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clarkia_breweri_a._gray_greene [2016/06/12 15:31]
andreas 		clarkia_breweri_a._gray_greene [2016/06/12 15:32] (aktuell)
andreas
Zeile 9: Zeile 9:
 [[http://deepblue.lib.umich.edu/bitstream/handle/2027.42/41639/606_2004_Article_BF00983216.pdf?sequence=1]]   [[http://deepblue.lib.umich.edu/bitstream/handle/2027.42/41639/606_2004_Article_BF00983216.pdf?sequence=1]]  
  
-"... GC-MS analyses of C. breweri floral scent identified (S)-linalool and it’s pyranoid oxide, together with benzyl acetate, as the most abundant volatiles emitted over the course of 46 days, with a peak in abundance during the first 36 h (Pichersky et al. 1994). The additional five to 12 floral volatiles identified in our analyses were aromatic esters and alcohols produced by the shikimate pathway...  Six- and 12-h scent collection periods over a time course of 5 days revealed that there were no marked quantitative or qualitative differences in diurnal versus nocturnal emissions, unlike the pronounced circadian rhythmicity of linalool emission in many species of night-blooming plants. Scent analyses from modified C. breweri flowers identified+"... GC-MS analyses of C. breweri floral scent identified (S)-linalool and it’s pyranoid oxide, together with benzyl acetate, as the most abundant volatiles emitted over the course of 4-6 days, with a peak in abundance during the first 36 h (Pichersky et al. 1994). The additional five to 12 floral volatiles identified in our analyses were aromatic esters and alcohols produced by the shikimate pathway...  Six- and 12-h scent collection periods over a time course of 5 days revealed that there were no marked quantitative or qualitative differences in diurnal versus nocturnal emissions, unlike the pronounced circadian rhythmicity of linalool emission in many species of night-blooming plants. Scent analyses from modified C. breweri flowers identified
 autonomous emissions of linalool by all floral organs, in amounts roughly proportional to their relative masses, while linalool oxides were emitted exclusively by the pistil." \\ autonomous emissions of linalool by all floral organs, in amounts roughly proportional to their relative masses, while linalool oxides were emitted exclusively by the pistil." \\
 [New Perspectives in Pollination Biology: Floral Fragrances. A day in the life of a linalool molecule: Chemical communication in a plant‐pollinator system. Part 1: Linalool biosynthesis in flowering plants. Raguso, R. A., & Pichersky, E., Plant Species Biology, Vol.14(2), 1999, 95-120] \\ [New Perspectives in Pollination Biology: Floral Fragrances. A day in the life of a linalool molecule: Chemical communication in a plant‐pollinator system. Part 1: Linalool biosynthesis in flowering plants. Raguso, R. A., & Pichersky, E., Plant Species Biology, Vol.14(2), 1999, 95-120] \\
clarkia_breweri_a._gray_greene.txt · Zuletzt geändert: 2016/06/12 15:32 von andreas

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