Journal ArticleDOI
Transition of somatic plant cells to an embryogenic state
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TLDR
This review summarizes relevant experimental observations that can contribute to the description and definition of a transitional state of somatic cells induced to form totipotent, embryogenic cells.Abstract:
Under appropriate in vivo or in vitro conditions, certain somatic plant cells have the capability to initiate embryogenic development (somatic embryogenesis). Somatic embryogenesis provides an unique experimental model to understand the molecular and cellular bases of developmental plasticity in plants. In the last few years, the application of modern experimental techniques, as well as the characterization of Arabidopsis embryogenesis mutants, have resulted in the accumulation of novel data about the acquisition of embryogenic capabilities by somatic plant cells. In this review, we summarize relevant experimental observations that can contribute to the description and definition of a transitional state of somatic cells induced to form totipotent, embryogenic cells. During this somatic-to-embryogenic transition, cells have to dedifferentiate, activate their cell division cycle and reorganize their physiology, metabolism and gene expression patterns. The roles of stress, endogenous growth regulators and chromatin remodelling in the coordinated reorganization of the cellular state are especially emphasized.read more
Citations
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Journal ArticleDOI
In vitro bioactive metabolite production and plant regeneration of medicinal plant Angelica sinensis
TL;DR: The root of Angelica sinensis (Oliv.) Diels is a traditional Chinese medicine (TCM) widely used for the cardio-cerebrovascular, anti-inflammatory, and anti-cancer agents as discussed by the authors .
Book ChapterDOI
In Vitro Stress-Mediated Somatic Embryogenesis in Plants.
TL;DR: The SE process, under in vitro conditions, can be induced from different sources of explant cultivated in a culture medium with plant growth regulators (PGR) or by subjecting tissues to abiotic stress treatments.
Callus Induction and Somatic Embryogenesis from Cultured Zygotic Embryo of Eleiodoxa conferta (Griff.) Burr., an Edible Native Plant Species in Southern Thailand
Duangkhaetita Kanjanasopa,Benjamas Somwong,Theera Srisawat,Suraphon Thitithanakul,Yoawaphan Sontikul,Suchart Choengthong +5 more
TL;DR: It was found that zygotic embryo is a suitable explant source, with a high potential of responsive tissue, and lacking browning secretions during culturing, and the NO3/NO3+NH4 ratio and vitamin contents in MN6 could promote somatic embryogenesis.
References
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