Plant regeneration: cellular origins and molecular mechanisms | Zendy

Momoko Ikeuchi | Zendy; Yoichi Ogawa | Zendy; Akira Iwase | Zendy; Keiko Sugimoto | Zendy

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Plant regeneration: cellular origins and molecular mechanisms

Author(s) -

Momoko Ikeuchi,

Yoichi Ogawa,

Akira Iwase,

Keiko Sugimoto

Publication year - 2016

Publication title -

development

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.15

H-Index - 36

eISSN - 1477-9129

pISSN - 0950-1991

DOI - 10.1242/dev.134668

Subject(s) - biology , regeneration (biology) , reprogramming , somatic cell , microbiology and biotechnology , auxin , cytokinin , developmental plasticity , somatic embryogenesis , developmental biology , embryo , genetics , embryogenesis , cell , plasticity , gene , physics , thermodynamics

Compared with animals, plants generally possess a high degree of developmental plasticity and display various types of tissue or organ regeneration. This regenerative capacity can be enhanced by exogenously supplied plant hormones in vitro, wherein the balance between auxin and cytokinin determines the developmental fate of regenerating organs. Accumulating evidence suggests that some forms of plant regeneration involve reprogramming of differentiated somatic cells, whereas others are induced through the activation of relatively undifferentiated cells in somatic tissues. We summarize the current understanding of how plants control various types of regeneration and discuss how developmental and environmental constraints influence these regulatory mechanisms.

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