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Compatible Solutes Engineering for Crop Plants Facing Climate Change (Hardcover, 1st ed. 2021)
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Compatible Solutes Engineering for Crop Plants Facing Climate Change (Hardcover, 1st ed. 2021)
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Plants, being sessile and autotrophic in nature, must cope with
challenging environmental aberrations and therefore have evolved
various responsive or defensive mechanisms including stress sensing
mechanisms, antioxidant system, signaling pathways, secondary
metabolites biosynthesis, and other defensive pathways among which
accumulation of osmolytes or osmo-protectants is an important
phenomenon. Osmolytes with organic chemical nature termed as
compatible solutes are highly soluble compounds with no net charge
at physiological pH and nontoxic at higher concentrations to plant
cells. Compatible solutes in plants involve compounds like proline,
glycine betaine, polyamines, trehalose, raffinose family
oligosaccharides, fructans, gamma aminobutyric acid (GABA), and
sugar alcohols playing structural, physiological, biochemical, and
signaling roles during normal plant growth and development. The
current and sustaining problems of climate change and increasing
world population has challenged global food security. To feed more
than 9 billion, the estimated population by 2050, the yield of
major crops needs to be increased 1.1-1.3% per year, which is
mainly restricted by the yield ceiling. A major factor limiting the
crop yield is the changing global environmental conditions which
includes drought, salinity and extreme temperatures and are
responsible for a reduction of crop yield in almost all the crop
plants. This condition may worsen with a decrease in agricultural
land or the loss of potential crop yields by 70%. Therefore, it is
a challenging task for agricultural scientists to develop
tolerant/resistant varieties against abiotic stresses. The
development of stress tolerant plant varieties through conventional
breeding is very slow due to complex multigene traits. Engineering
compatible solutes biosynthesis by deciphering the mechanism behind
the abiotic tolerance or accumulation in plants cell is a potential
emerging strategy to mitigate adverse effects of abiotic stresses
and increase global crop production. However, detailed information
on compatible solutes, including their sensing/signaling,
biosynthesis, regulatory components, underlying biochemical
mechanisms, crosstalk with other signaling pathways, and transgenic
development have not been compiled into a single resource. Our book
intends to fill this unmet need, with insight from recent advances
in compatible solutes research on agriculturally important crop
plants.
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