Roles of YABBY transcription factors in the modulation of morphogenesis, development, and phytohormone and stress responses in plants
- PMID: 33033876
- DOI: 10.1007/s10265-020-01227-7
Roles of YABBY transcription factors in the modulation of morphogenesis, development, and phytohormone and stress responses in plants
Abstract
The YABBY family is a class of plant-specific transcription factors comprising a typical N-terminal C2C2-type zinc finger domain and a C-terminal helix-loop-helix YABBY domain. YABBY transcription factors play important roles in multiple biological processes, including polarity establishment in plant leaves, the formation and development of reproductive organs, the response to plant hormone signals, resistance to stress, crop breeding and agricultural production. The aim of this review is to summarize our current understanding of the roles, functions and value of the YABBY family in plants, with particular emphasis on new insights into the molecular and physiological mechanisms involved in the YABBY-mediated modulation of polarity establishment, morphogenesis and development, and phytohormone and stress responses in plants. In addition, we propose that this transcription factor family presents great value and potential for research, application and development in crop breeding and agricultural production in the future.
Keywords: Crop breeding and agricultural production; Morphogenesis and development; Phytohormone and stress response; Polarity establishment; YABBY transcription factors.
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