Onset of desiccation tolerance during development of the barley embryo

We have investigated events which take place in the developing barley (Hordeum vulgare L.) embryo during its acquisition of desiccation tolerance. Excised embryos are capable of precocious germination as early as 8 d after pollination (DAP). At this age, however, they are not capable of resisting a desiccation treatment which induces a loss of 96–98% of their initial water content. At 16 DAP the embryos germinate despite the drastic drying treatment. The pattern of in-vivo and in-vitro proteins synthesized by the developing embryos from 12 DAP (desiccation-intolerant) and 16 DAP (desiccation-tolerant) were compared. A set of 25–30 proteins was identified which is denovo synthesized or enhanced during the developmental period leading to desiccation tolerance. Abscisic acid (ABA; 100 M) applied in vitro for 5 d to 12-DAP embryos induces desiccation tolerance and represses a subset of polypeptides preferentially associated with 16-DAP embryos. During in vitro culture of barley embryos ABA stimulates the appearance of a set of proteins and prevents the precocious germination allowing embryogenesis to continue in vitro. It also suppresses a set of germination-related proteins which appear 4 h after the incubation of the dissected embryo on a germination medium without ABA. Almost all mRNAs remain functional for translation when isolated embryos are dried at the desiccation-intolerant and tolerant stages of embryo development.Abbreviations ABA abscisic acid - DAP days after pollination - GM germination medium - poly(A)RNA polyadenylated RNA - SDS sodium dodecyl sulfate     

Analysis of storage proteins in normal and aborted seeds from embryo-lethal mutants of Arabidopsis thaliana

The major storage proteins isolated from wild-type seeds of Arabidopsis thaliana (L.) Heynh., strain Columbia, were studied by sucrose gradient centrifugation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Both the hypocotyl and cotyledons of mature embryos contained abundant 12 S (cruciferin) and 2 S (arabin) proteins that appeared similar in size and subunit composition to the cruciferin (12 S) and napin (1.7 S) seed-storage proteins of Brassica napus. The 12 S protein from Arabidopsis was resolved by SDS-PAGE into two groups of subunits with approximate relative molecular weights of 22–23 kDa (kilodalton) and 30–34 kDa. These polypeptides accumulated late in embryo development, disappeared early in germination, and were not detected in other vegetative or reproductive tissues. Accumulation of the 12 S proteins in aborted seeds from nine embryo-lethal mutants with different patterns of abnormal development was studied to determine the extent of cellular differentiation in arrested embryos from each mutant line. Abundant 12 S proteins were found in arrested embryos from two mutants with late lethal phases, but not in seven other mutants with lethal phases ranging from the globular to the cotyledon stages of embryo development. These results indicate that the accumulation of seed-storage proteins in wild-type embryos of Arabidopsis is closely tied to morphogenetic changes that occur during embryo development. Embryo-lethal mutants may therefore be useful in future studies on the developmental regulation of storage-protein synthesis.Abbreviations kDa kilodalton - M_r relative molecular weight - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate     

Immunomodulation of ABA function affects early events in somatic embryo development

 Immunomodulation of abscisic acid (ABA) function during somatic embryogenesis of Nicotiana plumbaginifolia has been used to demonstrate for the first time the effect of this phytohormone on early embryonic events. A homozygous transgenic line constitutively expressing an anti-abscisic acid (ABA) single chain fragment variable antibody in the endoplasmic reticulum was established. Development of somatic embryos from the transgenic line and the wild type was compared. The ABA biosynthesis mutants aba1 and aba2 and wild type cultures treated with the ABA biosynthesis inhibitor fluridone were also used for the comparative investigations. The development of embryonic structures was disturbed in the early stages of all cultures in which ABA function was blocked or which were ABA-deficient. After ABA complementation of the in vitro cell cultures normal somatic embryo development was restored. Received: 23 May 2000 / Revision received: 1 September 2000 / Accepted: 4 September 2000     

Gene Expression in Developing Zea mays Embryos: Regulation by Abscisic Acid of a Highly Phosphorylated 23- to 25-kD Group of Proteins

We have earlier identified a set of proteins of 23 to 25 kilodaltons (kD), covering an isoelectric point (pI) range of 6.2 to 8.2, which accumulate gradually during normal embryogenesis of Zea mays and disappear in early germination. These polypeptides can be induced prematurely in immature embryos by abscisic acid (ABA) treatment. We report here that the more acidic protein forms are due to post-translational phosphorylation of at least two polypeptides of 23 kD, pI 8.2 and 25 kD, pI 8.0. A polyclonal antiserum was obtained which recognizes all forms of both the 23-kD and 25-kD polypeptides. Recovery of cDNA clones corresponding to these proteins was accomplished by hybridization with cDNA made from size-selected mRNA enriched for these sequences. Hybrid selection experiments demonstrate that clone MA12 specifically hybridizes with mRNAs encoding the 23-kD and 25-kD protein set which are recognized by the antiserum. By Northern hybridization analysis, the RNA encoded by clone MA12 is shown to accumulate in mature embryos and to be induced in young embryos upon ABA incubation.     

The Ascorbate-deficient vtc-1 Arabidopsis Mutant Shows Altered ABA Accumulation in Leaves and Chloroplasts

Abscisic acid (ABA) accumulation has been analyzed in irrigated and water-stressed wild-type and the vtc-1 mutant of Arabidopsis thaliana, which shows an ascorbate deficiency in leaves of approximately 60%. The amounts of ABA increased progressively up to 2.3-fold in water-stressed wild-type plants, whereas levels were kept at low levels in the irrigated plants. In contrast, initial increases followed by a sharp decrease of abscisic acid levels were observed in water-stressed vtc-1 mutants. Furthermore, the levels of this phytohormone increased up to fivefold in irrigated mutants. This differential accumulation of ABA in the mutant strongly correlated with the ascorbate redox state, but not with ascorbate levels. Changes in ABA levels in leaves paralleled those of chloroplasts. Immunolocalization studies showed a differential ABA accumulation in chloroplasts of vtc-1 mutants, which displayed the highest ABA labeling in irrigated plants. Our results indicate an altered pattern of ABA accumulation in the vtc-1 mutant compared to the wild type, under both irrigated conditions and water-stress conditions, which is strongly dependent on the ascorbate redox state.     

Somatic embryogenesis in Encephalartos cycadifolius

Callus cultures of Encephalartos cycadifolius were established from zygotic embryo explants on a modified B5 medium containing 1 mg l^–1 2,4-D and 1 mg l^–1 kinetin. Callus was transferred to media containing various combinations of 2,4-D and kinetin for improvement of somatic embryogenesis. Somatic embryos were produced on media with several growth regulator combinations. The somatic embryos developed from proembryos, which developed long suspensors. A dicotyledonary embryo formed at the distal end of the suspensor. The embryos turned green in light. When transferred to a medium containing 1 mg l^–1 ABA the somatic embryos matured. The suspensors desiccated and these embryos rooted when transferred to a medium without phytohormones.Abbreviations ABA abscisic acid - 2,4-D 2,4-dichlorophenoxyacetic acid     

The effects of ancymidol,abscisic acid,uniconazole and paclobutrazol on somatic embryogenesis of asparagus

Summary The effects of ancymidol, abscisic acid (ABA), uniconazole, and paclobutrazol on asparagus somatic embryogenesis were evaluated. Calli induced from seedlings of genotype G447 were transferred to embryo induction medium (MS plus 3% sucrose, 0.1 mg L^–1 NAA, 0.5 mg L^–1 kinetin and 3% gelrite), with different concentrations of these compounds. After 8 weeks, the recovered bipolar or globular embryos were placed on germination medium (MS plus 6% sucrose, 0.1 mg L^–1 NAA, 0.1 mg L^–1 kinetin, 0.75 mg L^–1 ancymidol, 40 mg L^–1 adenine sulphate dihydrate, 0.17 mg L^–1 sodium phosphate monobasic and 3% gelrite) for conversion to plantlets. Inclusion of ancymidol, ABA, uniconazole and paclobutrazol in the embryo induction medium did not affect the total number of somatic embryos produced relative to the control without these compounds. However, ancymidol, ABA and uniconazole significantly improved embryo development by increasing the production of bipolar embryos 250–750% and decreasing that of globular embryos 8–35% relative to the control. The bipolar embryos produced with any of the four compounds in the embryo induction medium converted to plantlets at rates 700–1100% greater than the control. None of the globular embryos converted to plantlets. Ancymidol (0.75 mg L^–1) and ABA (0.05 mg L^–1) were the most effective treatments; 61 and 46 bipolar embryos g^–1 callus were produced, and 38% and 37% of the bipolar embryos converted to plantlets, respectively. These results indicated that ancymidol, ABA, uniconazole and paclobutrazol significantly enhanced the production of asparagus somatic embryos and their conversion to plantlets, and ancymidol and ABA were more effective than uniconazole and paclobutrazol.Abbreviations Ancymidol a-cyclopropyl-a(4-methoxyphenyi)-5-pyrimidine methanol - NAA 1-naphthaleneacetic acid - Paclobutrazol I-(4-chlorophenyl)-4,4-dimethyl-2(1H-1,2,4-triazol-1-yl)-pentan-3-ol - Uniconazole (E)-(p-chlorophenyl)-4,4-dimethyl-2-(1,2,4-triazol-1-yl)-1-pentan-3-ol - ABA abscisic acid - GA gibberellic acid     

Abscisic acid induction of cloned cotton late embryogenesis-abundant (Lea) mRNAs

Summary Earlier studies found that cotton (Gossypium hirsutum L.) cotyledons contain several mRNAs which are more abundant during late embryogenesis than in mid-embryogenesis or early germination. They are here termed Late embryogenesis-abundant mRNAs, encoded by Lea loci. Complementary DNA clones for 18 such mRNA sequences, defined at a hybridization criterion of T_m-15°C, were identified in a mature embryo cDNA library by differential cDNA hybridization. At a lower hybridization criterion, some sequence homology was found within several of these cloned Lea mRNA sequences. Each Lea mRNA sequence comprises 0.04–1.3% of mature embryo poly(A)⁺ mRNA, a level ten-fold to several hundred-fold higher than in young embryo or 24 h seedling poly(A)⁺ mRNA. Of 18 Lea mRNA sequences examined in cultured young embryos, the level of at least 13 are specifically increased by exogenous abscisic acid (ABA), several to a level near that in normal mature embryos. However, the abundance of several of the sequences does not appear to be significantly modulated by ABA. The LEA polypeptides encoded by 10 Lea mRNA sequences were identified by hybrid-arrested translation. They include most of the late embryogenesis-abundant, ABA-inducible, polypeptides previously identified. Preliminary results suggest that many of the individual Lea mRNA sequences are transcribed from 1–3 genes in each of cotton's two subgenomes.