María Luz Centeno

Relationships between hormonal contents and the organogenic response in Pinus pinea cotyledons

Isolated cotyledons from Pinus pinea L. germinated embryos cultured in vitro showed shoot organogenesis in response to treatment with 4.4 µM N 6 -benzyladenine (BA). In late germination phases, the extent of the response onset decreased and adventitious buds were redistributed to the basal zone of the cotyledons. To understand these two events, analyses of indole-3-acetic acid (IAA) and several cytokinins have been carried out in apical and basal portions of cotyledons taken at four different culture periods of the embryos on germination medium (0, 2, 4 or 6 d). The highest endogenous content of all hormones, except N 6 -isopentenyladenosine, was found in the most responsive explants, those that were taken from 0-d-old cultured embryos. Apical portions of cotyledons taken from 0 to 4-d-old cultured embryos showed a reduction in the content of IAA and several cytokinins, but basal portions did not show the same pattern. BA dose-response curves were made to explain the loss of caulogenic potential with the age of the explants. The results suggested the combination of two factors, changes in the endogenous hormonal content in original explants and loss of their sensitivity to exogenously applied BA, as the cause for the reduction of the ability of Pinus pinea cotyledons to form adventitious buds.

Could plant hormones be the basis of maturation indices in Pinus radiata

Abstract Maturation and phase change in woody plants are developmental processes at present poorly understood, especially from a physiological point of view. Maturation indices, such as phytohormones, could be used to understand more about the events that accompany the increase in the developmental state and to choose optimal conditions in order to improve forest programs and make them more profitable. In order to determine this putative index, the contents in abscisic acid-like substances (ABA-like), indole-3-acetic acid (IAA) and several cytokinins (Cks) were analysed in terminal and axillary buds of Pinus radiata trees with different developmental states to compare their phytohormonal status. An increase in the content of some zeatin-type (Z-type) Cks, and a decrease in isopentenyladenine-type (iP-type) Cks levels throughout maturation were shown both in terminal and axillary buds. This fact allowed us to consider the ratio iP-type/Z-type Cks, which decreased in parallel with the increasing developmental state of the tree, as a maturation index. According to the results, ABA-like compounds and IAA contents could not be considered as a maturation index in Pinus radiata , even though similar patterns were in fact found between the two kinds of buds.

Rapid responses of C14 clone of Eucalyptus globulus to root drought stress: Time-course of hormonal and physiological signaling.

The responses of juvenile plants of forest crops to drought stress are a key stage in the survival of forest populations. In this work, a suitable experimental system to study the early drought resistance mechanisms and signaling in a drought-tolerant clone (C14) of Eucalyptus globulus Labill is proposed. This system, using hydroponic culture and an osmotic agent, polyethylene glycol 8000, was demonstrated to induce severe stress in the root area, affecting the responses of the plantlets at the aerial level. These responses were very fast, beginning only 3h after the induction of stress, and the results highlight the roles of xylematic abscisic acid (ABA) and pH changes over other signals, such as cytokinins, as early chemical signals in rapid water stress. The relationship between these chemical factors, ABA and pH, and the physiological and water parameters observed were significant, supporting their proposed principal role. This work aids our understanding of underlying responses to hydrological limitations of forest crops, and provides valuable information for further physiological and molecular studies of water stress in this and other tree species.

Alterations in endogenous levels of cytokinins following grafting of Pinus radiata support ratio of cytokinins as an index of ageing and vigour

Markers for ageing or maturation in woody plants provides the possibility of identifying genotypes with a prolonged juvenile phase, or to evaluate reinvigoration procedures, such as grafting of adult material. This study focuses specifically on cytokinins (Cks) as markers, due to their role in the transition process from juvenile to adult states. Previous reports from our group disclosed that the ratio of isopentenyladenine-type (iP-type) to zeatin-type (Z-type) Cks decreases during tree maturation, a maturation and ageing index being likely in Pinus radiata. Based on these results, Cks were tested in terminal buds of adult and grafted adult P. radiata material to corroborate the importance of the aforementioned balance as an index in the reinvigoration process of adult trees associated with grafting procedures. Results revealed the reversion of this index pattern parallel to the reactivation of some juvenile traits, namely, increasing values of the ratio throughout the reinvigoration process. According to previous results, however, the opposite was the case during the reverse process. This fact allowed us to validate the iP-type/Z-type Ck ratio as an ageing and vigour index.

Benzyladenine metabolism and temporal competence of Pinus pinea cotyledons to form buds in vitro

Germination negatively affects adventitious shoot formation induced by cytokinins in pine cotyledons. To investigate the causes of this decrease in the organogenic response, uptake and metabolism of benzyladenine (BA) were studied in stone pine cotyledons (Pinus pinea) isolated from in vitro germinating embryos and cultured in bud induction medium. As embryos grew, cotyledons showed a progressive decrease in the amount of BA taken up from the medium. BA was barely metabolized; however, a BA metabolite previously undescribed in conifers was found. It was identified as a glucoside of the BA riboside, a type of metabolite recently described in other gymnosperms. Data revealed that differences in the organogenic capacity of P. pinea cotyledons associated with embryo germination are related primarily to their ability to absorb BA from the bud induction medium.

Caulogenic induction in cotyledons of stone pine (Pinus pinea): relationship between organogenic response and benzyladenine trends in selected families.

Adventitious bud formation in stone pine cotyledons cultured in the presence of benzyladenine (BA) has been proposed as a model for the study of in vitro shoot organogenesis in conifers. This is because of its advantageous characteristics including the requirement of only one plant growth regulator (BA), the synchronous fashion of its induction, and the homogeneity and low degree of differentiation of cotyledons. Although optimal culture conditions have been developed and are currently in use, we still lack data for BA dynamics in cotyledons cultured under these conditions, and the morphological description of the early induction stages has not, until now, been approached from a histological perspective. Consequently, this is the focus of the present report. Additionally, we examined uptake and metabolism of BA in cotyledons from two selected families, previously characterized by, and selected for, the difference in the magnitude of their organogenic response. Media transfer experiments established that cotyledons should be in contact with 44.4 microM BA for at least 6h to obtain any caulogenic response (minimum shoot-induction period). Histological observations, carried out here for the first time in this species, determined that meristemoid structures had already begun to appear in explants within 12 h of culture. Moreover, results from the BA uptake and metabolism experiments indicated that the point at which explants reached the maximum concentration of active forms of BA (276.60 microM at 6 h) and the onset of the determination phase of shoot organogenesis were directly related. A direct relationship was also observed between the intensity of the caulogenic response in cotyledons from families 36 and 61 and the endogenous concentration of BA and its riboside at the start of the induction phase. Hence, family 36, characterized by its higher bud production, reached concentrations of 251.56 microM, while family 61, selected for its low bud-producing trait, only attained 175.80 microM. Finally, a correlation was observed between 6-benzylamino-9-[O-glucopyranosyl-(1-->3)ribofuranosyl]-purine values and the magnitude of the shoot organogenesis response.

Uptake, Distribution, and Metabolism of 1-Naphthaleneacetic Acid and Indole-3-Acetic Acid During Callus Initiation From Actinidia deliciosa Tissues

Abstract. 1-Naphthaleneacetic acid (NAA) and 6-benzyladenine (BA) were required for in vitro callus formation at the basal edge of kiwifruit (Actinidia deliciosa [A. Chev] Liang and Ferguson, cv. Hayward) petioles. The uptake, metabolism, and concentration of NAA and indole-3-acetic acid (IAA) content were examined in the explants during the callus initiation period. After 1, 6, 12, 24, 48, and 96 h of culture in the presence of [H3]NAA, petioles were divided into apical, middle, and basal portions and analyzed. Except for a high IAA level measured at 12 h, IAA content decreased in tissues during a culture period of 96 h. NAA uptake was higher in petiolar edges than in the middle portion, and NAA was rapidly conjugated with sugars and aspartic acid inside the tissues. The amide conjugation was triggered in apical and basal portions from 12 h and in the middle part from 48 h, with α-naphthylacetylaspartic acid being the major metabolite. Free-NAA concentration in cultured petioles achieved an equilibrium with the exogenously applied NAA (0.27 μm) from 12 h, and it remained constant thereafter. The relationships between the role attributed to NAA and BA in the initiation and the maintenance of disorganized growth of callus in kiwifruit cultures are discussed.

Physiological and biochemical responses to severe drought stress of nine Eucalyptus globulus clones: a multivariate approach

Seasonal drought, typical of temperate and Mediterranean environments, creates problems in establishing plantations and affects development and yield, and it has been widely studied in numerous species. Forestry fast-growing species such as Eucalyptus spp. are an important resource in such environments, selected clones being generally used for production purposes in plantations in these areas. However, use of mono-specific plantations increases risk of plant loss due to abiotic stresses, making it essential to understand differences in an individual clones physiological responses to drought stress. In order to study clonal differences in drought responses, nine Eucalyptus globulus (Labill.) clones (C14, C46, C97, C120, C222, C371, C405, C491 and C601) were gradually subjected to severe drought stress (<14% of field capacity). A total of 31 parameters, physiological (e.g., photosynthesis, gas exchange), biochemical (e.g., chlorophyll content) and hormonal (abscisic acid [ABA] content), were analysed by classic and multivariate techniques. Relationships between parameters were established, allowing related measurements to be grouped into functional units (pigment, growth, water and ABA). Differences in these units showed that there were two distinct groups of E. globulus clones on the basis of their different strategies when faced with drought stress. The C14 group (C14, C120, C405, C491 and C601) clones behave as water savers, maintaining high water content and showing high stomatal adjustment, and reducing their aerial growth to a great extent. The C46 group (C46, C97, C222 and C371) clones behave as water spenders, reducing their water content drastically and presenting osmotic adjustment. The latter maintains the highest growth rate under the conditions tested. The method presented here can be used to identify appropriate E. globulus clones for drought environments, facilitating the selection of material for production and repopulation environments.

Developmental stage as a possible factor affecting cytokinin content and cytokinin dehydrogenase activity in Pinus sylvestris

In the present study cytokinin dehydrogenase (CKX) activity was for the first time found in a conifer species, Pinus sylvestris. The activities were correlated with the endogenous cytokinin contents. Several enzyme substrates and two different electron acceptors were used to search for the enzyme activity in the extract from seeds, seedlings and plantlets. The highest specific activity was found in one-year-old plantlets with isopentenyladenine as the substrate and 2,6-dichlorophenolindophenol as the electron acceptor, at pH 8. An enhancement in the CKX specific activity corresponded to increasing contents of cytokinins, mainly isopentenyladenine and isopentenyladenosine, indicating that the enzyme activity is affected by the endogenous supply of cytokinins. CKX affinity for the ribosylated form of isopentenyladenine was dependent on the developmental stage, being higher in seeds than in seedlings, and not detectable in plantlets. The results are indicative of the presence of different isoenzymes throughout the development.

In vitro regeneration of two Populus hybrid clones. The role of pectin domains in cell processes underlying shoot organogenesis induction

An efficient plant regeneration protocol has been established for two commercial Populus hybrid clones, MC (Populus × euramericana) and UNAL (Populus × interamericana). The culture of internode segments on Murashige and Skoog (MS) medium with 0.5 μM α-naphthalene acetic acid (NAA) and 4 μM N6-benzyladenine for 7 weeks (2 weeks in absence of activated charcoal and 5 weeks in its presence) resulted in the highest frequency of shoot regeneration (100 % for MC and 82 % for UNAL). All regenerated shoots longer than 2 cm rooted on half-strength MS medium, independent of the addition of 0.1 μM NAA. Nevertheless, shoots developed better-formed roots in NAA-free medium, which had a positive effect on the acclimatization of plants. In order to know the cellular processes underlying in vitro shoot organogenesis, a histological study was made in UNAL internode-explants. Results revealed that in vitro culture caused swelling around the cut-off zones in all explants, but only those undergoing organogenesis formed proliferation centers under subepidermal cells, which led to formation of bud primordia. Moreover, in vivo tissues and explants with different in vitro response showed different immunolabelling patterns when they were treated with fluorescentmonoclonal antibodies directed to several pectin-polysaccharides of the cell wall. Results allow us to assign a predominant role of homogalacturonan with a low degree of methyl-esterification in the initiation of bud primordia, a role of β-1,4-D-galactan side chains of rhamnogalacturonan-I in the cellular differentiation, ra ole of α-1,5-L-arabinan side chains of rhamnogalacturonan-I and of homogalacturonan with a high degree of methyl-esterification in cell division and growth.