Abstract
In this review, we describe and integrate the latest knowledge on the signaling role of proteins and peptides in the stress-induced microspore embryogenesis (ME) in some crop plants with agricultural importance (i.e., oilseed rape, tobacco, barley, wheat, rice, triticale, rye). Based on the results received from the most advanced omix analyses, we have selected some inconspicuous but possibly important players in microspores reprogramming toward embryogenic development. We provide an overview of the roles and downstream effect of stress-related proteins (e.g., β-1,3-glucanases, chitinases) and small signaling peptides, especially cysteine—(e.g., glutathione, γ-thionins, rapid alkalinization factor, lipid transfer, phytosulfokine) and glycine-rich peptides and other proteins (e.g., fasciclin-like arabinogalactan protein) on acclimation ability of microspores and the cell wall reconstruction in a context of ME induction and haploids/doubled haploids (DHs) production. Application of these molecules, stimulating the induction and proper development of embryo-like structures and green plant regeneration, brings significant improvement of the effectiveness of DHs procedures and could result in its wider incorporation on a commercial scale. Recent advances in the design and construction of synthetic peptides–mainly cysteine-rich peptides and their derivatives–have accelerated the development of new DNA-free genome-editing techniques. These new systems are evolving incredibly fast and soon will find application in many areas of plant science and breeding.
Highlights
By 2035, the human population is expected to reach around 8.9 billion, and by the middle of the 21st century nearly 10 billion
The exposure to these stress factors leads to oxidative stress that is induced by increased levels of reactive oxygen species (ROS) including free radicals such as superoxide anion (O·2−) and hydroxyl radical (OH·), and non-radicals like hydrogen peroxide (H2O2), singlet oxygen (1O2) and lipid peroxides (LOOH)
Inspired by previous and recent findings, we review how stress tolerance-related proteins (e.g., β-1,3glucanases, chitinases) and small signaling peptides, especially cysteine-(Cys, e.g., glutathione, γ -thionins, rapid alkalinization factor, lipid transfer, phytosulfokine) and/or glycine-rich peptides and other proteins, those involved in the regulation of cellular redox potential or the cell wall reconstruction could be promising tools for improving doubled haploid (DH) production in crop plants
Summary
We provide an overview of the roles and downstream effect of stress-related proteins (e.g., β-1,3-glucanases, chitinases) and small signaling peptides, especially cysteine—(e.g., glutathione, γ -thionins, rapid alkalinization factor, lipid transfer, phytosulfokine) and glycine-rich peptides and other proteins (e.g., fasciclin-like arabinogalactan protein) on acclimation ability of microspores and the cell wall reconstruction in a context of ME induction and haploids/doubled haploids (DHs) production. Application of these molecules, stimulating the induction and proper development of embryo-like structures and green plant regeneration, brings significant improvement of the effectiveness of DHs procedures and could result in its wider incorporation on a commercial scale.
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