Effects of floury-2 locus on zein accumulation and RNA metabolism during maize endosperm development

Zein accumulation patterns during mutant and normal maize endosperm development were determined. Accompanying an increase in the number of floury-2 alleles present in the endosperm was a well-defined stepwise depression in zein accumulation. Analysis of the zein accumulated in endosperms containing zero, one, two, and three doses of the floury-2 allele by sodium dodecylsulfate-polyacrylamide gel electrophoresis revealed a proportionate reduction in the two major zein components, Z1 and Z2. In contrast, the relative proportions of the minor zein bands were altered. Membrane-bound polysomes isolated from kernels of floury-2 and normal maize were predominantly large size classes. The presence of increasing numbers of the floury-2 allele in the endosperm decreased recovery of membrane-bound polysomal material in a stepwise fashion. However, major alterations in polysome size-class distributions were not observed. The reduction in membrane-bound polysome material correlated linearly with reductions in in vitro zein synthesis and in vivo zein accumulation.     

Genetic control of a membrane component and zein deposition in maize endosperm

Summary An association is reported between an albuminlike protein (b-70) and the semidominant locus fluory-2 (fl2) which reduces the level of zein polypeptides in the maize endosperm. The protein b-70 is present at low level in wild-type endosperms and derppressed in fl2 endosperms. A correlation between the doses of the fl2 allele and the b-70 level has been found. Moreover a concomitant loss of the regulatory role of fl2 on zein level and on b-70 overproduction is evident when fl2 is genetically associated with o2 and o7, two recessive alleles of other zein regulatory loci. Protein b-70 is located on the membrane of the protein body where zein polypeptides accumulate. The existence of a functional relationship between this protein and the zein-secretory system is suggested or, as an alternative, that b-70 is a type of storage protein different from zeins, repressed in normal endosperms and derepressed by the fl2 allele.Abbreviations DAP days after pollination - ER endoplasmic reticulum - RER rough endoplasmic reticulum - DTT dithiothreitol - EDTA ethylene-diamintetra-acetate - NADH nicotinamide-adenine dinucleotide, reduced - PMSF phenylmethylsulfonyl-fluoride - SDS sodium dodecylsulfate - PAGE polyacrylamide gel electrophoresis - PBS phosphate buffered saline (0.15 M NaCl, 0.01 M Na phosphate, pH 6.8)     

Effect of sucrose accumulation on zein synthesis in maize starch-deficient mutants

Starch-deficient maize (Zea mays) mutants, brittle-2 (bt2), brittle-1 (bt), and shrunken-2 (sh2), which accumulated large quantities of sucrose, had less than normal amounts of zein (the major storage protein) in the endosperm. Reduction of zein synthesis in the starch-deficient mutants was negatively correlated with the accumulation of sucrose and low osmotic potential in the developing endosperms. When radioactive amino acids were injected into the shank below ears that segregated for the starch-deficient mutant and normal kernels at 28 days post-pollination, mutant kernels absorbed only ca 22–36% of the labelled amino acids found in their normal controls. Thus, a low osmotic potential in the mutant endosperm may favour water movement but reduce solute movement. The inability of amino acids to move into the mutant endosperms, therefore, in part explains the reduction of zein accumulation in starch-deficient mutant endosperms.     

Stable endosperm cell suspension cultures from wild-type and opaque-2 maize

Stable cell suspension cultures have been established from immature endosperms of A69Y wild-type and opaque-2 maize (Zea mays L.). Cultured cells are capable of storage protein (zein) synthesis and accumulation throughout the growth period. Electrophoretic patterns of zeins show, for opaque-2 cells, the preferential inhibition of the accumulation of 22 kDa peptides typical of the mutation. Viable protoplasts, able to regenerate cell walls, as well as to divide and to express foreign DNA in transient expression experiments, can be obtained with high yields from cultures of both genotypes.Abbreviations 02 opaque-2 - wt wild-type - DAP days after pollination - PCV packed cell volume - f.w. fresh weight - SDS sodium dodecyl sulphate - PAGE polyacrylamide gel electrophoresis - PEG polyethylene glycol - CAMV cauliflower mosaic virus - CAT chloramphenicol-acetyl-transferase     

A proposed role of zein and glutelin as N sinks in maize

Zea mays grown with high levels of N fertilizer transports more sucrose into kernels than with low N. Sucrose translocation was greatest in genotypes with the highest capacity to deposit nitrogenous compounds as zein and glutelin in the kernel. These two proteins combined contain about 80% of the total N in the kernel and about 60% of the total N in the plant at maturity. They appear to serve as a functional N sink for the deposition of nitrogenous compounds. As the N sink capacity increases with additional available N fertilizer, more sucrose is transported into the kernel, resulting in increased kernel weight and grain yield. Zein functions as a more dynamic N sink than glutelin because the synthesis of zein is readily manipulated by N fertilization and genetic means. Increases in N deposition in the normal endosperm induced by N fertilizer are confined primarily to zein. Early termination of zein accumulation in the opaque-2 mutant results in a reduction of sucrose movement into kernels. By using plants heterozygous for normal and opaque-2 in these studies, interplant variability was eliminated and the hypothesis relating the kernel N sink capacity to productivity was strengthened.     

Influence of genotype and texture on zein content in endosperm of maize grains

The effect of genotypes and texture on the content of proteins in maize grains was examined by assessing absolute amounts of six protein fractions in the whole endosperms of four wild‐type lines with high protein content and four quality protein maize (QPM) varieties and for hand‐dissected hard and soft endosperm regions from eight other lines. As previously reported for six wild‐type lines and their opaque‐2(o2) versions, zeins were predominant for all genetic backgrounds and all types of endosperms. From these data and others the amounts of zeins and true proteins (crude proteins free of non‐protein nitrogen) in developing and mature endosperms of wild‐type lines were correlated. The data points for zeins from hard endosperms lay between the regression line and the upper limit of confidence area. Those for zeins from soft endosperms were located at the lower part of confidence area and on a level with the points corresponding to the most immature endosperms. Furthermore, some data points for zeins from o2 and QPM samples lay near the lower limit while the others were outside the confidence area. This suggested an initial zein accumulation dependent on the genotype at a low relative rate, followed by an accumulation at higher rate. The conditions used for isolating and quantitating zeins are discussed.     

Characterization of a maize endosperm culture expressing zein genes and its use in transient transformation assays

Summary An endosperm derived tissue culture of maize (Zea mays L.) variety A636 has been characterised for its ability to synthesize zein protein and respond to a zein gene regulatory element. Western analysis with zein specific antibodies revealed the distinct presence of zein proteins of the 15, 19 and 21 kDa classes in this tissue, in contrast to an embryo-derived Black Mexican Sweet variety tissue culture which exhibited no zein proteins. Transient transformation studies with a cauliflower mosaic virus 35S promoter and luciferase reporter gene construct demonstrate that protoplasts from this tissue culture, but not from the embryo-derived culture, respond positively to the potential enhancer which is located approximately 300 base pairs upstream of the coding region in most zein genes of maize, thus establishing the usefulness of this culture for studies of tissue specific gene regulation.Abbreviations MS Murashige and Skoog - CaMV cauliflower mosaic virus - BMS Black Mexican Sweet - 2,4-D 2,4-dichlorophenoxy — acetic acid - DAP days after pollination - SDS sodium dodecyl sulfate - PAGE polyacrylamide gel electrophoresis - MES 2-morpholinoethane-sulfonic acid - Hepes N-2-hydroxyethylpiper-azine-N-2-ethansulfonic acid - Tris Tris-(hydroxymethyl)-aminomethane - EDTA ethyl-enediaminetetra-acetic acid disodium salt - PEG polyethylene glycol     

Characterization of polysomes and incorporation in vitro of leucine and lysine in normal and opaque-2 zea mays endosperm during development

Polysome preparations obtained from opaque-2 and normal maize endosperms during development did not show any significant difference in sedimentation coefficient or nucleotide composition. The pattern of incorporation in vitro of lysine and leucine, however, differed quite distinctly in these two preparations. During early stages of maturity the polysomes from opaque-2 incorporated substantially more lysine and less leucine as compared with those from normal maize. Although the trend was reversed at 25 days post-pollination, this did not result in any significant zein accumulation since very little total protein was synthesized after that stage in opaque-2 maize endosperm. It is, therefore, suggested that the opaque-2 gene exerts a regulatory control on mRNA synthesis, required for zein formation at early stages of maturation.     

Purification and properties of an endospermic protein of maize associated with the Opaque-2 and Opaque-6 genes

Maize endosperms accumulate during development a large amount of storage proteins (zeins). The rate of zein accumulation is under the control of several regulatory genes. Two of these, the opaque-2 and opaque-6 mutants, lower the zein level, thus improving the nutritional quality of maize meals. An endosperm protein of Mr 32 000 (b-32) appears to be correlated with the zein level. The b-32 protein is encoded by the opaque-6 gene which, in turn, is activated by opaque-2. We report the purification, amino-acid composition and peptide map of b-32 protein. Furthermore we demonstrate that the protein exists as a monomer likely located in the soluble cytoplasm. As a step towards the isolation of a complementary-DNA clone for b-32 protein, the purification of its corresponding mRNA is described.Abbreviations b-32 endosperm protein of M_r 32000 - cDNA complementary DNA - EDTA ethylenediaminetetraacetic acid - O2, O6 opaque 2, opaque-6 genes - PMSF phenylmethylsulfonylfluoride - RSP reduced soluble proteins - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Expression of zein in long term endosperm cultures of maize

Continuous cultures, established 10 days after pollination from endosperms of inbred A636 Zea mays (L.) were extracted 21 months later with aqueous ethanol. The solubilized proteins were analyzed by poly-acrylamide-sodium dodecyl sulfate gel electrophoresis. Two protein bands co-migrated with zein, the major storage protein of maize. Immunoblotting of the gel followed by incubation of the immobilized proteins with anti-zein IgG provided evidence that the polypeptides were in fact zein. Electron microscopic studies showed that the cultures contained cells with protein bodies as found in developing endosperms. The protein bodies could be isolated from the cultures and were shown to contain zein. We conclude that the long term cultures described here synthesize zein and deposit it in the form of protein bodies of the type found in developing endosperms. Thus, certain endosperm characteristics and the production of tissue-specific proteins are retained in prolonged culture.     

Role of Auxin in Maize Endosperm Development (Timing of Nuclear DNA Endoreduplication,Zein Expression,and Cytokinin)

The timing of developmental events and regulatory roles of auxin were examined in maize (Zea mays L.) endosperms. Zeatin, zeatin riboside, and indole-3-acetic acid (IAA) levels were determined by enzyme-linked immunosorbent (ELISA). Zeatin and zeatin riboside increased to maximal concentrations at an early stage (9 d after pollination [DAP]), corresponding to the stage when cell division rate was maximal. In contrast, IAA concentration was low at 9 DAP and abruptly increased from 9 to 11 DAP, thus creating a sharp decline in the cytokinin to auxin ratio. Coincident with the increase in IAA was an increase in DNA content per nucleus, attributed to postmitotic DNA replication via endoreduplication. Exogenous application of 2,4-dichlorophenoxyacetic acid (2,4-D) at 5 or 7 DAP hastened the time course of DNA accumulation per nucleus and increased the average nuclear diameter, whereas 2-(para-chlorophenoxy)isobutyric acid delayed such development. Exogenously applied 2,4-D hastened the accumulation of the zein polypeptides of apparent molecular masses of 12, 14, and 16 kD and the expression of mRNA hybridizing with a zein DNA probe. We conclude that an abrupt increase in auxin induces cellular differentiation events in endosperm, including endoredupliction and expression of particular zein storage proteins.     

Genes for zein subunits on maize chromosone 4

This paper maps nine genes coding for zein subunits on maize chromosome 4. Six of them (Zp6h, Zp10, Zp14, Zp15, Zp22) encode for subunits with a molecular weight of 22 Kd (kilodaltons), while three (Zp27, Zp28, Zp30) code 20-kd subunits. The six 22-kd related genes are not contiguous but are scattered on both chromosome arms, whereas Zp27, Zp28, and Zp30 are more tightly linked in the chromosome short arm in a segment 5 crossover units long. The organization of zein genes on chromosome 4 shows a close analogy with that of zein loci on chromosome 7. This suggests that both maize chromosomes evolved by duplication of short segments.     

Influence of opaque-2 and floury-2 genes on formation of proteins in particulates of corn endosperm

Protein-rich subcellular particulates were isolated by zonal centrifugation from homogenates of endosperms of normal, opaque-2, and floury-2 mutant corn (Zea maize) kernels at different stages of development. In early stages the high lysine mutants vary from normal corn by greater production of a glutelin protein not associated with the matrix. This protein is high in lysine and may become a component of matrix glutelin at later stages of maturity. Differences in size and structure of zein-rich protein bodies were observed in the mutant strains when compared with normal corn. Enhanced production of nonmatrix glutelin as well as the reduction in synthesis of lysine-deficient zein is responsible for the improved lysine content of the mutant endosperms at early stages of development.     

Linkage relationships between regulatory and structural gene loci involved in zein synthesis in maize

Summary The synthesis of at least 15 zein polypeptides is under the control of regulatory gene loci. One of these, Opaque-2 (chromosome 7, position 16) strongly reduces the zein accumulation without modifying the zein molecular components. The linkage relationship between the regulatory gene 02 and the 5 structural loci (Zp1, Zp2, Zp3, Zp6, Zp12) segregating with sample Mendelian ratios have been studied. Zp1, Zp2, Zp3 are closely linked to each other; moreover this gene cluster is located on chromosome 7 at 5.5 cM from the Opaque-2 locus. The structural loci Zp6 and Zp12 are not linked with each other, with the 02 locus or with Zp1, Zp2, Zp3. From our data it follows that the zein structural genes are located in at least three positions on the maize genome. The scattering in the genome of the genes controlled by the Opaque-2 locus suggests a transacting role for this regulatory element.