Handbook of Plant and Crop Physiology

(Steven Felgate) #1

Effects of exogenous application of GB as a management strategy for improving stress resistance in
drought-prone and saline environments need to be evaluated. Potential impacts of introducing the GB
biosynthetic pathway into crops (that do not accumulate) are not fully understood. There are concerns that
introducing genes for GB synthesis may not be sufficient if precursor compounds such as choline are still
limiting. Introducing genes that promote synthesis of these precursor compounds (such as choline from
serine) would also need to be evaluated. Also, transport mechanisms for GB between cell compartments
and tissues are not well understood and need further study [8].
Successful development of stress-tolerant crops will require large-scale metabolic engineering of not
only genes encoding osmolytes but also those for antioxidants, water channel proteins, etc. because os-
motic adjustment is just part of a complex web of adaptive strategies in plants [215,257]. The complex-
ity and range of physiological mechanisms that have similar adaptive roles for drought and salinity make
it a challenging task to establish the functional role of GB in crop adaptation to stressful environments.


ACKNOWLEDGMENTS


We would like to thank Drs. Wade Berry (University of California, Los Angeles) and M. Shannon
(USDA Salinity, Riverside, CA), who went through the earlier versions of the manuscript and
made several suggestions to improve it. Also, we would like to thank Dr. William Knott, NASA
Biomedical Office, Kennedy Space Center, for his support and encouragement for this project. This re-
search was supported through the National Research Council and NASA’s Life Support Contract
(NAS10-12180).


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GLYCINE BETAINE IN STRESS RESISTANCE 899

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