Walter Handro

Effect of plant growth regulators on the cellular growth and levels of intracellular protein, starch and polyamines in embryogenic suspension cultures of Pinus taeda

Somatic embryogenesis is the most important in vitro culture system for conifer propagation. However, Pinus taeda has been considered recalcitrant to somatic embryogenesis in commercial scale-up. The study of biochemical and physiological aspects of cell growth could lead to a better understanding of somatic embryogenesis in this species. In the present work, we investigated the cell growth dynamics, intracellular levels of proteins, starch and polyamines in suspension cultures of Pinus taeda established in plant growth regulator-free medium (BM0) and in medium supplemented with 2 μM 2,4-dichlorophenoxyacetic acid, 0.5 μM 6-benzylaminopurine and 0.5 μM Kinetin (BM2). Cell cultures growing in BM0 medium showed an increase in the sedimented cell volume from 3.77 to 17.73 ml after 24 days of culture. Those cultured in BM2 medium showed an increase in the sedimented cell volume from 4.23 to 25.17 ml after 20 days of culture. Intracellular proteins levels increased during the exponential growth phase and starch levels decreased until the exponential phase, followed by a synthesis up to the stationary phase, in both BM0 and BM2 media. Highest putrescine levels occurred in cultures growing in BM0 medium and this was associated with the low cellular growth.

Plant growth regulators and amino acids released by Azospirillum sp. in chemically defined media

Aims: To investigate the ability of Azospirillum sp., a facultative endophitic diazotrophic bacterium, to release plant growth regulators (PGR) such as polyamines, ethylene, indoleacetic acid and amino acids in both combined‐N and N‐free cultures.

Effects of auxins and cytokinins on tissue culture of Grateloupia dichotoma (Gigartinales, Rhodophyta)

The role played by plant growth regulators in algae is poorly known. In order to increase the knowledge about the function of auxins and cytokinins in seaweeds, explants such as apical and intercalary segments and callus-like structures (CLS) of Grateloupia dichotoma were cultured in semi-solid or liquid artificial media ASP 12-NTA. Two auxins, indole-3-acetic acid (IAA) and 2,4-dichlorophenoxyacetic acid (2,4-D), and one cytokinin, 6-benzylaminopurine (BA), at concentrations of 0.5 and 5.0 mg l−1 were tested. Moreover, IAA and BA were tested together at concentrations of 1:5 and 5:1 mg l−1. All treatments promoted the growth of CLS in intercalary segments; CLS from apical segments were significantly higher in treatments with 2,4-D or IAA:BA (1:5 mg 1−1). The morphogenetic responses for auxins and BA were opposite, auxins inhibited while BA promoted the formation of lateral branches; however, auxins promoted the elongation of such branches. The process of plant regeneration observed on CLS was stimulated significantly by treatment with high concentration of BA or IAA:BA (1:5 mg 1−1) in semi-solid and liquid media. The growth of upright axes was stimulated significantly by treatment with 2,4-D in semi-solid medium, and IAA:BA (1:5 mg l−1) in liquid medium. These results show the importance that plant growth regulators could have in the control of growth, morphogenetic processes and micropropagation in red algae.

Phenylpropanoid derivatives and biflavones at different stages of differentiation and development of Araucaria angustifolia

Chemical investigations carried out with tissues at different developmental stages of Araucaria angustifolia established the presence of E and Z isomers of octadecyl p-coumarate and octadecyl ferulate in undifferentiated callus; in the seedling stems, the source of explants, three biflavones of the amentoflavone-type were isolated, whereas the diterpene, trans-communic acid, was obtained from the seedling roots. Adult stems accumulated the benzaldehydes, vanillin, p-hydroxybenzaldehyde and coniferaldehyde; the lignans, pinoresinol, eudesmin and lariciresinol; and the isoflavones, cabreuvine and irisolidone.

Biochemical changes during seed development in Pinus taeda L.

Amino acids, polyamines, 3-indoleacetic acid (IAA), abscisic acid (ABA), buffer-soluble protein and starch contents and dry matter accumulation were analyzed in megagametophytes containing developing embryos during seed development in Pinus taeda. The highest total amino acids and polyamine contents occurred at the cotyledonary stage, followed by a significant decrease in the mature seed. Free polyamines exhibited higher levels than conjugated ones, with putrescine being the predominant type until the cotyledonary stage, and spermidine at the mature seed stage. IAA content increased continually from the globular stage reaching the maximum at the cotyledonary stage, followed by a decrease in the mature seed. The highest ABA level occurred at the globular stage, followed by a continuous reduction until stabilization at the pre-cotyledonary stage. Buffer-soluble protein and starch contents, and dry matter increased progressively during development, reaching their maximum values at the mature stage.

IAA, ABA, polyamines and free amino acids associated with zygotic embryo development of Ocotea catharinensis

The aim of this work was to study morphological and biochemical aspects during zygotic embryogenesis in O. catharinensis, by measuring changes in the endogenous concentrations of proteins, amino acids, polyamines (PAs), indole-3-acetic acid (IAA) and abscisic acid (ABA). Buffer-soluble and insoluble protein contents were determined by spectrometry, and amino acids, PAs, IAA and ABA concentrations were determined by high performance liquid chromatography. Total amino acid accumulation, predominantly asparagine, occurred when the embryo showed completely developed cotyledons, with posterior reduction in the mature embryo. This decrease in total amino acid concentration in the mature embryo may result from their use in storage␣as well as for LEA protein synthesis. Free putrescine (Put) concentration decreased, while free spermine (Spm) increased during embryo development. This suggest a role for Put in the initial phases of embryogenesis when high rates of cell division occur, while elevated concentration of Spm are essential from the middle to the end of embryo development, when growth is mainly due to cell elongation. An IAA peak in zygotic embryos occurred during initial development, suggesting a link between growth and cellular division as well as with the establishment of bilateral symmetry. ABA concentration declined during initial stages of development then increased at the mature embryo stage, suggesting a possible relationship with dormancy and recalcitrance characteristics. Our results show that changes in the phytohormones (IAA, ABA and PAs) concentrations in combination with amino acids are likely important factors determining the developmental stages of O.␣catharinensis zygotic embryos.

Somatic embryogenesis and plant regeneration in different organs ofEuterpe edulis mart. (Palmae): Control and structural features

Somatic embryogenesis and further plant regeneration were observed using zygotic embryos, young inflorescences and young leaves ofEuterpe edulis (Palmae) as explants. Both for the cultures of zygotic embryos and inflorescences, activated charcoal in the medium was essential for the establishment of viable cultures. Embryogenesis was induced by using a gelled basal medium with MS or Euwens salts supplemented by high 2, 4-D levels (50–100 mg L−1). The embryogenic process was direct without a callus stage. For further development, cultures with globular or post-globular embryos were transferred to the basal medium with 2-iP (2.5 mg L−1) and NAA (0.1 mg L−1). To convert embryos to plantlets, cultures were transferred to a third medium in which sucrose and salts were reduced to the half-strenght of the basal medium, without growth regulators. In the case of liquid medium, with either 2, 4-D or NAA (10–20 mg L−1). The developmental stage of each explant was critical for the induction of embryogenesis. The histological study of embryogenic cultures revealed that in the case of zygotic embryos, somatic embryos arise directly from the surface of the cotyledonar node, or from subepidermal tissues. In the inflorescences, a pro-embryogenic tissue is formed at the floral primordium region; in the leaves, the first morphogenic event is cell proliferation in the vascular parenchyma.

Free amino acid, protein and water content changes associated with seed development in Araucaria angustifolia

The free amino acid, protein, water and dry matter contents were determined during the seed development of Araucaria angustifolia. Soluble and insoluble proteins in the mature seed represent 4.2 % of the fresh matter. The embryonic axis stored the greatest amount of soluble proteins, while cotyledons both with the embryonic axis showed the largest quantities of insoluble proteins in the mature seed. The greatest concentration of free amino acids was detected during the stage when cotyledons start to develop. Glutamic acid, aspartic acid, alanine and serine were predominant in the whole seed while arginine, lysine and γ-aminobutyric acid were present in great amounts only in cotyledons and embryonic axis. Although megagametophyte was important as a source of free amino acids, it was not the major protein storage organ in the mature seed. In the embryogenetic process, the rise of cotyledons is closely related to physiological and biochemical changes.

Somatic embryogenesis and plant regeneration in embryo cultures of Euterpe edulis mart. (palmae)

The induction of somatic embryogenesis in embryo cultures of Euterpe edulis is described. The basal medium was composed of LS salts and Morel & Wetmore vitamins. Activated charcoal was added to prevent explant oxidation. 2,4-D higher than 50 mg/l was necessary for inducing embryogenesis which occurs 45–180 days after the start of cultures. Embryos arise directly from surface proliferating tissues on the matrix structure , without callus formation. The transfer of tissues with embryo clusters to medium with NAA plus 2iP, or without growth regulators, induces embryo development into plantlets.

Production, maintenance and plant regeneration from cell suspension cultures of Stevia rebaudiana (Bert.) Bertoni.

A method is described for producing and maintaining Stevia rebaudiana suspensions and regeneration of plants from calli derived from cell suspensions. Suspension cultures composed of isolated cells (ca. 10%) and cellular aggregates (5–100 cells) were obtained in 20–30 days by using friable callus as the initial inoculum in liquid mediā with BA (0.5 mg/l)+2,4-D (1.0 mg/l), and periodic filtering (100–500 μm sieves) with 6–7 days interval between subcultures. Cultures derived from actively growing calli are mainly diploid (2n=22) whereas those derived from senescent calli showed a wide variation in chromosome number (55–200). Stock cell suspensions which had been maintained for 3 years were plated on basal LS agar medium with BA (0.5 mg/l)+2,4D (0.5 mg/l) to form callus. Calli originating from predominantly 2n cell suspensions when transferred to medium with K (2.0 mg/l)+NAA (0.02 mg/l) were able to form buds. Shoot elongation and further rooting of isolated shoots was better on LS medium devoid of growth regulators. Variation in rooting capacity, plant vigour, morphological characters and chromosome number was found amongst regenerated plants.