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[151] German M.A., Luo S., Schroth G., Meyers B.C., Green P.J. Construction of Parallel
Analysis of RNA Ends (PARE) Libraries for the Study of Cleaved miRNA Targets and
the RNA Degradome. Nature Protocols 2009;4(3) 356-362.
[152] Seitz H. Redefining miRNA Targets. Current Biology 2009;19(10) 870-873.
[153] European Comission. Research, Bioeconomy, Agriculture and Forestry; Project
ABSTRESS. http://ec.europa.eu/research/bioeconomy/agriculture/projects/
abstress_en.htm (assessed 29 th July 2012).
[154] Bajaj S., Targolli J.J., Liu L.F., Ho T.H.D., Wu R. Transgenic Approaches to Increase
Dehydration-Stress Tolerance in Plants. Molecular Breeding 1999;5(6) 493-503.
[155] Grover A., Aggarwal P.K., Kapoor A., Katiyar-Agarwal S., Agarwal M., Chandramouli
A. Addressing Abiotic Stresses in Agriculture Through Transgenic Technology.
Current Science 2003;84(3) 355-367.
[156] Bhatnagar-Mathur P., Vadez V., Sharma K.K. Transgenic Approaches for Abiotic Stress
Tolerance in Plants: Retrospect and Prospects. Plant Cell Reports 2008;27(3) 411-424.
[157] Ahuja I., de Vos R.C.H., Bones A.M., Hall R.D. Plant Molecular Stress Responses Face
Climate Change. Trends in Plant Science 2010;15(12) 664-674.
[158] Peleg Z., Apse M.P., Blumwald E. Engineering Salinity and Water Stress Tolerance in
Crop Plants: Getting closer to the Field. Advances in Botanical Research 2011;57
405-428.
[159] Roy B., Noren S.K., Mandal A.B., Basu A.K. Genetic Engineering for Abiotic Stress
Tolerance in Agricultural Crops. Biotechnology 2011;10(1) 1-22.
[160] Reguera M., Peleg Z., Blumwald E. Targeting Metabolic Pathways for Genetic Engi‐
neering Abiotic Stress-Tolerance in Crops. Biochimica et Biophysica Acta 2011; in press
(doi:10.1016/j.bbagrm.2011.08.005)
[161] Atkinson N.J., Urwin PE. The Interaction of Plant Biotic and Abiotic Stresses: from
Genes to the Field. Journal of Experimental Botany 2012;63(10) 3523-3544.
[162] Bartels D., Sunkar R. Drought and Salt Tolerance in Plants. Critical Reviews in Plant
Sciences 2005; 24(1) 23-58.
[163] Umezawa T., Fujita M., Fujita Y., Yamaguchi-Shinozaki K., Shinozaki K. Engineering
Drought Tolerance in Plants: Discovering and Tailoring Genes to Unlock the Future.
Current Opinion in Plant Biology 2006;17 113-122.
[164] Lilius G., Holmberg N., Bulow L. Enhanced NaCl Stress Tolerance in Transgenic
Tobacco Expressing Bacterial Choline Dehydrogenase. Nature Biotechnology
1996;14(2) 177-180.
[165] Sakamoto A., Valverde R., Alia, Chen T.H., Murata N. Transformation of Arabidopsis
with the codA Gene for Choline Oxidase Enhances Freezing Tolerance of Plants. The
Plant Journal 2000;22(5) 449-453.
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