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.     

Temporal and spatial gene expression of cytochrome B5 during flower and fruit development in olives

We report the characterisation of two cytochrome b5 genes and their spatial and temporal patterns of expression during development in olive, Olea europaea. A PCR-generated probe, based on a tobacco cytochrome b5 sequence, was used to isolate two full-length cDNA clones (cytochrome b5-15 and cytochrome b5-38) from a library derived from 13 WAF olive fruits. The cDNAs encoded proteins of 17.0 and 17.7 kDa, which contained all the characteristic motifs of cytochromes b5 from other organisms and exhibited 63% identity and 85% similarity with each other. The olive cytochrome b5-15 cDNA was then used as a probe for more detailed analysis. Southern blotting revealed a gene family of at least 4–6 members while northern blotting and in situ hybridisation showed a highly specific pattern of gene expression. Very low levels of cytochrome b5 mRNA were detected in tissues characterised by high rates of lipid accumulation, such as young expanding leaves, maturing seeds and ripening mesocarp. The cytochrome b5 genes were not induced at 6 °C and their response to ABA was relatively slow compared with fatty acid desaturase genes. In contrast, high levels of cytochrome b5 gene expression were found in young fruits at the pattern formation (globular/heart) stage of embryogenesis and in vascular and transmitting tissues of male and female reproductive organs. The data are consistent with a major role for cytochrome b5 in developmental processes related to plant reproduction in addition to being an electron donor to microsomal desaturases.     

Scanning electron microscopy of immobilizedHumicola lutea during semicontinuous production of acid proteinases

The morphology of the fungusHumicola lutea (strain 120–5), immobilized in polyacrylamide and polyhydroxyethylmethacrylate and used for the semicontinuous production of acid proteinases, was examined by scanning electron microscopy. The fungus developed a dense mycelium below the bead surface as well as in the bead interior after precultivation of entrapped spores. During maximal semicontinuous enzyme biosynthesis, formation of numerous large bulbous cells with a different shape was observed. Lysis of the cells was observed mainly in the centre of the gel beads after 13 successive fermentations with polyacrylamide-immobilized cells or after 21 re-uses of polyhydroxyethylmethacrylate-immobilized mycelia, respectively. Growth and changes in the cellular morphology of immobilizedH. lutea, accompanying biosynthesis of acid proteinases, were comparable in both gel matrices but mycelia immobilized in polyhydroxyethylmethacrylate maintained their productivity twice as long.     

Molecular and genetic analyses of flower homeotic genes ofArabidopsis

Recent genetic and molecular analyses usingArabidopsis has revealed basic mechanisms of floral pattern formation. Here is outlined a genetic model of flower morphogenesis. This shows that combinations of floral organ identity genes direct the organ type and the place in the flower bud. After molecular cloning of these genes, the hypothesis is supported at the molecular level. Molecular analyses of homologous genes from other plants show the same system of flower morphogenesis is shared widely among distantly related species.     

Differential expression of hoxa2a and hoxa2b genes during striped bass embryonic development

Here, we report the cloning and expression analysis of two previously uncharacterized paralogs group 2 Hox genes, striped bass hoxa2a and hoxa2b, and the developmental regulatory gene egr2. We demonstrate that both Hox genes are expressed in the rhombomeres of the developing hindbrain and the pharyngeal arches albeit with different spatio-temporal distributions relative to one another. While both hoxa2a and hoxa2b share the r1/r2 anterior boundary of expression characteristic of the hoxa2 paralog genes of other species, hoxa2a gene expression extends throughout the hindbrain, whereas hoxa2b gene expression is restricted to the r2-r5 region. Egr2, which is used in this study as an early developmental marker of rhombomeres 3 and 5, is expressed in two distinct bands with a location and spacing typical for these two rhombomeres in other species. Within the pharyngeal arches, hoxa2a is expressed at higher levels in the second pharyngeal arch, while hoxa2b is more strongly expressed in the posterior arches. Further, hoxa2b expression within the arches becomes undetectable at 60hpf, while hoxa2a expression is maintained at least up until the beginning of chondrogenesis. Comparison of the striped bass HoxA cluster paralog group 2 (PG2) genes to their orthologs and trans-orthologs shows that the striped bass hoxa2a gene expression pattern is similar to the overall expression pattern described for the hoxa2 genes in the lobe-finned fish lineage and for the hoxa2b gene from zebrafish. It is notable that the pharyngeal arch expression pattern of the striped bass hoxa2a gene is more divergent from its sister paralog, hoxa2b, than from the zebrafish hoxa2b gene. Overall, our results suggest that differences in the Hox PG2 gene complement of striped bass and zebrafish affects both their rhombomeric and pharyngeal arch expression patterns and may account for the similarities in pharyngeal arch expression between striped bass hoxa2a and zebrafish hoxa2b.     

PCR-generated cDNA library of transition-stage maize embryos: cloning and expression of calmodulin genes during early embryogenesis

One hundred maize zygotic embryos microdissected at the transition stage were used to construct a cDNA library after non-selective PCR (NS-PCR) amplification of whole cDNA populations. The library contains 2.3 × 10⁵ recombinants and two different calmodulin cDNAs were cloned using a heterologous probe from petunia. Calmodulin expression was confirmed throughout maize embryogenesis at the mRNA, amplified cDNA and protein levels. Sequence analysis suggests a maize origin for both clones and negligible nucleotide changes linked to PCR. This library is the first described for early plant embryos and represents a breakthrough to isolate genes involved in embryo differentiation.     

PCR cloning of Pseudomonas resinovorans polyhydroxyalkanoate biosynthesis genes and expression in Escherichia coli

A ca. 5.5-kb region of Pseudomonas resinovorans genome containing the polyhydroxyalkanoate (PHA) biosynthesis locus was sequenced. Three complete open-reading-frames (ORFs), i.e., phaC1_Pr, phaZ_Pr, and phaC2_Pr, were identified. Using this sequence information, phaC1_Pr was PCR-cloned from P. resinovorans genomic DNA and expressed in E. coli as shown by a Nile Red plate assay and gas chromatography/mass spectrometric analysis.     

Stage-related expression of mRNAs during pollen development in lily and tobacco

Homogeneous populations of developing microspores and pollen from anthers of lily (Lilium longiflorum Thumb.) and tobacco (Nicotiana tabacum L.) show a continuous production of biomass, reaching a maximum in young pollen. The rate of RNA synthesis was 460 fg · h^–1 in young binucleate cells, 138 fg · h^–1 in late binucleate cells and 56 fg · h^–1 in microspores. The mRNA population in developing pollen can be separated into three groups. In the first group, certain types of mRNAs are present at a constant level during all stages of development. A second group is characteristic of young pollen and increases quantitatively until anthesis. A third group is seen transiently; to this belong mRNAs present only before mitosis or at a distinct cell stage after mitosis. Some of the translation products of this latter group of mRNAs showed similarities between lily and tobacco on two-dimensional gels in respect of molecular weight and isolectric point, indicating that those mRNAs and proteins play a role in the regulation of pollen development.Abbreviations cDNA copy DNA - pI isolectric pointTo whom correspondence should be addressed.     

Microtubular organization during asymmetrical division of the generative cell inGagea lutea

Video microscopy and conventional or Confocal Laser Scanning Microscopy after DAPI staining and anti-α-tubulin labelling were used to study the asymmetrical division of the generative cell (GC) inGagea lutea. Pollen was cultured for up to 8 hr in a medium containing 10% poly (ethylene glycol), 3.0% to 3.8% sucrose, 0.03% casein acid hydrolysate, 15 mM 2-(N-morpholinoethane)-sulphonic acid-KOH buffer (pH 5.9) and salts. In the pollen grain, the GC had a spherical or ovoid shape and contained a fine network of intermingled microtubules. As the GC entered into the pollen tube, it assumed a cylindrical shape with a length often exceeding 250 μm. A cage of microtubules then developed around the nucleus. The presence of dense and thick microtubular bundles in front of the generative nucleus within the GC coincided with the translocation of the nucleus to the leading end of the GC. No pre-prophase band was ever detected, but a distinct prophase spindle of microtubules was formed. In some GCs a tubulin-rich dot became visible at each pole of the spindle. After nuclear envelope breakdown, the bundles of microtubules spread between the chromosomes and became oriented into parallel arrays. The spindle became shorter at metaphase, and there was no tubulin labelling at the site of the metaphase plate. At anaphase, the microtubular apparatus lost its spindle-shape and a bridge of prominent bundles of microtubules connected the two daughter nuclei. At telophase, the site of the cell plate remained unstained by the anti-α-tubulin antibody, but a distinct phragmoplast of microtubules was formed more closely to the leading nucleus, resulting in the formation of unequal sperm cells (SCs). The leading SC was up to 2.5 times smaller than the following SC and it contained a smaller or equal number of nucleoli.     

Molecular cloning, characterization and expression of atpA and atpB genes from Ginkgo biloba

The chloroplast ATP synthase (ATPase) utilizes the energy of a transmembrane electrochemical proton gradient to drive the synthesis of ATP from ADP and phosphate. The chloroplast ATPase α and β subunits are the essential components of multisubunit protein complex. In this paper, the full-length cDNA and genomic DNA of ATPase α (designated as GbatpA) and β (designated as GbatpB) subunit genes were isolated from Ginkgo biloba. The GbatpA and GbatpB genes were both intronless. The coding regions of GbatpA and GbatpB were 1530 bp and 1497 bp long, respectively, and their deduced amino acid sequences showed high degrees of identity to those of other plant ATPase α and β proteins, respectively. The expression analysis by RT-PCR revealed that GbatpA and GbatpB both expressed in tissue-specific manners in G. biloba and might involve in leaf development. The recombinant GbATPB protein was successfully expressed in E. coli strain using pET28a vector with ATPase activity as three times high as the control, and the results showed that the molecular weight of the recombinant protein was about 54 kDa, a size that was in agreement with that predicted by bioinformatics analysis. This study provides useful information for further studying on overall structure, function and regulation of the chloroplast ATPase in G. biloba, the so-called “living fossil” plant as one of the oldest gymnosperm species. These authors contributed equally to this work     

Changes in endogenous polyamines during flower development in two diverse species of rose

Changes in the concentrations of endogenous free, conjugated and bound polyamine were determined in petals of two different species of rose, viz. Rosa damascena and Rosa bourboniana, from small bud (stage 1) till full bloom (stage 8). High free putrescine and spermidine concentrations were associated with early stages of flower development and then decreased in R. damascena. At full bloom, the concentration of free putrescine was higher than rest of the polyamines measured. A steady increase in conjugated putrescine, spermidine and spermine was observed during entire period of flower development with predominance of conjugated putrescine at full bloom. In R. damascena the bound spermine was higher than rest of the polyamines during full bloom. In R. bourboniana, during the early stages of flower development, similar situation was observed, however, at full bloom, free spermidine concentration was higher than rest of the polyamines. In this species, the concentration of conjugated and bound spermine was higher than rest of the polyamines during full bloom. Polyamine concentrations were generally lower in the petals of R. bourboniana than R. damascena which may be due to genotypic differences. The possible roles of the observed polyamines are discussed in relation to flower development.IHBT Communication no, 0345.     

Genetic analyses of signalling in flower development using Arabidopsis

Flower development can be divided into four major steps: phase transition from vegetative to reproductive growth, formation of inflorescence meristem, formation and identity determination of floral organs, and growth and maturation of floral organs. Intercellular and intracellular signalling mechanisms must have important roles in each step of flower development, because it requires cell division, cell growth, and cell differentiation in a concerted fashion. Molecular genetic analysis of the process has started by isolation of a series of mutants with unusual flowering time, with aberrant structure in inflorescence and in flowers, and with no self-fertilization. At present more than 60 genes are identified from Arabidopsis thaliana and some of them have cloned. Although the information is still limited, several types of signalling systems are revealed. In this review, we summarize the present genetic aspects of the signalling network underlying the processes of flower development.     

Role of auxin in regulating Arabidopsis flower development

To elucidate the role of auxin in flower morphogenesis, its distribution patterns were studied during flower development in Arabidopsis thaliana (L.) Heynh. Expression of DR5::GUS was regarded to reflect sites of free auxin, while immunolocalization with auxin polyclonal antibodies visualized conjugated auxin distribution. The youngest flower bud was loaded with conjugated auxin. During development, the apparent concentration of free auxin increased in gradual patterns starting at the floral-organ tip. Anthers are major sites of high concentrations of free auxin that retard the development of neighboring floral organs in both the acropetal and basipetal directions. The IAA-producing anthers synchronize flower development by retarding petal development and nectary gland activity almost up to anthesis. Tapetum cells of young anthers contain free IAA which accumulates in pollen grains, suggesting that auxin promotes pollen-tube growth towards the ovules. High amounts of free auxin in the stigma induce a wide xylem fan immediately beneath it. After fertilization, the developing embryos and seeds show elevated concentrations of auxin, which establish their axial polarity. This developmental pattern of auxin production during floral-bud development suggests that young organs which produce high concentrations of free IAA inhibit or retard organ-primordium initiation and development at the shoot tip. Electronic Supplementary Material Supplementary material is available for this article at This paper is dedicated to Orna Aloni for continuous support and management over many years.