Response of the transcription factor BABY BOOM of Arabidopsis thaliana L. in the formation of embryogenic calluses of cocoa leaves (Theobroma cacao L.)

Alburqueque-Vasquez, Nikkolas Javier; Hernández-Amasifuen, Angel David; Pineda-Lázaro, Alexandra Jherina; Fernández Ponce, Jaime N.; Guerrero-Abad, Juan Carlos; García, Ligia; Corazon-Guivin, Mike Anderson

doi:10.17268/sci.agropecu.2023.031

Cited by 3 publications

(1 citation statement)

References 33 publications

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“…This morphogenetic pathway is developed by different biochemical and molecular events that encompass the stages of induction, expression, maturation, and germination [13,14]. Likewise, through somatic embryo induction, high propagation rates of material of genotypes of interest can be obtained while maintaining genetic stability, allowing its application for mass propagation of species with agronomic potential, conservation of genetic resources [15], application in genetic transformation [16,17] and gene editing [18].…”

Section: Introductionmentioning

confidence: 99%

Effect of osmoregulatory on the secondary somatic embryogenesis of cocoa (Theobroma cacao L.)

Paisic-Ramirez,

Hernández-Amasifuen,

Sánchez-Aguilar

et al. 2024

J App Biol Biotech

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Cocoa (Theobroma cacao L.) is the raw material for the worldwide chocolate industry. To ensure high quality and efficient field production, the industry relies on a uniformity of elite cocoa plants, which can be achieved through vegetative propagation methods like somatic embryogenesis. However, the low yield rate in the multiplication and regeneration of cocoa plants remains a challenge for basic research. To obtain a greater number of secondary somatic embryos (SSE) in cocoa, the effect of three osmoregulators on the disc cells of primary somatic embryos (PSE) of cocoa was studied. PSE was induced from cocoa staminodes of genotype I52. Epicotyls were selected from PSE at the torpedo and cotyledon stages, segmented into 3 mm discs, and placed in a secondary callus growth medium. The explants were transferred to embryo development medium 3, where they were exposed to the osmoregulatory polyethylene glycol (PEG), mannitol, and sorbitol at the following concentrations: 0%, 1%, 3%, and 5%. D-Mannitol at 3% and D-Sorbitol at 1% increased the number of SSE at the torpedo, globular, and cotyledon stage per explant. The culture medium with 1% PEG significantly increased the formation of SSE in the globular and cotyledonal stages. The results presented a positive effect of the osmoregulators on the formation of cocoa SSE.

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Section: Introductionmentioning

confidence: 99%

Effect of osmoregulatory on the secondary somatic embryogenesis of cocoa (Theobroma cacao L.)

Paisic-Ramirez,

Hernández-Amasifuen,

Sánchez-Aguilar

et al. 2024

J App Biol Biotech

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Appreciating animal induced pluripotent stem cells to shape plant cell reprogramming strategies

Wittmer,

Heidstra

2024

Journal of Experimental Botany

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Animals and plants have developed resilience mechanisms to effectively endure and overcome physical damage and environmental challenges throughout their life span. To sustain their vitality, both animals and plants employ mechanisms to replenish damaged cells, either directly, involving the activity of adult stem cells, or indirectly, via dedifferentiation of somatic cells that are induced to revert to a stem cell state and subsequently redifferentiate. Stem cell research has been a rapidly advancing field in animal studies for many years, driven by its promising potential in human therapeutics, including tissue regeneration and drug development. A major breakthrough was the discovery of induced pluripotent stem cells (iPSCs), which are reprogrammed from somatic cells by expressing a limited set of transcription factors. This discovery enabled the generation of an unlimited supply of cells that can be differentiated into specific cell types and tissues. Equally, a keen interest in the connection between plant stem cells and regeneration has been developed in the last decade, driven by the demand to enhance plant traits such as yield, resistance to pathogens, and the opportunities provided by CRISPR/Cas-mediated gene editing. Here we discuss how knowledge of stem cell biology benefits regeneration technology, and we speculate on the creation of a universal genotype-independent iPSC system for plants to overcome regenerative recalcitrance.

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Bibliometric analysis of theses on plant tissue culture in the universities of Peru

Yupanqui-Celestino,

Lugo,

Aguilar-Balabarca

et al. 2024

Salud, Ciencia y Tecnología

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Introducción: El cultivo de tejidos vegetales es un conjunto de métodos biotecnológicos que implica la propagación y regeneración de células, tejidos, órganos vegetales mediante el control específico de los factores nutricionales. El estudio bibliométrico resulta ser una gran fuente de información sobre el desarrollo de una determinada área, ya que emplea métodos de medición y comparación de datos sobre las distintas fuentes que se obtienen. Objetivo: Se evaluará la producción científica mediante el análisis bibliométrico de las tesis en cultivos de tejidos vegetales en las universidades del Perú. Se analizaron tesis de pre y posgrado sobre el cultivo de tejidos vegetales in vitro en el período 1997 – 2023 de 143 universidades públicas y privadas. Métodos: La muestra se delimita en 24 universidades (22 públicas y 2 privadas) que presentan especialidades como Biología, Biotecnología, Ingeniería Agronómica, Ingeniería Biotecnológica y entre otras. Resultados: Existen 126 tesis publicadas en la temática de cultivo de tejidos vegetales en 24 universidades peruanas. Del total de tesis publicadas se obtuvo un mayor porcentaje de tesis de pregrado con 84.13%, mientras que las tesis de maestría representaban el 11.90% y las tesis doctorales 3.97%. La Universidad Nacional Agraria La Molina (UNALM) cuenta con 28 tesis (22,22%), seguida de la Universidad Nacional de Trujillo (UNT) con 19 (15,1%), etc. Conclusiones: Este estudio bibliométrico de tesis en cultivo de tejidos vegetales ha permitido identificar que existe una mayor concentración de investigaciones en este área de las universidades públicas, además de estar vinculadas escuelas de ingeniería agrícola y biología.

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Response of the transcription factor BABY BOOM of Arabidopsis thaliana L. in the formation of embryogenic calluses of cocoa leaves (Theobroma cacao L.)

Cited by 3 publications

References 33 publications

Effect of osmoregulatory on the secondary somatic embryogenesis of cocoa (Theobroma cacao L.)

Effect of osmoregulatory on the secondary somatic embryogenesis of cocoa (Theobroma cacao L.)

Appreciating animal induced pluripotent stem cells to shape plant cell reprogramming strategies

Bibliometric analysis of theses on plant tissue culture in the universities of Peru

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