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Christina E Offler

Showing results (1-10 of 41) with videos related to

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The New Phytologist|May 29, 2020
Transfer cells: what regulates the development of their intricate wall labyrinths?Christina E Offler, John W Patrick
Protoplasma|July 9, 2002
Transfer cell wall architecture: a contribution towards understanding localized wall depositionMark J Talbot, Christina E Offler, David W McCurdy
Frontiers in Plant Science|August 6, 2013
Regulation of fruit and seed response to heat and drought by sugars as nutrients and signalsYong-Hua Liu, Christina E Offler, Yong-Ling Ruan
Frontiers in Plant Science|January 8, 2015
A simple, rapid, and reliable protocol to localize hydrogen peroxide in large plant organs by DAB-mediated tissue printingYong-Hua Liu, Christina E Offler, Yong-Ling Ruan
Plant Physiology|July 28, 2016
Cell Wall Invertase Promotes Fruit Set under Heat Stress by Suppressing ROS-Independent Cell DeathYong-Hua Liu, Christina E Offler, Yong-Ling Ruan
Current Opinion in Plant Biology|October 14, 2008
Wall ingrowth formation in transfer cells: novel examples of localized wall deposition in plant cellsDavid W McCurdy, John W Patrick, Christina E Offler
Journal of Experimental Botany|October 7, 2019
Enzymes contributing to the hydrogen peroxide signal dynamics that regulate wall labyrinth formation in transfer cellsXue Xia, Hui-Ming Zhang, Christina E Offler, et al.
Journal of Experimental Botany|October 20, 2017
A Ca2+-dependent remodelled actin network directs vesicle trafficking to build wall ingrowth papillae in transfer cellsHui-Ming Zhang, Kim Colyvas, John W Patrick, et al.
Functional Plant Biology : FPB|July 22, 2020
Increased capacity for sucrose uptake leads to earlier onset of protein accumulation in developing pea seedsElke G Rosche, Daniel Blackmore, Christina E Offler, et al.
Functional Plant Biology : FPB|July 22, 2020
Research note: Deposition patterns of cellulose microfibrils in flange wall ingrowths of transfer cells indicate clear parallels with those of secondary wall thickeningsMark J Talbot, Geoffrey Wasteneys, David W McCurdy, et al.
Pageof 5

Showing results (1-10 of 41) with videos related to

Sort By:
Pageof 5
The New Phytologist|May 29, 2020
Transfer cells: what regulates the development of their intricate wall labyrinths?Christina E Offler, John W Patrick
Protoplasma|July 9, 2002
Transfer cell wall architecture: a contribution towards understanding localized wall depositionMark J Talbot, Christina E Offler, David W McCurdy
Frontiers in Plant Science|August 6, 2013
Regulation of fruit and seed response to heat and drought by sugars as nutrients and signalsYong-Hua Liu, Christina E Offler, Yong-Ling Ruan
Frontiers in Plant Science|January 8, 2015
A simple, rapid, and reliable protocol to localize hydrogen peroxide in large plant organs by DAB-mediated tissue printingYong-Hua Liu, Christina E Offler, Yong-Ling Ruan
Plant Physiology|July 28, 2016
Cell Wall Invertase Promotes Fruit Set under Heat Stress by Suppressing ROS-Independent Cell DeathYong-Hua Liu, Christina E Offler, Yong-Ling Ruan
Current Opinion in Plant Biology|October 14, 2008
Wall ingrowth formation in transfer cells: novel examples of localized wall deposition in plant cellsDavid W McCurdy, John W Patrick, Christina E Offler
Journal of Experimental Botany|October 7, 2019
Enzymes contributing to the hydrogen peroxide signal dynamics that regulate wall labyrinth formation in transfer cellsXue Xia, Hui-Ming Zhang, Christina E Offler, et al.
Journal of Experimental Botany|October 20, 2017
A Ca2+-dependent remodelled actin network directs vesicle trafficking to build wall ingrowth papillae in transfer cellsHui-Ming Zhang, Kim Colyvas, John W Patrick, et al.
Functional Plant Biology : FPB|July 22, 2020
Increased capacity for sucrose uptake leads to earlier onset of protein accumulation in developing pea seedsElke G Rosche, Daniel Blackmore, Christina E Offler, et al.
Functional Plant Biology : FPB|July 22, 2020
Research note: Deposition patterns of cellulose microfibrils in flange wall ingrowths of transfer cells indicate clear parallels with those of secondary wall thickeningsMark J Talbot, Geoffrey Wasteneys, David W McCurdy, et al.
Pageof 5