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Andrew J Cairns

Showing results (1-10 of 8) with videos related to

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Journal of Experimental Botany|January 1, 2003
Fructan biosynthesis in transgenic plantsAndrew J Cairns
The New Phytologist|December 22, 2017
Fructan biosynthesis in excised leaves of Lolium temulentum L.: IV. Cell-free <sup>14</sup> C labelling of specific oligofructans at low sucrose concentrationAndrew J Cairns
Planta|May 13, 2004
Absence of turnover and futile cycling of sucrose in leaves of Lolium temulentum L.: implications for metabolic compartmentationAndrew J Cairns, Joseph A Gallagher
The New Phytologist|April 20, 2021
Fructan biosynthesis in excised leaves of wheat (Triticum aestivum L.): a comparison of de novo synthesis in vivo and in vitroSimon P Penson, Andrew J Cairns
The New Phytologist|September 20, 2008
Ryegrass leaf fructan synthesis is oxygen dependent and abolished by endomembrane inhibitorsAndrew J Cairns, Lesley B Turner, Joseph A Gallagher
The New Phytologist|April 20, 2021
Submerged batch culture of the psychrophile Monographella nivalis in a defined medium; growth, carbohydrate utilization and responses to temperatureAndrew J Cairns, Catherine J Howarth, Christopher J Pollock
Frontiers in Plant Science|July 29, 2015
Fructan synthesis, accumulation, and polymer traits. I. Festulolium chromosome substitution linesJoe A Gallagher, Andrew J Cairns, David Thomas, et al.
Frontiers in Plant Science|November 4, 2015
Fructan synthesis, accumulation and polymer traits. II. Fructan pools in populations of perennial ryegrass (Lolium perenne L.) with variation for water-soluble carbohydrate and candidate genes were not correlated with biosynthetic activity and demonstrated constraints to polymer chain extensionJoe A Gallagher, Andrew J Cairns, David Thomas, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Journal of Experimental Botany|January 1, 2003
Fructan biosynthesis in transgenic plantsAndrew J Cairns
The New Phytologist|December 22, 2017
Fructan biosynthesis in excised leaves of Lolium temulentum L.: IV. Cell-free <sup>14</sup> C labelling of specific oligofructans at low sucrose concentrationAndrew J Cairns
Planta|May 13, 2004
Absence of turnover and futile cycling of sucrose in leaves of Lolium temulentum L.: implications for metabolic compartmentationAndrew J Cairns, Joseph A Gallagher
The New Phytologist|April 20, 2021
Fructan biosynthesis in excised leaves of wheat (Triticum aestivum L.): a comparison of de novo synthesis in vivo and in vitroSimon P Penson, Andrew J Cairns
The New Phytologist|September 20, 2008
Ryegrass leaf fructan synthesis is oxygen dependent and abolished by endomembrane inhibitorsAndrew J Cairns, Lesley B Turner, Joseph A Gallagher
The New Phytologist|April 20, 2021
Submerged batch culture of the psychrophile Monographella nivalis in a defined medium; growth, carbohydrate utilization and responses to temperatureAndrew J Cairns, Catherine J Howarth, Christopher J Pollock
Frontiers in Plant Science|July 29, 2015
Fructan synthesis, accumulation, and polymer traits. I. Festulolium chromosome substitution linesJoe A Gallagher, Andrew J Cairns, David Thomas, et al.
Frontiers in Plant Science|November 4, 2015
Fructan synthesis, accumulation and polymer traits. II. Fructan pools in populations of perennial ryegrass (Lolium perenne L.) with variation for water-soluble carbohydrate and candidate genes were not correlated with biosynthetic activity and demonstrated constraints to polymer chain extensionJoe A Gallagher, Andrew J Cairns, David Thomas, et al.
Pageof 1