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1. Ethylene Action Inhibition Improves Adventitious Root Induction in Adult Chestnut Tissues

Author

European Cooperation in Science and Technology, Castro-Camba, Ricardo [0000-0003-1525-935X], Vielba, Jesús M. [0000-0003-1367-535X], Sánchez, Conchi [0000-0002-1304-0736], Castro-Camba, Ricardo, Neves, Mariana, Correia, Sandra, Canhoto, Jorge, Vielba, Jesús M., Sánchez, Conchi, European Cooperation in Science and Technology, Castro-Camba, Ricardo [0000-0003-1525-935X], Vielba, Jesús M. [0000-0003-1367-535X], Sánchez, Conchi [0000-0002-1304-0736], Castro-Camba, Ricardo, Neves, Mariana, Correia, Sandra, Canhoto, Jorge, Vielba, Jesús M., and Sánchez, Conchi

Abstract

Phase change refers to the process of maturation and transition from the juvenile to the adult stage. In response to this shift, certain species like chestnut lose the ability to form adventitious roots, thereby hindering the successful micropropagation of adult plants. While auxin is the main hormone involved in adventitious root formation, other hormones, such as ethylene, are also thought to play a role in its induction and development. In this study, experiments were carried out to determine the effects of ethylene on the induction and growth of adventitious roots. The analysis was performed in two types of chestnut microshoots derived from the same tree, a juvenile-like line with a high rooting ability derived from basal shoots (P2BS) and a line derived from crown branches (P2CR) with low rooting responses. By means of the application of compounds to modify ethylene content or inhibit its signalling, the potential involvement of this hormone in the induction of adventitious roots was analysed. Our results show that ethylene can modify the rooting competence of mature shoots, while the response in juvenile material was barely affected. To further characterise the molecular reasons underlying this maturation-derived shift in behaviour, specific gene expression analyses were developed. The findings suggest that several mechanisms, including ethylene signalling, auxin transport and epigenetic modifications, relate to the modulation of the rooting ability of mature chestnut microshoots and their recalcitrant behaviour.

Published
2024

3. Wounding-Related Signaling Is Integrated within the Auxin-Response Framework to Induce Adventitious Rooting in Chestnut

Author

Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Castro-Camba, Ricardo, Vielba, Jesús M., Rico, Saleta, Covelo, Purificación, Cernadas, María José, Vidal González, Nieves Pilar, Sánchez, Conchi, Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Castro-Camba, Ricardo, Vielba, Jesús M., Rico, Saleta, Covelo, Purificación, Cernadas, María José, Vidal González, Nieves Pilar, and Sánchez, Conchi

Abstract

Wounding and exogenous auxin are needed to induce adventitious roots in chestnut microshoots. However, the specific inductive role of wounding has not been characterized in this species. In the present work, two main goals were established: First, we prompted to optimize exogenous auxin treatments to improve the overall health status of the shoots at the end of the rooting cycle. Second, we developed a time-series transcriptomic analysis to compare gene expression in response to wounding alone and wounding plus auxin, focusing on the early events within the first days after treatments. Results suggest that the expression of many genes involved in the rooting process is under direct or indirect control of both stimuli. However, specific levels of expression of relevant genes are only attained when both treatments are applied simultaneously, leading to the successful development of roots. In this sense, we have identified four transcription factors upregulated by auxin (CsLBD16, CsERF113, Cs22D and CsIAA6), with some of them also being induced by wounding. The highest expression levels of these genes occurred when wounding and auxin treatments were applied simultaneously, correlating with the rooting response of the shoots. The results of this work clarify the genetic nature of the wounding response in chestnut, its relation to adventitious rooting, and might be helpful in the development of more specific protocols for the vegetative propagation of this species.

Published
2024

4. Ethylene Action Inhibition Improves Adventitious Root Induction in Adult Chestnut Tissues

Author

Castro-Camba, Ricardo, Neves, Mariana, Correia, Sandra, Canhoto, Jorge, Vielba, Jesús M., Sánchez, Conchi, Castro-Camba, Ricardo, Neves, Mariana, Correia, Sandra, Canhoto, Jorge, Vielba, Jesús M., and Sánchez, Conchi

Abstract

Phase change refers to the process of maturation and transition from the juvenile to the adult stage. In response to this shift, certain species like chestnut lose the ability to form adventitious roots, thereby hindering the successful micropropagation of adult plants. While auxin is the main hormone involved in adventitious root formation, other hormones, such as ethylene, are also thought to play a role in its induction and development. In this study, experiments were carried out to determine the effects of ethylene on the induction and growth of adventitious roots. The analysis was performed in two types of chestnut microshoots derived from the same tree, a juvenile-like line with a high rooting ability derived from basal shoots (P2BS) and a line derived from crown branches (P2CR) with low rooting responses. By means of the application of compounds to modify ethylene content or inhibit its signalling, the potential involvement of this hormone in the induction of adventitious roots was analysed. Our results show that ethylene can modify the rooting competence of mature shoots, while the response in juvenile material was barely affected. To further characterise the molecular reasons underlying this maturation-derived shift in behaviour, specific gene expression analyses were developed. The findings suggest that several mechanisms, including ethylene signalling, auxin transport and epigenetic modifications, relate to the modulation of the rooting ability of mature chestnut microshoots and their recalcitrant behaviour.

Published
2024

6. Expression of CsSCL1 and Rooting Response in Chestnut Leaves Are Dependent on the Auxin Polar Transport and the Ontogenetic Origin of the Tissues

Author

Ministerio de Ciencia e Innovación (España), Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Varas, Elena [0000-0002-6528-0053], Valladares, Silvia [0000-0003-3091-878X, Vielba, Jesús [0000-0003-1367-535X], Vidal González, Nieves Pilar [0000-0001-8046-3133], Sánchez,Conchi [0000-0002-1304-0736], Varas García, Elena, Valladares, Silvia, Vielba, Jesús M., Vidal González, Nieves Pilar, Sánchez, Conchi, Ministerio de Ciencia e Innovación (España), Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Varas, Elena [0000-0002-6528-0053], Valladares, Silvia [0000-0003-3091-878X, Vielba, Jesús [0000-0003-1367-535X], Vidal González, Nieves Pilar [0000-0001-8046-3133], Sánchez,Conchi [0000-0002-1304-0736], Varas García, Elena, Valladares, Silvia, Vielba, Jesús M., Vidal González, Nieves Pilar, and Sánchez, Conchi

Abstract

The mechanisms underlying the de novo regeneration of adventitious roots are still poorly understood, particularly in trees. We developed a system for studying adventitious rooting (AR) at physiological and molecular levels using leaves excised from chestnut microshoots of the same genotype but with two distinct ontogenetic origins that differ in rooting competence. Leaves were treated with auxin and N-1-naphthyl-phthalamic acid (NPA), an inhibitor of auxin polar transport (PAT). The physiological effects were investigated by recording rooting rates and the number and quality of the roots. Molecular responses were examined by localizing and monitoring the changes in the expression of CsSCL1, an auxin-inducible gene in juvenile and mature shoots during AR. The rooting response of leaves was ontogenetic-stage dependent and similar to that of the donor microshoots. Initiation of root primordia and root development were inhibited by application of NPA, although its effect depended on the timing of application. CsSCL1 was upregulated by auxin only in rooting-competent leaves during the novo root organogenesis, and the expression was reduced by NPA. The inhibitory effect on gene expression was detected during the reprograming of rooting competent cells towards root initials in response to auxin, indicating that PAT-mediated upregulation of CsSCL1 is required in the initial steps of AR in chestnut leaves. The localized expression of CsSCL1 in the quiescent center (QC) also suggests a role for this gene in the maintenance of meristematic competence and root radial patterning.

Published
2023

7. Reducing costs, improving profits: A low-cost culture media for woody plants micropropagation

Author

Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Castro Camba, Ricardo [0000-0003-1525-935X], Vielba, Jesús María [0000-0003-1367-535X], Covelo, Purificación [0000-0002-0358-6487], Vidal González, Nieves Pilar [0000-0001-8046-3133], Sánchez,Conchi [0000-0002-1304-0736], Castro-Camba, Ricardo, Vielba, Jesús M., Covelo, Purificación, Vidal González, Nieves Pilar, Sánchez, Conchi, Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Castro Camba, Ricardo [0000-0003-1525-935X], Vielba, Jesús María [0000-0003-1367-535X], Covelo, Purificación [0000-0002-0358-6487], Vidal González, Nieves Pilar [0000-0001-8046-3133], Sánchez,Conchi [0000-0002-1304-0736], Castro-Camba, Ricardo, Vielba, Jesús M., Covelo, Purificación, Vidal González, Nieves Pilar, and Sánchez, Conchi

Abstract

Micropropagation has enormous potential in the forestry industry for the mass production of elite genotypes. A limiting factor that hinders a wider adoption of this technique is its high associated cost, dissuading small producers and laboratories from its use. Thus, it is important to develop low-cost protocols to increase the competitiveness of micropropagation. The goal of the present study was to elaborate a low-cost culture medium that would allow plant growth without diminishing plant quality and production. The replacement of laboratory sucrose with commercial sugar as a carbon source, and laboratory agar with locally produced agar as a gelling agent was tested. To validate the effects of the medium for woody species micropropagation, two relevant forest species, chestnut and birch, were used and several phenotypic characteristics were recorded. Our data indicated that the substitutions made in the media composition did not alter growth or rooting parameters. Substitution of laboratory sucrose and Bacto agar by table sugar and local commercial agar provides a valuable alternative for forest species micropropagation and for increasing their potential profitability.

Published
2023

9. Wounding-Related Signaling Is Integrated within the Auxin-Response Framework to Induce Adventitious Rooting in Chestnut.

Author

Castro-Camba, Ricardo, Vielba, Jesús Mª, Rico, Saleta, Covelo, Purificación, Cernadas, Mª José, Vidal, Nieves, and Sánchez, Conchi

Subjects
VEGETATIVE propagation, CASTANEA, CHESTNUT, ROOT development, TIME series analysis, GENE expression, AUXIN
Abstract

Wounding and exogenous auxin are needed to induce adventitious roots in chestnut microshoots. However, the specific inductive role of wounding has not been characterized in this species. In the present work, two main goals were established: First, we prompted to optimize exogenous auxin treatments to improve the overall health status of the shoots at the end of the rooting cycle. Second, we developed a time-series transcriptomic analysis to compare gene expression in response to wounding alone and wounding plus auxin, focusing on the early events within the first days after treatments. Results suggest that the expression of many genes involved in the rooting process is under direct or indirect control of both stimuli. However, specific levels of expression of relevant genes are only attained when both treatments are applied simultaneously, leading to the successful development of roots. In this sense, we have identified four transcription factors upregulated by auxin (CsLBD16, CsERF113, Cs22D and CsIAA6), with some of them also being induced by wounding. The highest expression levels of these genes occurred when wounding and auxin treatments were applied simultaneously, correlating with the rooting response of the shoots. The results of this work clarify the genetic nature of the wounding response in chestnut, its relation to adventitious rooting, and might be helpful in the development of more specific protocols for the vegetative propagation of this species. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Public Knowledge and Perceptions of Safety Issues Towards the Use of Genetically Modified Forest Trees: A Cross-Country Pilot Survey

Author

Kazana, Vassiliki, Tsourgiannis, Lambros, Iakovoglou, Valasia, Stamatiou, Christos, Alexandrov, Alexander, Araújo, Susana, Bogdan, Saša, Božič, Gregor, Brus, Robert, Bossinger, Gerd, Boutsimea, Anastasia, Ćelepirović, Nevenka, Cvrčková, Helena, Fladung, Matthias, Ivanković, Mladen, Kazaklis, Angelos, Koutsona, Paraskevi, Luthar, Zlata, Máchová, Pavliná, Malá, Jana, Mara, Kostlend, Mataruga, Milan, Moravcikova, Jana, Paffetti, Donatella, Paiva, Jorge A. P., Raptis, Dimitrios, Sanchez, Conchi, Sharry, Sandra, Salaj, Terezia, Šijačić-Nikolić, Mirjana, Tel-Zur, Noemi, Tsvetkov, Ivaylo, Vettori, Cristina, Vidal, Nieves, Jain, S.Mohan, Series editor, Häggman, Hely, Series editor, Yanchuk, Alvin D., Series editor, Vettori, Cristina, editor, Gallardo, Fernando, editor, Kazana, Vassiliki, editor, Migliacci, Fabio, editor, Pilate, Gilles, editor, and Fladung, Matthias, editor

Published
2016
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13. Soil Effects of Genetically Modified Trees (GMTs)

Author

Gallardo, Fernando, Sánchez, Conchi, Grabowski, Marcin, Molina-Rueda, Juan Jesús, Vidal, Nieves, Fladung, Matthias, Jain, S.Mohan, Series editor, Häggman, Hely, Series editor, Yanchuk, Alvin D., Series editor, Vettori, Cristina, editor, Gallardo, Fernando, editor, Kazana, Vassiliki, editor, Migliacci, Fabio, editor, Pilate, Gilles, editor, and Fladung, Matthias, editor

Published
2016
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14. Transcriptomics Analysis Reveals a Putative Role for Hormone Signaling and MADS-Box Genes in Mature Chestnut Shoots Rooting Recalcitrance

Author

Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Vielba, Jesús M. [0000-0003-1367-535X], Rico, Saleta [0000-0003-2420-8108], Sevgin, Nevzat [0000-0001-5405-060X], Castro-Camba, Ricardo [0000-0003-1525-935X], Covelo, Purificación [0000-0002-0358-6487], Vidal González, Nieves Pilar [0000-0001-8046-3133], Sánchez, Conchi [0000-0002-1304-0736], Vielba, Jesús M., Rico, Saleta, Sevgin, Nevzat, Castro-Camba, Ricardo, Covelo, Purificación, Vidal González, Nieves Pilar, Sánchez, Conchi, Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Vielba, Jesús M. [0000-0003-1367-535X], Rico, Saleta [0000-0003-2420-8108], Sevgin, Nevzat [0000-0001-5405-060X], Castro-Camba, Ricardo [0000-0003-1525-935X], Covelo, Purificación [0000-0002-0358-6487], Vidal González, Nieves Pilar [0000-0001-8046-3133], Sánchez, Conchi [0000-0002-1304-0736], Vielba, Jesús M., Rico, Saleta, Sevgin, Nevzat, Castro-Camba, Ricardo, Covelo, Purificación, Vidal González, Nieves Pilar, and Sánchez, Conchi

Abstract

Maturation imposes several changes in plants, which are particularly drastic in the case of trees. In recalcitrant woody species, such as chestnut (Castanea sativa Mill.), one of the major maturation-related shifts is the loss of the ability to form adventitious roots in response to auxin treatment as the plant ages. To analyze the molecular mechanisms underlying this phenomenon, an in vitro model system of two different lines of microshoots derived from the same field-grown tree was established. While juvenile-like shoots root readily when treated with exogenous auxin, microshoots established from the crown of the tree rarely form roots. In the present study, a transcriptomic analysis was developed to compare the gene expression patterns in both types of shoots 24 h after hormone and wounding treatment, matching the induction phase of the process. Our results support the hypothesis that the inability of adult chestnut tissues to respond to the inductive treatment relies in a deep change of gene expression imposed by maturation that results in a significant transcriptome modification. Differences in phytohormone signaling seem to be the main cause for the recalcitrant behavior of mature shoots, with abscisic acid and ethylene negatively influencing the rooting ability of the chestnut plants. We have identified a set of related MADS-box genes whose expression is modified but not suppressed by the inductive treatment in mature shoots, suggesting a putative link of their activity with the rooting-recalcitrant behavior of this material. Overall, distinct maturation-derived auxin sensibility and homeostasis, and the related modifications in the balance with other phytohormones, seem to govern the outcome of the process in each type of shoots.

Published
2022

15. Effect of Soil Type and In Vitro Proliferation Conditions on Acclimation and Growth of Willow Shoots Micropropagated in Continuous Immersion Bioreactors

Author

Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Trasar-Cepeda, Carmen [0000-0001-9019-5590], Sánchez, Conchi [0000-0002-1304-0736], Vielba, Jesús María [0000-0003-1367-535X], Rico, Saleta [0000-0003-2420-8108], Aldrey Villar, Anxela [0000-0002-9670-463X], Vidal, Nieves [0000-0001-8046-3133], Trasar-Cepeda, Carmen, Sánchez, Conchi, Casalderrey, Mar, Bello, Diana, Vielba, Jesús M., Rico, Saleta, Aldrey, Anxela, Vidal González, Nieves Pilar, Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Trasar-Cepeda, Carmen [0000-0001-9019-5590], Sánchez, Conchi [0000-0002-1304-0736], Vielba, Jesús María [0000-0003-1367-535X], Rico, Saleta [0000-0003-2420-8108], Aldrey Villar, Anxela [0000-0002-9670-463X], Vidal, Nieves [0000-0001-8046-3133], Trasar-Cepeda, Carmen, Sánchez, Conchi, Casalderrey, Mar, Bello, Diana, Vielba, Jesús M., Rico, Saleta, Aldrey, Anxela, and Vidal González, Nieves Pilar

Abstract

Salix viminalis L. is a species with high capacity for micropropagation and acclimation and could therefore be used to evaluate emergent techniques in the field of plant propagation. The aims of this study were to propagate willow in liquid medium with a continuous immersion system, to explore the application of photoautotrophic conditions and to investigate the adaptation of willow plantlets to different soils that could be used as alternatives to commercial peat. For proliferation, we used 3% sucrose or sugar-free medium, and as substrates, we used commercial peat, a soil from an oak forest with high organic matter content and a crop soil with low organic matter content. The effect of sugar supplementation during proliferation and the soil characteristics during acclimation and growth were evaluated on the basis of aerial and root growth and the hydrolytic and dehydrogenase enzymatic activities of the soils. The results indicate that under photoautotrophic conditions, the supplementation of sucrose during micropropagation did not affect the subsequent growth of the plantlets. All plants acclimated without loss, but the type of soil influenced the height and vigor. Plants produced the highest shoots in peat, whereas the most root development occurred in crop soil. Soil enzyme activities were more influenced by the type of soil than by the presence of plants.

Published
2022

16. Expression of CsSCL1 and Rooting Response in Chestnut Leaves Are Dependent on the Auxin Polar Transport and the Ontogenetic Origin of the Tissues

Author

Varas, Elena, Valladares, Silvia, Vielba, Jesús, Vidal, Nieves, Sánchez, Conchi, Varas, Elena, Valladares, Silvia, Vielba, Jesús, Vidal, Nieves, and Sánchez, Conchi

Abstract

The mechanisms underlying the de novo regeneration of adventitious roots are still poorly understood, particularly in trees. We developed a system for studying adventitious rooting (AR) at physiological and molecular levels using leaves excised from chestnut microshoots of the same genotype but with two distinct ontogenetic origins that differ in rooting competence. Leaves were treated with auxin and N-1-naphthyl-phthalamic acid (NPA), an inhibitor of auxin polar transport (PAT). The physiological effects were investigated by recording rooting rates and the number and quality of the roots. Molecular responses were examined by localizing and monitoring the changes in the expression of CsSCL1, an auxin-inducible gene in juvenile and mature shoots during AR. The rooting response of leaves was ontogenetic-stage dependent and similar to that of the donor microshoots. Initiation of root primordia and root development were inhibited by application of NPA, although its effect depended on the timing of application. CsSCL1 was upregulated by auxin only in rooting-competent leaves during the novo root organogenesis, and the expression was reduced by NPA. The inhibitory effect on gene expression was detected during the reprograming of rooting competent cells towards root initials in response to auxin, indicating that PAT-mediated upregulation of CsSCL1 is required in the initial steps of AR in chestnut leaves. The localized expression of CsSCL1 in the quiescent center (QC) also suggests a role for this gene in the maintenance of meristematic competence and root radial patterning.

Published
2023

19. Application of in vitro culture to plant regeneration in natural areas

Author

Sobrino-Alonso, Carlos, Saborido-Sóñora, Lucía, García-Romero, David, Sánchez, Conchi, Aldrey, Anxela, Christie, Bruce, Vidal González, Nieves Pilar, Sobrino-Alonso, Carlos, Saborido-Sóñora, Lucía, García-Romero, David, Sánchez, Conchi, Aldrey, Anxela, Christie, Bruce, and Vidal González, Nieves Pilar

Published
2023

27. Interactions of Gibberellins with Phytohormones and Their Role in Stress Responses

Author

Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Axencia Galega de Innovación, Castro-Camba, Ricardo, Sánchez, Conchi, Vidal González, Nieves Pilar, Vielba, Jesús M., Xunta de Galicia, Consejo Superior de Investigaciones Científicas (España), Axencia Galega de Innovación, Castro-Camba, Ricardo, Sánchez, Conchi, Vidal González, Nieves Pilar, and Vielba, Jesús M.

Abstract

Gibberellins are amongst the main plant growth regulators. Discovered over a century ago, the interest in gibberellins research is growing due to their current and potential applications in crop production and their role in the responses to environmental stresses. In the present review, the current knowledge on gibberellins’ homeostasis and modes of action is outlined. Besides this, the complex interrelations between gibberellins and other plant growth regulators are also described, providing an intricate network of interactions that ultimately drives towards precise and specific gene expression. Thus, genes and proteins identified as being involved in gibberellin responses in model and non-model species are highlighted. Furthermore, the molecular mechanisms governing the gibberellins’ relation to stress responses are also depicted. This review aims to provide a comprehensive picture of the state-of-the-art of the current perceptions of the interactions of gibberellins with other phytohormones, and their responses to plant stresses, thus allowing for the identification of the specific mechanisms involved. This knowledge will help us to improve our understanding of gibberellins’ biology, and might help increase the biotechnological toolbox needed to refine plant resilience, particularly under a climate change scenario.

Published
2022

28. Plant development and crop yield

Author

Xunta de Galicia, Castro Camba, Ricardo [0000-0003-1525-935X], Sánchez Fernández, Mª Concepción [0000-0002-1304-0736], Vidal González, Nieves Pilar [0000-0001-8046-3133], Vielba Villegas, Jesús Mª [0000-0003-1367-535X], Castro-Camba, Ricardo, Sánchez, Conchi, Vidal González, Nieves Pilar, Vielba, Jesús M., Xunta de Galicia, Castro Camba, Ricardo [0000-0003-1525-935X], Sánchez Fernández, Mª Concepción [0000-0002-1304-0736], Vidal González, Nieves Pilar [0000-0001-8046-3133], Vielba Villegas, Jesús Mª [0000-0003-1367-535X], Castro-Camba, Ricardo, Sánchez, Conchi, Vidal González, Nieves Pilar, and Vielba, Jesús M.

Abstract

Gibberellins have been classically related to a few key developmental processes, thus being essential for the accurate unfolding of plant genetic programs. After more than a century of research, over one hundred different gibberellins have been described. There is a continuously increasing interest in gibberellins research because of their relevant role in the so-called "Green Revolution", as well as their current and possible applications in crop improvement. The functions attributed to gibberellins have been traditionally restricted to the regulation of plant stature, seed germination, and flowering. Nonetheless, research in the last years has shown that these functions extend to many other relevant processes. In this review, the current knowledge on gibberellins homeostasis and mode of action is briefly outlined, while specific attention is focused on the many different responses in which gibberellins take part. Thus, those genes and proteins identified as being involved in the regulation of gibberellin responses in model and non-model species are highlighted. The present review aims to provide a comprehensive picture of the state-of-the-art perception of gibberellins molecular biology and its effects on plant development. This picture might be helpful to enhance our current understanding of gibberellins biology and provide the know-how for the development of more accurate research and breeding programs.

Published
2022

29. Effect of Sucrose on Growth and Stress Status of Castanea sativa x C. crenata Shoots Cultured in Liquid Medium

Author

Gago Mesejo, Diego, Bernal, Á., Sánchez, Conchi, Aldrey Villar, Anxela, Cuenca, Beatriz, Christie, Colin Bruce, Vidal, Nieves, Gago Mesejo, Diego, Bernal, Á., Sánchez, Conchi, Aldrey Villar, Anxela, Cuenca, Beatriz, Christie, Colin Bruce, and Vidal, Nieves

Abstract

[Abstract] Current breeding programs aim to increase the number of ink-tolerant chestnut trees using vegetative propagation of selected genotypes. However, the commercial vegetative propagation of chestnut species is still a bottleneck for the forest industry, mainly due to problems in the rooting and acclimation of propagules. This study aimed to explore the potential benefits of decreasing sucrose supplementation during chestnut micropropagation. Explants were cultured with high light intensity and CO2-enriched air in temporary or continuous immersion bioreactors and with different sucrose supplementation to evaluate the impact of these treatments on growth, rooting and physiological status (monosaccharide content, soluble phenolics and antioxidant activity). The proliferation and rooting performance of shoots cultured by continuous immersion decreased sharply with sucrose concentrations lower than 1%, whereas shoots cultured by temporary immersion grew and rooted successfully with 0.5% sucrose. These results suggest this system is appropriate to culture chestnut with low sucrose concentration and to explore photoautotrophic propagation of this species.

Published
2022

30. Micropropagation of Plum (Prunus domestica L.) in Bioreactors Using Photomixotrophic and Photoautotrophic Conditions

Author

Gago Mesejo, Diego, Sánchez, Conchi, Aldrey Villar, Anxela, Christie, Colin Bruce, Bernal, Á., Vidal, Nieves, Gago Mesejo, Diego, Sánchez, Conchi, Aldrey Villar, Anxela, Christie, Colin Bruce, Bernal, Á., and Vidal, Nieves

Abstract

[Abstract] In this study, we propagated two old Galician plum varieties in liquid medium using a temporary immersion system with RITA© bioreactors. Environmental variables including culture system, light intensity, CO2 enrichment, immersion frequency and sucrose supplementation were evaluated in relation to in vitro proliferation, physiological status and ex vitro performance. Bioreactors were superior to jars for culturing shoots in photomixotrophic conditions, producing up to 2 times more shoot numbers and up to 1.7 times more shoot length (depending on the genotype) using shoot clusters. The number and quality of shoots were positively influenced by the sucrose concentration in the medium, plus by the light and gaseous environment. For individual apical sections the best response occurred with 3% sucrose, 150 µmol m−2 s−1 photosynthetic photon flux density and 2000 ppm CO2, averaging 2.5 shoots per explant, 26 mm shoot length and 240 mm2 leaf area, while with 50 µmol m−2 s−1 light and ambient CO2 (400 ppm) values decreased to 1.2 shoots per explant, 14 mm of shoot length and 160 mm2 of leaf area. Shoots cultured photoautotrophically (without sucrose) were successfully rooted and acclimated despite of showing limited growth, low photosynthetic pigments, carbohydrate, phenolic and antioxidant contents during the multiplication phase.

Published
2022

31. Micropropagation of Plum (Prunus domestica L.) in Bioreactors Using Photomixotrophic and Photoautotrophic Conditions

Author

Xunta de Galicia, Programa Iberoamericano de Ciencia y Tecnología para el Desarrollo, Consejo Superior de Investigaciones Científicas (España), Gago, Diego, Sánchez, Conchi, Aldrey, Anxela, Christie, Colin Bruce, Bernal, María Ángeles, Vidal González, Nieves Pilar, Xunta de Galicia, Programa Iberoamericano de Ciencia y Tecnología para el Desarrollo, Consejo Superior de Investigaciones Científicas (España), Gago, Diego, Sánchez, Conchi, Aldrey, Anxela, Christie, Colin Bruce, Bernal, María Ángeles, and Vidal González, Nieves Pilar

Abstract

In this study, we propagated two old Galician plum varieties in liquid medium using a temporary immersion system with RITA© bioreactors. Environmental variables including culture system, light intensity, CO enrichment, immersion frequency and sucrose supplementation were evaluated in relation to in vitro proliferation, physiological status and ex vitro performance. Bioreactors were superior to jars for culturing shoots in photomixotrophic conditions, producing up to 2 times more shoot numbers and up to 1.7 times more shoot length (depending on the genotype) using shoot clus-ters. The number and quality of shoots were positively influenced by the sucrose concentration in the medium, plus by the light and gaseous environment. For individual apical sections the best response occurred with 3% sucrose, 150 µmol m s photosynthetic photon flux density and 2000 ppm CO, averaging 2.5 shoots per explant, 26 mm shoot length and 240 mm leaf area, while with 50 µmol m s light and ambient CO (400 ppm) values decreased to 1.2 shoots per explant, 14 mm of shoot length and 160 mm of leaf area. Shoots cultured photoautotrophically (without sucrose) were successfully rooted and acclimated despite of showing limited growth, low photosynthetic pigments, carbohydrate, phenolic and antioxidant contents during the multiplication phase.

Published
2022

32. Effect of Sucrose on Growth and Stress Status of Castanea sativa x C. crenata Shoots Cultured in Liquid Medium

Author

Xunta de Galicia, Programa Iberoamericano de Ciencia y Tecnología para el Desarrollo, Consejo Superior de Investigaciones Científicas (España), Gago, Diego, Bernal, María Ángeles, Sánchez, Conchi, Aldrey, Anxela, Cuenca, B., Christie, C.B., Vidal González, Nieves Pilar, Xunta de Galicia, Programa Iberoamericano de Ciencia y Tecnología para el Desarrollo, Consejo Superior de Investigaciones Científicas (España), Gago, Diego, Bernal, María Ángeles, Sánchez, Conchi, Aldrey, Anxela, Cuenca, B., Christie, C.B., and Vidal González, Nieves Pilar

Abstract

Current breeding programs aim to increase the number of ink-tolerant chestnut trees using vegetative propagation of selected genotypes. However, the commercial vegetative propagation of chestnut species is still a bottleneck for the forest industry, mainly due to problems in the rooting and acclimation of propagules. This study aimed to explore the potential benefits of decreasing sucrose supplementation during chestnut micropropagation. Explants were cultured with high light intensity and CO-enriched air in temporary or continuous immersion bioreactors and with different sucrose supplementation to evaluate the impact of these treatments on growth, rooting and physiological status (monosaccharide content, soluble phenolics and antioxidant activity). The proliferation and rooting performance of shoots cultured by continuous immersion decreased sharply with sucrose concentrations lower than 1%, whereas shoots cultured by temporary immersion grew and rooted successfully with 0.5% sucrose. These results suggest this system is appropriate to culture chestnut with low sucrose concentration and to explore photoautotrophic propagation of this species.

Published
2022

33. Supplemental files to Manuscript: Transcriptomics Analysis Reveals a Putative Role for Hormone Signaling and MADS-Box Genes in Mature Chestnut Shoots Rooting Recalcitrance

Author

Vielba, Jesús M., Rico, Saleta, Sevgin, Nevzat, Castro-Camba, Ricardo, Covelo, Purificación, Vidal González, Nieves Pilar, Sánchez, Conchi, Vielba, Jesús M., Rico, Saleta, Sevgin, Nevzat, Castro-Camba, Ricardo, Covelo, Purificación, Vidal González, Nieves Pilar, and Sánchez, Conchi

Abstract

Long-read sequencing (Oxford Nanopore Technologies) analysis of the transcriptomics responses of chestnut microshoots to a root induction treatment comprising auxin and wounding. Two types of microshoots were used: BS shoots present a juvenile-character and root after the treatment, while CR shoots behave as mature and do not root. The analysis allows for the comparison of the different responses to the same treatment of plants at different maturation stages.

Published
2022

39. Effect of Soil Type and In Vitro Proliferation Conditions on Acclimation and Growth of Willow Shoots Micropropagated in Continuous Immersion Bioreactors.

Author

Trasar-Cepeda, Carmen, Sánchez, Conchi, Casalderrey, Mar, Bello, Diana, Vielba, Jesús María, Rico, Saleta, Aldrey, Anxela, and Vidal, Nieves

Subjects
SOIL classification, ACCLIMATIZATION, SOIL enzymology, BIOREACTORS, PLANT propagation
Abstract

Salix viminalis L. is a species with high capacity for micropropagation and acclimation and could therefore be used to evaluate emergent techniques in the field of plant propagation. The aims of this study were to propagate willow in liquid medium with a continuous immersion system, to explore the application of photoautotrophic conditions and to investigate the adaptation of willow plantlets to different soils that could be used as alternatives to commercial peat. For proliferation, we used 3% sucrose or sugar-free medium, and as substrates, we used commercial peat, a soil from an oak forest with high organic matter content and a crop soil with low organic matter content. The effect of sugar supplementation during proliferation and the soil characteristics during acclimation and growth were evaluated on the basis of aerial and root growth and the hydrolytic and dehydrogenase enzymatic activities of the soils. The results indicate that under photoautotrophic conditions, the supplementation of sucrose during micropropagation did not affect the subsequent growth of the plantlets. All plants acclimated without loss, but the type of soil influenced the height and vigor. Plants produced the highest shoots in peat, whereas the most root development occurred in crop soil. Soil enzyme activities were more influenced by the type of soil than by the presence of plants. [ABSTRACT FROM AUTHOR]

Published
2023
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42. The Effect of Sucrose Supplementation on the Micropropagation of Salix viminalis L. Shoots in Semisolid Medium and Temporary Immersion Bioreactors

Author

Gago Mesejo, Diego, Vilavert, Saladina, Bernal, Á., Sánchez, Conchi, Aldrey Villar, Anxela, Vidal, Nieves, Gago Mesejo, Diego, Vilavert, Saladina, Bernal, Á., Sánchez, Conchi, Aldrey Villar, Anxela, and Vidal, Nieves

Abstract

[Abstract] The effect of sucrose concentration on the micropropagation of axillary shoots of willow was investigated. The following factors were examined: the culture system (semisolid medium in glass jars versus liquid medium in temporary immersion bioreactors), the type of explant (apical and basal sections), the frequency of immersion, and CO₂ enrichment. Shoots and leaf growth were significantly higher in RITA® bioreactors than in the jars for all the sucrose treatments. Apical or basal sections of willow cultured in bioreactors under high light intensity (150 µmol m⁻² s⁻¹) and ventilated six times a day with CO₂-enriched air were successfully proliferated without sucrose, whereas shoots cultured in jars did not proliferate well if sucrose concentration was 0.5% or lower. More roots were formed when sucrose was added to the medium. Shoots cultured in bioreactors were successfully acclimatized irrespective of the sucrose treatment and the root biomass when transferred to ex vitro conditions. This is the first report of photoautotrophic willow micropropagation, our results confirm the importance of proper gaseous exchange to attain autotrophy during in vitro propagation.

Published
2021

45. Recent Advances in Adventitious Root Formation in Chestnut

Author

Vielba, Jesús M., Vidal, Nieves, San José, M. Carmen, Rico, Saleta, Sánchez, Conchi, and Xunta de Galicia

Subjects
Adventitious rooting, Microshoots, Maturation, Auxin, Castanea, Trees
Abstract

The genus Castanea includes several tree species that are relevant because of their geographical extension and their multipurpose character, that includes nut and timber production. However, commercial exploitation of the trees is hindered by several factors, particularly by their limited regeneration ability. Regardless of recent advances, there exists a serious limitation for the propagation of elite genotypes of chestnut due to decline of rooting ability as the tree ages. In the present review, we summarize the research developed in this genus during the last three decades concerning the formation of adventitious roots (ARs). Focusing on cuttings and in vitro microshoots, we gather the information available on several species, particularly C. sativa, C. dentata and the hybrid C. sativa x C. crenata, and analyze the influence of several factors on the achievements of the applied protocols, including genotype, auxin treatment, light regime and rooting media. We also pay attention to the acclimation phase, as well as compile the information available about biochemical and molecular related aspects. Furthermore, we considerate promising biotechnological approaches that might enable the improvement of the current protocols. This research was funded by the Xunta de Galicia of grant number IN607 2017/6 and the APC was partially funded by the CSIC Open Access Publication Support Initiative through its Unit of Information Resources for Research (URICI).

Published
2020

50. Micropropagation of axillary shoots of <italic>Salix viminalis</italic> using a temporary immersion system.

Author

Regueira, María, Rial, Eva, Blanco, Blandina, Bogo, Brais, Aldrey, Anxela, Correa, Begoña, Varas, Elena, Sánchez, Conchi, and Vidal, Nieves

Abstract

Key message: Culturing axillary shoot explants of willow in liquid medium in plantform™ and RITA®vessels increased the multiplication coefficient relative to that obtained by culturing the explants in semisolid medium in jars.Abstract: A protocol for micropropagating willow by multiplying axillary shoots in liquid medium was developed, and the effects of the type of explant, medium composition, bioreactor type and frequency of immersion were investigated. The type of explant influenced shoot quality and the multiplication coefficient, with basal segments showing a higher capacity for proliferation than apical and mid-shoot segments. Hyperhydricity was not observed in shoots cultured with Murashige and Skoog medium with half-strength nitrates and supplemented with 0.22 µM BA and 3% sucrose. The willow shoots cultured in plantform™ and RITA® vessels yielded higher multiplication coefficients than shoots grown in semisolid medium. High proliferation rates were obtained by immersion of shoots for 1 min three or six times a day, with additional aeration of 1 min per hour in the plantform™ bioreactors. Transfer to medium with 1% sucrose after 4 weeks of culture in medium with 3% sucrose increased the multiplication coefficient of basal segments cultured in RITA® vessels, suggesting that the species could be micropropagated under photoautotrophic conditions. The willow shoots rooted spontaneously and were successfully acclimatized to greenhouse conditions. This is the first report of the use of a temporary immersion system to culture Salix viminalis. The study findings indicate the feasibility of the system as a method for the large-scale propagation of this species. [ABSTRACT FROM AUTHOR]

Published
2018
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