cDNA cloning of an mRNA encoding a sulfur-rich 10 kDa prolamin polypeptide in rice seeds

Using a rice maturing seed pUC9 expression library, we isolated a cDNA clone corresponding to 10 kDa sulfurrich prolamin by immunoscreening. A longer cDNA clone was obtained from a gtll library by plaque hybridization using this ³²P-labeled cDNA as a probe. A polypeptide sequence composed of 134 amino acids was deduced from the nucleotide sequence. A 24 amino acid signal peptide was assigned by computer calculation for the membrane spanning region and Edman sequencing of the purified mature polypeptide. Remarkably, 20% of methionine and 10% of cysteine were found in the mature polypeptide as well as high contents of glutamine, and hydrophobic amino acids. Part of the amino acid sequence was homologous with a conserved cysteine-rich region found in other plant prolamins. Two repeats of amino acid sequence were found in the polypeptide.     

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.

     

cDNA cloning and gene expression of the major prolamins of rice

A full-length cDNA (pS 18) encoding the 16 kDa rice prolamin composed of 158 amino acids was sequenced. Analysis of N-terminal amino acid sequence of a major rice prolamin indicated that an 18 amino acid signal peptide was removed from 16 kDa precursor prolamin to form the 14 kDa prolamin during seed development. Synthesis of the 16 kDa precursor prolamin began around 8 days after flowering (DAF), increased remarkably at 8–11 DAF and gradually reached maximum levels with the maturation of rice seeds.     

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.     

Structural and expression analysis of prolamin genes in <Emphasis Type="Italic">Oryza sativa</Emphasis> L.

Rice is a staple crop with a small genome of 389 Mb. Rice grain is a source of carbohydrates and proteins and has a relatively low protein content compared to other legume seeds. Glutelin and prolamin are the major storage proteins in rice. Prolamins are characterized by high glutamine and proline content and are generally soluble only in strong alcohol solutions. In this study, we obtained a total of 51,383 expressed sequence tags (ESTs) from Ilpumbyeo (Oryza sativa L.), of which 33,201 and 18,182 clones were obtained from immature and germinating seeds, respectively. From the EST clones, 15,148 unigenes were identified, and 2,590 genes were expressed in both immature and germinating seeds. Gene expression profiling of rice prolamins indicated that prolamin gene expression increased 5 days after heading and reached maximal expression after 30 days, suggesting a high demand for prolamins during seed development and germination. Phylogenetic analysis grouped 33 prolamin genes based on the abundance of sulfur-containing amino acids methionine and cysteine according to the deduced amino acid sequences. Our results enhance the understanding of the regulation of seed maturation and germination, which can result in improved agricultural traits for the seed industry.     

Amino acid sequence of a probable amylase/protease inhibitor from rice seeds

The primary structure of a 9-kDa basic protein from rice seeds was determined by gas-phase sequencing of the intact protein and peptides derived from it by digestion with trypsin, chymotrypsin, and endopeptidase Lys-K. The protein consists of a single polypeptide chain of 91 amino acid residues with a calculated molecular mass of 8909 Da. It is rich in alanine, serine, glycine, and cysteine. The eight cysteines form four disulfide bonds. There is no methionine, histidine, phenylalanine, or tryptophan. The sequence is highly homologous with an alpha-amylase inhibitor, I-2, from seeds of Indian finger millet [F. A. P. Campos and M. Richardson (1984) FEBS Lett. 167, 221-225] and a 10-kDa barley seed protein, also called a probable amylase/protease inhibitor [B. Svensson et al. (1986) Carlsberg Res. Commun. 51, 493-500; J. Mundy and J. C. Rogers (1986) Planta 169, 51-63]. In analogy with the barley protein, the purified protein is tentatively called a rice probable amylase/protease inhibitor (PAPI). The rice PAPI does not show inhibitory activities against proteases and amylases tested. The amino acid sequence is as follows: Ile-Thr-Cys-Gly-Gln-Val-Asn-Ser-Ala-Val(10)-Gly-Pro-Cys-Leu-Thr-Tyr- Ala-Arg-Gly-Gly(20)-Ala-Gly-Pro-Ser-Ala-Ala-Cys-Cys-Ser-Gly(30)-Val-Arg- Ser-Leu-Lys-Ala-Ala-Ala-Ser-Thr(40)-Thr-Ala-Asp-Arg-Arg-Thr-Ala-Cys- Asn-Cys(50)-Leu-Lys-Asn-Ala-Ala-Arg-Gly-Ile-Lys-Gly(60)-Leu-Asn-Ala-Gly- Asn-Ala-Ala-Ser-Ile-Pro(70)-Ser-Lys-Cys-Gly-Val-Ser-Val-Pro-Tyr-Thr(80)- Ile-Ser-Ala-Ser-Ile-Asp-Cys-Ser-Arg-Val-Ser(91).     

Identification and possible roles of three types of endopeptidase from germinated wheat seeds.

Little or no endopeptidase activity was detected in extracts of dry mature wheat seeds, but when they were allowed to imbibe water in darkness, the activity expressed per seedling increased notably after d 1, reached a maximum on d 3 and then decreased. Two major endopeptidases, named WEP-1 and WEP-2, were present in the 50-70% saturated ammonium sulfate fraction of d-3 seedlings, and could be separated by hydrophobic column chromatography. WEP-1 was further purified and identified as a 31-kDa polypeptide that was immunoreactive to antiserum raised against REP-1, a major rice cysteine endopeptidase. Experiments with proteinase inhibitors revealed that WEP-1 and WEP-2 are cysteine and serine endopeptidases, respectively. The two enzymes differed in substrate specificity, pH dependence, and the ability to digest major wheat seed proteins. Determination of its amino-terminal amino acid sequence indicated the similarity of WEP-1 to other cereal cysteine endopeptidases which are involved in the digestion of seed storage proteins. The expression of WEP-1 in de-embryonated seeds was induced in the presence of gibberellic acid and its effect was eliminated by abscisic acid. In addition to WEP-1 and WEP-2, a legumain-like asparaginyl endopeptidase was identified in the extract of seedlings on hydrophobic chromatography. The asparaginyl endopeptidase may function in the early step of mobilization of wheat storage proteins in germinated seeds.     

Formation mechanism of the internal structure of type I protein bodies in rice endosperm: relationship between the localization of prolamin species and the expression of individual genes

Rice prolamins, a group of seed storage proteins, are synthesized on the rough endoplasmic reticulum (ER) and form type I protein bodies (PB-Is) in endosperm cells. Rice prolamins are encoded by a multigene family. In this study, the spatial accumulation patterns of various prolamin species in rice endosperm cells were investigated to determine the mechanism of formation of the internal structure of PB-Is. Immunofluorescence microscopic analysis of mature endosperm cells showed that the 10 kDa prolamin is mainly localized in the core of the PB-Is, the 13b prolamin is localized in the inner layer surrounding the core and the outermost layer, and the 13a and 16 kDa prolamins are localized in the middle layer. Real-time RT-PCR analysis showed that expression of the mRNA for 10 kDa prolamin precedes expression of 13a, 13b-1 and 16 kDa prolamin in the developing stages. mRNA expression for 13b-2 prolamin occurred after that of the other prolamin species. Immunoelectron microscopy of developing seeds showed that the 10 kDa prolamin polypeptide initially accumulates in the ER, and then 13b, 13a, 16 kDa and 13b prolamins are stacked in layers within the ER. Studies with transgenic rice seeds expressing prolamin-GFP fusion proteins under the control of native and constitutive promoters indicated that the temporal expression pattern of prolamin genes influenced the localization of prolamin proteins within the PB-Is. These findings indicate that the control of gene expression of prolamin species contributes to the internal structure of PB-Is.     

Molecular Cloning and Sequence Analysis of a Gene Encoding Rice 10 kD Prolamin

Using PCR technique, two prolamin genes from Oryza sativa var. indica (cv. Guanglu′ ai) and O. sativa var. japonica (cv. Zhonghua 8) were amplified and cloned. The prolamin gene contained 525 base pairs and encoded 134 amino acid residues. The two genes cloned from two different rice cultivars exhibited 100% homology and were highly homologous with the 10 kD prolamin gene in other rice species amountin an homology ranging from 96.6% to 100%. The deduced amino acid sequence shared 34.2% homology with that of maize 10 kD prolamin. As for dicots, only two types of storage protein shared some homology with rice 10 kD prolamin. One was from Brazil nut and the other from castor bean. Analysis on the signal peptide of rice 10 kD prolamin showed that it shared higher homology with that of storage proteins in some monocots such as maize, sorghum and oat. No similar sequence was found in dicots. The gene sequences of "Guangluai” and "Zhonghua 8” 10 kD prolamin would appear in EMBL data-base under the accession number L36604 and L36605 respectively.     

Cloning and characterization of a cDNA encoding a rice 13 kDa prolamin

Summary A cDNA library constructed from mRNAs obtained from developing rice endosperm was screened with a cDNA clone (RM7) of highest frequency of occurrence (1.8%). The translati) product directed by the mRNA which was hybrid-released from RM7 cDNA in a wheat germ cell-free system showed a molecular size of 13 kDa when coexisting with the protein body fraction of developing maize endosperm. A polypeptide sequence composed of 156 amino acids was deduced from the nucleotide sequence. By comparison with the 19 N-terminal amino acids obtained from Edman degradation of the isolated rice 13 kDa prolamin fraction, the signal sequence was determined as consisting of 19 amino acids. The deduced polypeptide is rich in hydrophobic amino acids such as Leu and Val, and also in Gln, but lacks Lys. Hence, the amino acid composition is consistent with that of rice 13 kDa rolamin. By homology with previously reported cereal prolamins, only a single octapeptide sequence, Gln-Gln-Gln-CysCys-Gln-Gln-Leu, which was observed in 15 kDa and 27 kDa zein, B- and -hordein, /- and -gliadin, and -secalin was conserved in the rice 10 kDa and 13 kDa prolamin. No repetitive sequences and/or sequences homologous to other cereal prolamins, except the above octapeptide, were observed for the mature 13 kDa prolamin polypeptide. The signal sequence region of the 13 kDa prolamin, however, shows homology of more than 65% in both the nucleotide sequence and the amino acid sequence with rice 10 kDa prolamin and maize zein.     

Evolutionary implications of substitution patterns in prolamin genes of Oryza glaberrima (African rice, Poaceae) and related species

Patterns of sequence variation of nuclear genes encoding 10-kDa and 16-kDa prolamin seed storage proteins were examined in Oryza glaberrima (African rice, Poaceae) and O. barthii and compared to available sequences for the genus to assess potential application of these gene families in evolutionary studies. Sequence variation among species in 10-kDa genes was very low. In contrast, the 16-kDa genes have undergone rapid evolution, displaying a larger number of length and point mutations that in some cases result in frame shift or produce truncated protein or pseudogenes. The proportion of nonsynonymous substitution is high in both genes. Although nonsynonymous mutations did not alter the overall profile of the protein, pronounced shifts in proportions of some amino acids were evident and could have systematic application. The data provide support for a proposed direct evolution of the Asian (O. sativa) and African rice from O. rufipogon and O. barthii, respectively. Patterns of amino acid frequencies of the 10-kDa genes show the distinctness of O. rufipogon and O. longistaminata from the other species. The study underscores the potential application of the prolamin genes as markers from the nuclear genome for evolutionary studies in grasses at different taxonomic levels.     

Polyembryony in Citrus. Accumulation of seed storage proteins in seeds and in embryos cultured in vitro.

Citrus exhibits polyembryonic seed development, an apomictic process in which many maternally derived embryos arise from the nucellus surrounding the developing zygotic embryo. Citrus seed storage proteins were used as markers to compare embryogenesis in developing seeds and somatic embryogenesis in vitro. The salt-soluble, globulin protein fraction (designated citrin) was purified from Citrus sinensis cv Valencia seeds. Citrins separated into two subunits averaging 22 and 33 kD under denaturing sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A cDNA clone was isolated representing a citrin gene expressed in seeds when the majority of embryos were at the early globular stage of embryo development. The predicted protein sequence was most related to the globulin seed storage proteins of pumpkin and cotton. Accumulation of 33-kD polypeptides was first detected in polyembryonic Valencia seeds when the majority of embryos were at the globular stage of development. Somatic Citrus embryos cultured in vivo were observed to initiate 33-kD polypeptide accumulation later in embryo development but accumulated these peptides at only 10 to 20% of the level observed in polyembryonic seeds. Therefore, factors within the seed environment must influence the higher quantitative levels of citrin accumulation in nucellar embryos developing in vivo, even though nucellar embryos, like somatic embryos, are not derived from fertilization events.     

Purification, properties and amino acid sequence of a low-Mr abundant seed protein from pea (Pisum sativum L.).

The seeds of pea (Pisum sativum L.) contain several proteins in the albumin solubility fraction that are significant components of total cotyledonary protein (5-10%) and are accumulated in developing seeds concurrently with storage-protein synthesis. One of these proteins, of low Mr and designated 'Psa LA', has been purified, characterized and sequenced. Psa LA has an Mr of 11000 and contains polypeptides of Mr 6000, suggesting that the protein molecules are dimeric. The amino acid sequence contains 54 residues, with a high content (10/54) of asparagine/aspartate. It has no inhibitory action towards trypsin or chymotrypsin, and is distinct from the inhibitors of those enzymes found in pea seeds, nor does it inhibit hog pancreatic alpha-amylase. The protein contains no methionine, but significant amounts of cysteine (four residues per polypeptide), suggesting a possible role as a sulphur storage protein. However, its sequence is not homologous with low-Mr (2S) storage proteins from castor bean (Ricinus communis) or rape (Brassica napus). Psa LA therefore represents a new type of low-Mr seed protein.     

Molecular Cloning, Expression and Subcellular Localization of a BiP Homolog from Rice Endosperm Tissue

The ER luminal binding protein, BiP, has been linked to prolamineprotein body formation in rice. To obtain further informationon the possible role of this chaperone in protein body formationwe have cloned and sequenced a BiP cDNA homolog from rice endosperm.The rice sequence is very similar to the maize BiP exhibiting92% nu-cleotide identity and 96% deduced amino acid sequenceidentity in the coding region. Substantial amino acid sequencehomology exists between rice BiP and BiP homo-logs from severalother plant and animal species including long stretches of conservationthrough the amino-terminal ATPase domain. Considerable variation,however, is observed within the putative carboxy-terminal peptide-bind-ingdomain between the plant and nonplant BiP sequences. A singleband of approximately 2.4 kb was visible when RNA gel blotsof total RNA purified from seed tissue were probed with radiolabeledrice BiP cDNA. This band increased in intensity during seeddevelopment up to 10 days after flowering, and then decreasedgradually until seed maturity. Protein gel blots indicated thatBiP polypeptide accumulation parallels that of the prolaminepolypeptides throughout seed development. Immunocytochemicalanalysis demonstrated that BiP is localized in a non-stochasticfashion in the endoplasmic reticulum membrane complex of developingendosperm cells. It is abundant on the periphery of the proteininclusion body but not in the central portion of the proteinbody or in the cisternal ER membranes connecting the proteinbodies. These data support a model which proposes that BiP associateswith the newly synthesized prolamine polypeptide to facilitateits folding and assembly into a protein inclusion body, andis then recycled. (Received October 21, 1996; Accepted January 20, 1997)     

Structure of the 116-kDa polypeptide of the clathrin-coated vesicle/synaptic vesicle proton pump.

A 116-kDa polypeptide has recently been found to be a common component of vacuolar proton pumps isolated from a variety of sources. The 116-kDa subunit of the proton pump was purified from clathrin-coated vesicles of bovine brain, and internal sequences were obtained from proteolytic peptides. Oligonucleotide probes designed from these peptide sequences were utilized in polymerase chain reactions to isolate partial bovine cDNA clones for the protein. Sequences from these were then utilized to isolate rat brain cDNA clones containing the full-length coding region. RNA blots indicate the presence of an abundant 3.9-kilobase message for the 116-kDa subunit in brain, and primer extension analysis demonstrates that the cloned sequence is full-length. The rat cDNA sequences predict synthesis of a protein of 96,267 Da. Analysis of the deduced amino acid sequence of the 116-kDa subunit suggests that it consists of two fundamental domains: a hydrophilic amino-terminal half that is composed of greater than 30% charged residues, and a hydrophobic carboxyl-terminal half that contains at least six transmembrane regions. The structural properties of the 116-kDa proton pump polypeptide agree well with its proposed function in coupling ATP hydrolysis by the cytoplasmic subunits to proton translocation by the intramembranous components of the pump.     

Enhanced methionine and cysteine levels in transgenic rice seeds by the accumulation of sesame 2S albumin

A chimeric gene encoding a precursor polypeptide of sesame 2S albumin, a sulfur-rich seed storage protein, was expressed in transgenic rice plants under the control of the glutelin promoter with the aim of improving the nutritive value of rice. Rice grains harvested from the first generation of ten different transformed lines inherited the transgene, and the accumulated sesame 2S albumin was presumably processed correctly as its mature form in sesame seed. This transgene was specifically expressed in maturing rice seeds with its encoded sesame 2S albumin exclusively accumulated in the seeds. The crude protein content in rice grains from five putative homozygous lines was increased by 0.64-3.54%, and the methionine and cysteine contents of these transgenic rice grains were respectively elevated by 29-76% and 31-75% compared with those of wild-type rice grains.     

Differential expression of a gene for a methionine-rich storage protein in maize

Summary A methionine-rich 10 kDa zein storage protein from maize was isolated and the sequence of the N-terminal 30 amino acids was determined. Based on the amino acid sequence, two mixed oligonucleotides were synthesized and used to probe a maize endosperm cDNA library. A fulllength cDNA clone encoding the 10 kDa zein was isolated by this procedure. The nucleotide sequence of the cDNA clone predicts a polypeptide of 129 amino acids, preceded by a signal peptide of 21 amino acids. The predicted polypeptide is unique in its extremely high content of methionine (22.5%). The maize inbred line BSSS-53, which has increased seed methionine due to overproduction of this protein, was compared to W23, a standard inbred line. Northern blot analysis showed that the relative RNA levels for the 10 kDa zein were enhanced in developing seeds of BSSS-53, providing a molecular basis for the overproduction of the protein. Southern blot analysis indicated that there are one or two 10 kDa zein genes in the maize genome.