Molecular cloning and analysis of cDNA sequences derived from poly A+ RNA from barley endosperm: identification of B hordein related clones.

A collection of over 130 cDNA clones has been constructed in the bacterial plasmids pPH207 and pBR322 using as template the poly A+ RNA from membrane-bound polysomes of barley endosperm (cv. Sundance). Fifty four B hordein cDNA clones have been identified by cross-hybridization analysis and in vitro translation of plasmid-selected mRNAs. Hybridization of 11 of the B hordein cDNA clones to Northern blots of size-fractionated RNA indicated that the B hordein mRNA is ca. 1300 nucleotides long. One cDNA clone, pHvE-c16, has been partially sequenced and shown by comparison with C-terminal and other peptide sequences to be related to B1 hordein polypeptides. The results obtained from the analysis of the B hordein cDNA clones support the idea that the Hor 2 locus, which specifies the B hordeins, is complex and codes for a family of related mRNA species.     

The polymorphism and structural homology of storage polypeptides (hordein) coded by the Hor-2 locus in barley (Hordeum vulgare L.)

Two-dimensional mapping (isoelectric focusing followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis) of the polypeptide components of “B” hordein fractions from eight barley varieties of widely different ancestry has been carried out. The relative positions of 47 different polypeptides were mapped, there being between 8 and 16 present in any one variety. The individual polypeptides differed in their distribution patterns; some were present in a number of varieties, while others were restricted to one or two. They also differed in their relative contributions to the total hordein fraction, both within and between varieties. The structural homology of the major polypeptides was compared by cleavage at methionine residues with cyanogen bromide and separation of the peptides on gradient gels. The polypeptides were classified into three groups which gave cleavage patterns with either two (class I), four (class II), or five (class III) low molecular weight bands. Class III polypeptides were found in all eight varieties, but in seven of the varieties class I or class II polypeptides were also present. With one exception, polypeptides migrating in the same position in different varieties gave identical or almost identical patterns. The three classes of polypeptides showed different distributions on the two-dimensional gels. Classes II and III polypeptides had a similar range of isoelectric points (pH 6.5–8.0), but all of the class II polypeptides were of slightly lower molecular weight. Class I polypeptides had a wider range of pI and molecular weight; the most alkaline and the lowest molecular weight polypeptides were in this group. The hordein fractions from a number of other barley varieties were compared with that of Julia. All had major polypeptides which migrated with ones present in Julia, but they differed in the relative amounts of these and in the absence of some polypeptides and the presence of others. B hordein is coded for by a single locus which has been suggested to be a complex multigenic family derived by duplication and divergence of a single gene. The data reported here provide support for this hypothesis and suggest that both mutations in the duplicated genes and recombination within the locus may have contributed to the polymorphism of the polypeptides.     

Growth inhibitors in oat grains. I. Leakage of inhibiting factors from oat grains during imbibition and the effect of these on germination and growth

Spikes of barley ( Hordeum vulgare L.) cultivar Bomi and high-lysine mutants Riso 1508 and Riso 56 were cultured on liquid media at varying N and sucrose levels. Bomi accumulated N in response to increasing N levels in the medium and a higher level was reached than in spikes of intact plants. The distribution of N in salt-soluble, hordein, and non-protein N fractions appeared to be normal. Endosperm dry weight and starch were lower than in intact plants and declined at higher N levels. A linear relationship was observed between starch content and the concentration of sucrose in the endosperm water. Uptake of culture medium by the spikes was affected by both N and sucrose concentration. The mutants had lower dry weights and starch contents, and higher sucrose contents than Bomi. At high N levels, the mutants accumulated less hordein, and more non-protein N than Bomi.     

Molecular analysis of a mutation conferring the high-lysine phenotype on the grain of barley (Hordeum vulgare)

We have analyzed the molecular nature of the Riso 56 mutation that occurs in barley. This mutation results in a depression of hordein accumulation in the grain and consequently in a higher overall lysine content. In particular, the amount of B hordein, which is encoded by the complex locus Hor-2, is decreased by about 75% because of the absence of the major components. The synthesis of certain minor polypeptides, with properties similar to the major B hordeins, remains unaffected. Analysis of endosperm RNA, by in vitro translation and hybridization to various cloned cDNAs derived from hordein mRNA, shows that mRNA for the major B hordeins is not present in the endosperm. Hybridization of a B hordein cDNA clone to gel-fractionated restriction digests of mutant and wild-type DNA indicates that at least 85 kb of DNA has been deleted from the Hor-2 locus in the high-lysine mutant.     

Changes in the levels of seven proteins involved in polypeptide folding and transport during endosperm development of two barley genotypes differing in storage protein localisation

The Russian barley cultivar Nevsky lacks ₃ hordein and accumulates most of its hordein in the lumen of the endoplasmic reticulum and only a minor portion in the vacuole. In wild type barley and all other temperate cereals, storage proteins are deposited in the vacuole. F1 crosses revealed that the Nevsky phenotype is recessive; but the extent of hordein accumulation in the endoplasmic reticulum in F2 endosperm lacking ₃ hordein was very much less than in the Nevsky parent. In order to study the Nevsky endosperm phenotype we have measured the levels of seven proteins and two mRNAs involved in protein folding in the ER lumen or ER to Golgi transport during endosperm development. The protein levels were unaltered in Nevsky as compared to the wild-type variety Bomi. When the levels of these seven proteins were correlated with the rate of hordein accumulation, four of these (HSP70, PDI, Sar1p and Sec18p) were consistently up-regulated with hordein synthesis. Accumulation of hordein in the endoplasmic reticulum appears to be determined by the absence of ₃ hordein, or the product of a gene closely linked to it, plus one or more other recessive genes.     

A role for γ3 hordein in the transport and targeting of prolamin polypeptides to the vacuole of developing barley endosperm

Hordein synthesis, transport and deposition was analysed by immunocytochemistry in developing endosperm cells of wild-type (Carlsberg II) and mutant varieties deficient in B hordein ( hor2ca ), γ1 hordein (Donetsky), γ2 hordein and minor B hordein polypeptides (Haisa), or γ3 hordein (Nevsky). In all varieties, hordein polypeptides were detected both in the cytoplasm as globules, ranging in diameter from 50 nm to 1.24 µm, and in the vacuole as protein bodies. In the cytoplasmic globules B and C hordein polypeptides are assembled as a core and are surrounded by an outer layer of γ1 and γ2 hordein. The globules apparently fuse several times in the cytoplasm before entering the vacuole. Absence of γ3 hordein in the mutant Nevsky leads to a dramatic change in hordein polypeptide targeting, the hordein storage proteins being largely deposited in the lumen of the rough endoplasmic reticulum. γ3 Hordein is unique among the sulphur-rich hordein polypeptides, being monomeric and forming only intramolecular disulphide bridges, while the other B and γ hordein polypeptides are aggregated by intermolecular disulphide bridges. Retention of hordein in the rough endoplasmatic reticulum in the absence of γ3 hordein suggests that γ3 hordein may maintain the prolamin storage polypeptides in a transport competent state. The sequence of the mature γ3 hordein polypeptide was deduced from a cDNA clone, and compared with γ2 hordein. The epitope recognized by the γ1 + γ2 hordein-specific BX monoclonal antibody used for immunocytochemistry was mapped to include E¹⁹⁰ and K¹⁹³, by synthesizing overlapping oligopeptides.     

Evolutionary relationship of the members of the sulphur-rich hordein family revealed by common antigenic determinants

Summary Five monoclonal antibodies raised against an enriched C hordein fraction have been characterized in detail and were found to be specific for the members of the sulphur-rich hordein family. Two antibodies specific for B hordein polypeptides were identified, one of which reacted predominantly with CNBr cleavage class III polypeptides. 1 hordein was recognized by two antibodies, of which one also reacted with 2 hordein and several members of the CNBr cleavage class II B hordein polypeptides. One antibody recognized 3 hordein but cross-reacted at higher antibody concentration with almost all of the B and C hordein polypeptides. The specificity of the monoclonal antibodies was confirmed by Western blotting of one- or two-dimensionally separated hordein from the B hordein-deficient mutant hor2ca and its wild-type Carlsberg II and the 3 hordein-deficient genotype Nevsky. The identification of the hordein-specific monoclonal antibodies was further supported by immune precipitation of in-vitro transcribed and translated 2 hordein, and hor2ca and Carlsberg II mRNA translation products. The monoclonal antibodies were used to screen for mutants in hordein synthesis. Two mutants, one deficient in 1 hordein synthesis and a second in 2 or closely related B hordein polypeptides were identified. A model is proposed for the evolution of the sulphur-rich hordein loci Hor5 and Hor2.     

Structural homology of storage proteins coded by the Hor-1 locus of barley (Hordeum vulgare L.)

Three C hordein fractions were prepared by ion-exchange chromatography of a total hordein preparation on carboxymethyl cellulose at pH 4.6 Polyacrylamide gel electrophoresis at pH 3.2 and sodium dodecylsulfate polyacrylamide gel electrophoresis (SDS-PAGE) at pH 8.9 showed that each fraction contained a single major band. The apparent molecular weights of these were determined by SDS-PAGE as 58, 57, and 54,000. When compared by isoelectric focusing, however, the 58 and 57,000 components each separated into two major bands and the 54,000 component into four. Amino acid analysis showed that although the three fractions had similar compositions with high glutamate+glutamine (38–39%), proline (30–32%) and phenylalanine (8–9%) contents, some differences were present, notably in the relative content of lysine. The three fractions had identical amino acid sequences for the first ten residues at the N-terminal end. They also had identical sequences for the first five residues at the C-terminal end, with the exception that a mixture of two amino acids were released from position 4 of the 58,000 fraction only. Peptide mapping with three enzymes (trypsin, chymotrypsin and V8 protease) indicated that the 58 and 57,000 fractions were more closely related to each other than to the 54,000 fraction. It is suggested that the 57 and 58,000 fractions and the 54,000 fraction constitute two families of closely related polypeptides which are coded by genes derived from the duplication and divergence of a single ancestral gene.     

Hordein-gene expression during development of the barley (Hordeum vulgare) endosperm.

A previous study [Rahman, Shewry & Miflin (1982) J. Exp. Bot. 33, 717-728] showed differential accumulation of the major storage proteins (called B and C hordeins) in developing endosperms of barley (Hordeum vulgare). To determine how this accumulation is regulated, we have studied mRNA fractions prepared from similar endosperms. Hordein-related mRNA species were detected some days before the deposition of hordeins in vivo. The translation products in vivo directed by polyribosomes, polysomal RNA and total cellular RNA showed similar changes in the proportions of the hordein products to those observed in the accumulations of the proteins in vivo. There was a relative increase in one of the subfamilies of B hordeins (called B1 hordein) and a decrease in the second subfamily of B hordeins (B3 hordein) and in C hordeins. The populations of RNA species related to these three groups of hordeins were studied by 'dot hybridization', with specific complementary-DNA probes for B1-, B3- and C-hordein-related sequences. This showed a 10-15-fold increase in sequences related to the B1 hordein during endosperm development, but only a 4-fold increase in sequences related to B3 and C hordeins. These results indicate that the rates of synthesis of hordeins are related to the abundance of their respective mRNA species. The different results observed for the two subfamilies of B hordeins are of interest, since they indicate differential expression of two subfamilies of genes present at a single multigenic locus.     

Polymorphism at the Hor 1 locus of barley (Hordeum vulgare L.)

The Hor 1 locus of barley encodes a group of seed storage polypeptides called C hordein. Two-dimensional electrophoretic analysis of C-hordein fractions from six cultivars with different alleles at the Hor 1 locus showed extensive polymorphism. A total of 34 major polypeptides was mapped, with between 4 and 18 present in each cultivar. There was less variation among the same cultivars in the numbers (6 to 10) of restriction fragments of genomic DNA which hybridized to a cDNA clone related to C hordein. The total number of restriction fragments was also lower (22), and most pairs of cultivars had more restriction fragments than polypeptides in common. A total number of about 20–30 C-hordein genes per haploid genome was estimated. The results indicate that cultivars differ mainly in the extent of gene and polypeptide divergence, rather than in the degree of gene reiteration. They are consistent with the proposed origin of the multiple structural genes at the Hor 1 locus by the duplication and divergence of a single ancestral gene.NACB was supported by a grant from the Home Grown Cereals Authority.     

Two-dimensional Separation of the Prolamins of Normal and High Lysine Barley (Hordeum vulgare L.)

The polypeptide components of the reduced prolamin fraction(hordein) of barley seed proteins have been separated, beforeand after alkylation, by polyacrylamide gel electrophoresisusing buffers containing urea and/or sodium dodecylsulphate(SDS). Alkylation of the protein with 4-vinylpyridine or acrylonitrileresults in a considerable sharpening of the protein bands andsome minor changes in the band pattern. The procedure has beenused to compare the hordeins of the normal commercial varieties,Julia and Bomi, to those of a high lysine mutant of Bomi (Rise,1508). Whereas the alkylated hordein fractions of Bomi and Julia containSDS bands of apparent molecular weights 13 000, 16 000, 20 000,30 000, 43 000, 51 000, 67 000, and 86 000, the mutant hordeinfractions contain predominantly the low molecular weight (13000, 16 000, and 20 000) and mol. wt. 51 000 bands. Further resolution of the fractions was obtained by two-dimensionalelectrophoresis using 6 M urea in glycine/acetate buffer atpH 4?6 as the first dimension and SDS in tris/borate bufferat pH 8?9 as the second. Separation of the Rise 1508 hordeinin this system demonstrated that the mol. wt. 51 000 band containsseveral closely similar components.     

The gene for trypsin inhibitor CMe is regulated in trans by the lys 3a locus in the endosperm of barley (Hordeum vulgare L.)

Summary A cDNA encoding trypsin inhibitor CMe from barley endosperm has been cloned and characterized. The longest open reading frame of the cloned cDNA codes for a typical signal peptide of 24 residues followed by a sequence which is identical to the known amino acid sequence of the inhibitor, except for an Ile/Leu substitution at position 59. Southern blot analysis of wheat-barley addition lines has shown that chromosome 3H of barley carries the gene for CMe. This protein is present at less than 2%–3% of the wild-type amount in the mature endosperm of the mutant Risø 1508 with respect to Bomi barley, from which it has been derived, and the corresponding steady state levels of the CMe mRNA are about I%. One or two copies of the CMe gene (synonym Itc1) per haploid genome have been estimated both in the wild type and in the mutant, and DNA restriction patterns are identical in both stocks, so neither a change in copy number nor a major rearrangement of the structural gene account for the markedly decreased expression. The mutation at the lys 3a locus in Risø 1508 has been previously mapped in chromosome 7 (synonym 5H). A single dose of the wild-type allele at this locus (Lys 3a) restores the expression of gene CMe (allele CMe-1) in chromosome 3H to normal levels.     

Characterization of a cDNA encoding a proline-rich 14 kDa protein in developing cortical cells of the roots of bean (Phaseolus vulgaris) seedlings

A cDNA clone, corresponding to mRNAs preferentially expressed in the roots of bean (Phaseolus vulgaris L.) seedlings, was isolated. This clone contains a 381 bp open reading frame encoding a polypeptide of 13.5 kDa, designated PVR5 (Phaseolus vulgaris root 5). The amino acid sequence of this clone is rich in proline (13.5%) and leucine (12.7%) and shares significant amino acid sequence homology with root-specific and proline-rich proteins from monocots (maize and rice), and proline-rich proteins from dicots (carrot, oilseed rape, and Madagascar periwinkle). The precise biological roles of these polypeptides are unknown. PVR5 mRNA accumulation is developmentally regulated within the root, with high levels at the root apex and declining levels at distances further from the root tip. In situ hybridization shows that PVR5 mRNA specifically accumulates in the cortical ground meristem in which maximal cell division occurs. Southern blot analysis suggests that genomic DNA corresponding to PVR5 cDNA is encoded by a single gene or a small gene family.     

Accumulation of creatine kinase mRNA during myogenesis: molecular cloning of a B-creatine kinase cDNA

Cytosolic creatine kinase isoenzymes MM, MB, and BB are assembled from M or B subunits which occur in different relative amounts in specific tissues. The accumulation of mRNAs encoding the M and B subunits was measured during myogenesis in culture. The relative concentration of the two mRNAs was determined by hybridization with a M-CK cDNA probe isolated previously and a B-CK cDNA probe, the cloning and characterization of which is reported here. The B-CK cDNA hybridizes specifically to a 1.6-kb mRNA found in brain and gizzard but not in adult skeletal muscle tissue. The M-CK cDNA hybridizes to a smaller mRNA 1.4-kb long which is specific to skeletal muscle. In culture, the B-CK mRNA is transiently induced and then declines to a low but detectable level.     

Calmodulin isoforms in Arabidopsis encoded by multiple divergent mRNAs

Three new, unique cDNA sequences encoding isoforms of calmodulin (CaM) were isolated from an Arabidopsis cDNA library cloned in gt10. These sequences (ACaM-4, -5, and -6) represent members of the Arabidopsis CaM gene family distinct from the three DNA sequences previously reported. ACaM-4 and -6 encode full-length copies of CaM mRNAs of ca. 0.75 kb. The ACaM-5 sequence encodes a partial length copy of CaM mRNA that is lacking sequences encoding the amino-terminal 10 amino acids of mature CaM and the initiator methionine. The derived amino acid sequence of ACaM-5 is identical to the sequences encoded by two of the previously characterized ACaM cDNAs, and is identical to TCH-1 mRNA, whose accumulation was increased by touch stimulation. The polypeptides encoded by ACaM-4 and -6 differ from that encoded by ACaM-5 by six and two amino acid substititions, respectively. Most of the deduced amino acid sequence substitutions in the Arabidopsis CaM isoforms occurred in the fourth Ca²⁺-binding domain. Polymerase chain reaction amplification assays of ACaM-4, -5 and -6 mRNA sequences indicated that each accumulated in Arabidopsis leaf RNA fractions, but only ACaM-4 and -5 mRNAs were detected in silique total RNA. The six different CaM cDNA sequences each hybridize with unique Eco RI restriction fragments in genomic Southern blots of Arabidopsis DNA, indicating that these sequences were derived from distinct structural genes. Our results suggest that CaM isoforms in Arabidopsis may have evolved to optimize the interaction of this Ca²⁺-receptor protein with specific subsets of response elements.     

Activity of the yeast MAP kinase homologue Slt2 is critically required for cell integrity at 37° C

We have analyzed the structure of genes encoding the glyoxylate cycle enzyme isocitrate lyase from Brassica napus L. and their expression during embryogeny and postgermination. Restriction mapping, nucleotide sequence, and DNA gel blot hybridization analyses of cDNA and genomic clones indicated that there are approximately six isocitrate lyase genes in the B. napus genome that can be divided into at least two subfamilies based upon their divergence in 5′ and 3′ untranslated regions. We showed previously that isocitrate lyase mRNA accumulates during late embryogeny and postgermination. Here, we present results which indicate that several isocitrate lyase genes are expressed at both stages of development. First, gene-specific probes were used to show that mRNAs encoded by representatives of both gene subfamilies accumulated in both late maturation stage embryos and in seedlings of B. napus. Second, a single B. napus isocitrate lyase gene, together with 3.5 kb and 1.4 kb of 5′ and 3′ flanking regions, respectively, was expressed in both embryos and seedlings of transgenic tobacco plants. The results indicated that accumulation of isocitrate lyase in late embryogeny and postgermination does not result from the alternate expression of distinct members of the gene family.