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Molecular Mechanisms of Plant Regeneration
Annual Review of Plant Biology, 2019Plants reprogram somatic cells following injury and regenerate new tissues and organs. Upon perception of inductive cues, somatic cells often dedifferentiate, proliferate, and acquire new fates to repair damaged tissues or develop new organs from wound sites.
Momoko, Ikeuchi +6 more
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To regenerate or not to regenerate: factors that drive plant regeneration
Current Opinion in Plant Biology, 2019Plants have a remarkable regenerative capacity, but it varies widely among species and tissue types. Whether plant cells/tissues initiate regeneration largely depends on the extent to which they are constrained to their original tissue fate. Once cells start the regeneration program, they acquire a new fate, form meristems, and develop into organs ...
Kaoru Sugimoto +3 more
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Plant Fidelity in Somatic Embryogenesis-Regenerated Plants
2016This chapter reviews the literature on somaclonal variation affecting the micropropagation through somatic embryogenesis. The first part covers the following aspects i) principle, protocols and applications of somatic embryogenesis and ii) epigenetic reprogramming and changes in cell fate that underlie somatic embryogenesis.
Etienne, Hervé +4 more
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1986
The idea that cells could contain all the information necessary for the regeneration of a whole organism is implied in the cell theory proposed by Schwann [1]. At that time, however, the technology did not exist to study regeneration of plants from any single cell other than a newly fertilized zygote, and even this development process takes place ...
Teresa Bengochea, John H. Dodds
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The idea that cells could contain all the information necessary for the regeneration of a whole organism is implied in the cell theory proposed by Schwann [1]. At that time, however, the technology did not exist to study regeneration of plants from any single cell other than a newly fertilized zygote, and even this development process takes place ...
Teresa Bengochea, John H. Dodds
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The Biblical World, 1914
Theology, in the nature of the case, must use analogies to express the relation between man and God. In the past religious analogies have been those of politics, of paternity, or of law. The rise of the biological sciences has affected all types of thinking and has given a new group of analogies as well as technical terms to other sciences than this ...
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Theology, in the nature of the case, must use analogies to express the relation between man and God. In the past religious analogies have been those of politics, of paternity, or of law. The rise of the biological sciences has affected all types of thinking and has given a new group of analogies as well as technical terms to other sciences than this ...
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Protoplasts: Isolation, culture, plant regeneration
1986Publisher Summary This chapter presents an idealized example of protoplast isolation with the steps involved in protoplast isolation and culture; discusses the parameters involved in the developmental sequence from protoplast to plant; and overviews a collection of detailed laboratory protocols for protoplast isolation, clonal proliferation, and ...
INGO POTRYKUS, RAYMOND D. SHILLITO
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Plant regeneration fromArabidopsis thaliana protoplasts
Plant Cell Reports, 1990Arabidopsis thaliana protoplasts, isolated from a cell suspension, regenerated cell walls and then exhibited sustained cell divisions. Within 10 days after isolation as many as 40% of the protoplast-derived cells divided. Protoplast-derived calli exhibited a wide range of developmental responses, including apparent embryogenesis.
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Plant Regeneration from Cultured Protoplasts of Higher Plants
1992Second supplement ; International ...
Ochatt, Sergio, Power, J.B.
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Dynamic Epigenetic Changes during Plant Regeneration
Trends in Plant Science, 2018Plants have the remarkable ability to drive cellular dedifferentiation and regeneration. Changes in epigenetic landscapes accompany the cell fate transition. Notably, modifications of chromatin structure occur primarily during callus formation via an in vitro tissue culture process and, thus, pluripotent callus cells have unique epigenetic signatures ...
Kyounghee, Lee, Pil Joon, Seo
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2017
Plant functional traits represent the morphological, physiological or phenological features which exhibit strategies that determine the response of plants to environmental conditions and affect ecosystem services. These traits could be expressed at different levels, e.g.
J. S. Singh, R. K. Chaturvedi
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Plant functional traits represent the morphological, physiological or phenological features which exhibit strategies that determine the response of plants to environmental conditions and affect ecosystem services. These traits could be expressed at different levels, e.g.
J. S. Singh, R. K. Chaturvedi
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