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[310] Sharkey T.D., Singsaas E.L. Why Plants Emit Isoprene. Nature 1995;374 769.
[311] Sasaki K., Saito T., Lämsä M., Oksman-Caldentey K.M., Suzuki M., Ohyama K.,
Muranaka T., Ohara K., Yazaki K. Plants Utilize Isoprene Emission as a Thermotoler‐
ance Mechanism. Plant Cell Physiology 2007;48(9) 1254-1262.
[312] Behnke K., Kaiser A., Zimmer I., Brüggemann N., Janz D., Polle A., Hampp R., Hänsch
R., Popko J., Schmitt-Kopplin P., Ehlting B., Rennenberg H., Barta C., Loreto F.,
Schnitzler J.P. RNAi-mediated Suppression of Isoprene Emission in Poplar Transiently
Impacts Phenolic Metabolism under High Temperature and High Light intensities: a
transcriptomic and metabolomic analysis. Plant Molecular Biology 2010;74(1-2) 61-75.
[313] Field C.B., Barros V., Stocker T.F., Qin D., Dokken D.J., Ebi K.L., Mastrandrea M.D.,
Mach K.J., Plattner G.-K., Allen S.K., Tignor M., Midgley P.M., editors. Intergovern‐
mental Panel on Climate Change 2012 (IPCC 2012), Managing the Risks of Extreme
Events and Disasters to Advance Climate Change Adaptation. Cambridge: Cambridge
University Press; 2012.
[314] Goodstein D.M., Shu S., Howson R., Neupane R., Hayes R.D., Fazo J., Mitros T., Dirks
W., Hellsten U., Putnam N., Rokhsar D.S. Phytozome: a comparative platform for green
plant genomics. Nucleic Acids Research 2012;40(D1) D1178-D1186. Available from:
http://www.phytozome.net.
[315] Plant Metabolic Network (PMN). http://www.plantcyc.org. (assessed 26th August
2012)
[316] The UniProt Consortium. Reorganizing the protein space at the Universal Protein
Resource (UniProt). Nucleic Acids Research 2012; 40(D1) D71-D75 (2012). Available
from: http://www.uniprot.org.
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