanase from the same bacterium was studied using the polyclonal antibodies raised against cloned enzymes. Dot blot analysis showed that the cellulosome, S8 and S11 subunits cross-reacted strongly with the antibodies of all cloned enzymes tested except that raised against CelC. Western blot analysis revealed that S8 and S11 subunits cross-reacted with the antibodies of CelA, CelB, CelD, CelG, CelH and XynZ, but the antibodies of CelB and CelG were highly specific for S8 and S11 subunits, respectively. Similar analysis using dissociated cellulosome showed that the antibodies of all cloned enzymes tested cross-reacted with more than one subunit of the cellulosome. Antibodies of CelC showed a very low cross-reactivity against all subunits of the cellulosome. The results indicate that immunological cross-reactivity studies could be useful, not only for demonstrating the similarities between native and cloned enzymes, but also for identifying native enzymes using antibodies of cloned enzymes.     

Knockout of glutelin genes which form a tandem array with a high level of homology in rice by gamma irradiation

In the course of evolution, a gene is often duplicated in tandem, resulting in a functional redundancy. The analysis of function of these genes by raising double mutant might be difficult because they are very tightly linked. We described here a mutant of such a tandem duplicated gene. glu1 is a gamma-ray-induced rice mutant, which lacks an acidic subunit of glutelin, a major seed storage protein. We found that glu1 harbors a 129.7-kb deletion involving two highly similar and tandem repeated glutelin genes, GluB5 and GluB4. The deletion eliminated the entire GluB5 and GluB4 gene except half of the first exon of GluB5. GluB5 and GluB4 have the same amino acid sequence in the acidic subunit, suggesting that only the mutation involving both GluB5 and GluB4 results in the lack of the glutelin acidic subunit deleted in glu1. Our finding suggests that gamma-ray can be an effective mutagen to analyze tandem repeated and functionally redundant genes.     

Morphometric Analysis of Rice Seed Protein Bodies (Implication for a Significant Contribution of Prolamine to the Total Protein Content of Rice Endosperm)

Electron microscopic observation of thin sections of rice (Oryza sativa L.) endosperm revealed two types of protein bodies (PBs): spherical and irregular-shaped ones. Immunocytochemical localization studies using antibodies raised against purified glutelins, prolamines, and globulins indicated that the prolamines were localized in the spherical PB, whereas the irregular-shaped PB contained glutelins and globulins. We counted and measured the surface area and the relative volume of 2303 PBs randomly selected from two different developmental stages and from different locations within the endosperm. The ratio of spherical to irregular-shaped PBs was 1:1.6. Double-label immunogold electron microscopic localization indicated that the globulins represented about 18% of the surface area of the irregular-shaped PBs. Based on our morphometric analysis, we estimate the relative contribution of glutelin as 53%, that of prolamine as 35%, and that of globulin as 12% of the total seed protein.     

Biosynthesis of storage proteins in developing rice seeds

Sodium dodecyl sulfate-polyacrylamide gel electrophoretic analysis of the starchy endosperm protein of rice (Oryza sativa L. Japonica cv Koshihikari) during seed development confirmed that storage protein begins to accumulate about 5 days after flowering. Two polypeptide groups, 22 to 23 and 37 to 39 kilodaltons, the components of glutelin, the major storage protein in rice seed, appeared 5 days after flowering. A 26-kilodalton polypeptide, the globulin component, also appeared 5 days after flowering. Smaller polypeptides (10- to 16-kilodaltons) including prolamin components, appeared about 10 days after flowering. In contrast, the levels of the 76- and 57-kilodalton polypeptides were fairly constant throughout seed development. Transmission electron microscopy and fractionation by sucrose density gradient centrifugation of the starchy endosperms at various stages of development showed that protein body type II, the accumulation site of glutelin and globulin, was formed faster than protein body type I, the accumulation site of prolamin.

The 57-kilodalton polypeptide but not the glutelin subunits was labeled in a 2-hour treatment with [¹⁴C]leucine given between 4 and 12 days after flowering to developing ears. In vivo pulse-chase labeling studies showed the 57-kilodalton polypeptide to be a precursor of the 22 to 23 and 37 to 39 kilodalton subunits. The 57-kilodalton polypeptide was salt-soluble, but the mature glutelin subunits were almost salt insoluble.

In vitro protein synthesis also showed that the mRNAs directly coding the 22 to 23 and 37 to 39 kilodalton components were absent in developing seeds and that the 57-kilodalton polypeptide was the major product. Thus, it was concluded that the two subunits of rice glutelin are formed through post-translational cleavage of the 57-kilodalton polypeptide.

     

Mutants lacking glutelin subunits in rice: mapping and combination of mutated glutelin genes

Nine mutant lines lacking glutelin subunits were selected from M₂ seeds of about 10000 M₁ plants mutagenized with gamma rays or EMS and from 1400 mutant lines selected originally for morphological characters. There were three types of mutants, one line lacking the largest subunit among four minor bands of glutelin acidic subunits (Type 1), five lines lacking the second largest subunit band (Type 2), and three lines lacking the third largest subunit band (Type 3). Mutants lacking the smallest subunit band were not found. Type 1 lacked 2 of the 10 spots of glutelin acidic subunits separated by two-dimensional electrophoresis and 1 of the 11 spots of the 57-kDa glutelin precursor. Type 2 lacked 2 spots of acidic subunits and 1 spot of the 57-kDa glutelin precursor, and had low amounts of 1 of the 8 spots of glutelin basic subunits. Type 3 mutants lacked each of 1 spot of the acidic subunits and glutelin precursor and had low amount of 1 spot of the basic subunits. Genetic analysis of the mutated genes showed that these mutant characters were controlled by single recessive genes named glu-1, glu-2, and glu-3, respectively. Mutated genes of different lines of the same type were found to be at the same locus. RFLP analysis of F₂ plants between the mutant lines and cv `Kasalath' indicated that glu-1 is on chromosome 2, glu-2 on chromosome 10, and glu-3 on chromosome 1. These mutant genes were combined by crossing, and a line lacking the 3 minor bands of the glutelin acidic subunits was developed. However, the total glutelin content of this line was not remarkably reduced, showing a only 13% decrease. Received: 1 April 1996 / Accepted: 14 June 1996     

Biochemical characterization of rice glutelin

The two major subunits of rice glutelin, the acidic (α) and basic (β) polypeptides were purified by chromatofocusing and cation exchange chromatography, respectively. The molecular weight range of the α polypeptides was 28.5 to 30.8 kilodaltons and the molecular weight range of the β polypeptides was 20.6 to 21.6 kilodaltons. Electrofocusing in polyacrylamide gels showed that the isoelectric points of the α and β polypeptides were 6.5 to 7.5 and 9.4 to 10.3, respectively. At least 12 polypeptides of the α-group and nine polypeptides of the β-group could be separated by electrofocusing. The amino acid compositions of whole glutelin, and the purified α and β subunits were analyzed. The α subunit contained more glutamic acid/glutamine, serine, and glycine, and less alanine, lysine, aspartic acid/asparagine, and isoleucine than the β subunit. A comparison of the amino acid composition of rice glutelin subunits with those of the 11S proteins from eight other plant species indicated that there is more similarity between the β subunits than the α subunits of several diverse plant species.     

Effect of structural modifications on the assembly of a glycinin subunit.

A Gy4 glycinin cDNA was modified and used to produce structurally altered 11S storage protein subunits. We evaluated these modified subunits for their ability to assemble into oligomers. Alterations made in the acidic polypeptide changed the subunit solubility characteristics but did not eliminate assembly. Modifications in the basic polypeptide usually eliminated assembly of subunits into trimers. A region exhibiting high natural variability located at the COOH terminus of the acidic polypeptide that we have designated the hypervariable region was also studied. Extensive deletions and insertions were tolerated in the hypervariable region without perturbing subunit assembly. Some of the insertions significantly increased the methionine content in the Gy4 glycinin subunit. Together, our results indicated that the structure of the basic polypeptide was more critical for assembly of trimers than that of the acidic polypeptide, an observation that implies that the basic polypeptides direct trimer formation. The assembly assays described here will be useful in efforts to improve seed quality. Using them, the effects of modifications to the storage protein subunits can be rapidly evaluated before introducing the mutated genes into plants.     

Identification of two messenger RNA cap binding proteins in wheat germ. Evidence that the 28-kDa subunit of eIF-4B and the 26-kDa subunit of eIF-4F are antigenically distinct polypeptides

Previous work has shown that eukaryotic initiation factor (eIF)-4B from wheat germ is a complex containing two subunits, 80 and 28 kDa, and eIF-4F from wheat germ is a complex containing two subunits, 220 and 26 kDa (Lax, S., Fritz, W., Browning, K., and Ravel, J. (1985) Proc. Natl. Acad. Sci. U. S. A. 82, 330-333). Here we show that both the 28-kDa subunit of eIF-4B and the 26-kDa subunit of eIF-4F cross-link to the 5' terminus of capped and oxidized satellite tobacco necrosis virus RNA in the absence of ATP and that the cross-linking of both polypeptides is inhibited by m7GDP. Several lines of evidence indicate that the 28-kDa and the 26-kDa cap binding proteins of eIF-4B and eIF-4F are antigenically distinct polypeptides. Rabbit polyclonal antibodies raised to intact eIF-4B or to the isolated 28-kDa subunit of eIF-4B react strongly with the 28-kDa subunit of eIF-4B on immunoblots, but show only a very weak reaction with the 26-kDa subunit of eIF-4F under the same conditions. In addition, a mouse monoclonal antibody was obtained that reacts strongly with the 26-kDa subunit of eIF-4F but does not react with the 28-kDa subunit of eIF-4B. Evidence is presented also which indicates that the higher molecular weight subunits of eIF-4B and eIF-4F are antigenically distinct. Rabbit polyclonal antibodies raised to intact eIF-4B or the isolated 80-kDa subunit inhibit eIF-4B-dependent polypeptide synthesis but do not inhibit eIF-4F-dependent polypeptide synthesis. Rabbit polyclonal antibodies raised to eIF-4F inhibit eIF-4F-dependent polypeptide synthesis but do not inhibit eIF-4B-dependent polypeptide synthesis.