The Arabidopsis Ca²⁺ / H⁺ exchangers, AtCAX1 and AtCAX3, are shown by co-localisation, interaction and complementation to participate in plant Ca²⁺ homeostasis.
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(Title page, preface and table of contents only)
Date
2008
Authors
Hocking, Bradleigh
Editors
Advisors
Able, Amanda Jane
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Type:
Thesis
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Abstract
This research was performed over 10 months as part of a Masters in Biotechnology (Plant Biotechnology). The literature review was previously assessed but has been modified somewhat to address small changes in the research focus of the project. Although the research manuscript contained herein will provide the first draft of a future publication in Plant Cell and Physiology Journal, due to time constraints, additional data relevant to that publication may be collected. Additional data that has been collected which was not conclusive or integral to the focus of the research manuscript is provided within the appendices. The research manuscript details investigations into the interactions of Arabidopsis calcium transporters, while the appendices contain additional information pertaining to protoplast transformations, plasmid construction and plant
media recipes.
School/Discipline
School of Agriculture, Food and Wine : Plant and Food Science
Dissertation Note
Thesis (M.Bio (PB)) - University of Adelaide, School of Agriculture, Food and Wine, 2008
Provenance
Master of Biotechnology (Plant Biotechnology) by coursework