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Cellular, Molecular, and Physiological Aspects of In Vitro Plant Regeneration
Plants generally have the highest regenerative ability because they show a high degree of developmental plasticity. Although the basic principles of plant regeneration date back many years, understanding the cellular, molecular, and physiological ...
Siamak Shirani Bidabadi, S. Mohan Jain
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To regenerate or not to regenerate: factors that drive plant regeneration
Plants 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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Molecular Mechanisms of Plant Regeneration
Plants 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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Plant biodiversity and the regeneration of soil fertility [PDF]
Significance Both plant biodiversity and soil fertility are in decline. We find that restoration of plant biodiversity on a nutrient-poor, unfertilized soil led to greater increases in soil fertility than occurred when these same plant species grew in monocultures.
George N. Furey, David Tilman
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WOX11: the founder of plant organ regeneration
AbstractDe novo organ regeneration is the process in which adventitious roots or shoots regenerate from detached or wounded organs. De novo organ regeneration can occur either in natural conditions, e.g. adventitious root regeneration from the wounded sites of detached leaves or stems, or in in-vitro tissue culture, e.g. organ regeneration from callus.
Qihui Wan +4 more
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Stem cells and plant regeneration
Multicellular organisms show the ability to replace damage cells, tissues and even whole organs through regeneration mechanisms. Plants show a remarkable regenerative potential. While the basic principles of plant regeneration have been known for a number of decades, the molecular and cellular mechanisms underlying such principles are currently ...
Pablo, Perez-Garcia +1 more
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Plant grafting: insights into tissue regeneration [PDF]
For millennia, people have cut and joined different plants together through a process known as grafting. The severed tissues adhere, the cells divide and the vasculature differentiates through a remarkable process of regeneration between two genetically distinct organisms as they become one.
Charles W. Melnyk
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An inducible CRISPR activation tool for accelerating plant regeneration. [PDF]
The inducible CRISPR activation (CRISPR-a) system offers unparalleled precision and versatility for regulating endogenous genes, making it highly sought after in plant research.
Zhang C +17 more
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A Molecular Framework for Plant Regeneration [PDF]
Plants and some animals have a profound capacity to regenerate organs from adult tissues. Molecular mechanisms for regeneration have, however, been largely unexplored. Here we investigate a local regeneration response in Arabidopsis roots. Laser-induced wounding disrupts the flow of auxin—a cell-fate–instructive plant hormone—in root tips, and we ...
Xu, J. +5 more
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Natural Variation in Plant Pluripotency and Regeneration [PDF]
Plant regeneration is essential for survival upon wounding and is, hence, considered to be a strong natural selective trait. The capacity of plant tissues to regenerate in vitro, however, varies substantially between and within species and depends on the applied incubation conditions.
Robin Lardon, Danny Geelen
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