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Research ArticleEnvironmental and Stress Physiology
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Effect of Macerase, Oxalic Acid, and EGTA on Deep Supercooling and Pit Membrane Structure of Xylem Parenchyma of Peach

Michael Wisniewski, Glen Davis, Rajeev Arora
Michael Wisniewski
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Glen Davis
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Rajeev Arora
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Published August 1991. DOI: https://doi.org/10.1104/pp.96.4.1354

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Abstract

The object of this study was to determine if calcium cross-linking of pectin in the pit membrane of xylem parenchyma restricts water movement which results in deep supercooling. Current year shoots of `Loring' peach (Prunus persica) were infiltrated with oxalic acid or EGTA solutions for 24 or 48 hours and then either prepared for ultrastructural analysis or subjected to differential thermal analysis. The effect of 0.25 to 1.0% pectinase (weight/volume) on deep supercooling was also investigated. The use of 5 to 50 millimolar oxalic acid and pectinase resulted in a significant reduction (flattening) of the low temperature exotherm and a distinct swelling and partial degradation of the pit membrane. EGTA (10 millimolar) for 24 or 48 hours shifted the low temperature exotherm to warmer temperatures and effected the outermost layer of the pit membrane. A hypothesis is presented on pectin-mediated regulation of deep supercooling of xylem parenchyma.

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Effect of Macerase, Oxalic Acid, and EGTA on Deep Supercooling and Pit Membrane Structure of Xylem Parenchyma of Peach
Michael Wisniewski, Glen Davis, Rajeev Arora
Plant Physiology Aug 1991, 96 (4) 1354-1359; DOI: 10.1104/pp.96.4.1354

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Effect of Macerase, Oxalic Acid, and EGTA on Deep Supercooling and Pit Membrane Structure of Xylem Parenchyma of Peach
Michael Wisniewski, Glen Davis, Rajeev Arora
Plant Physiology Aug 1991, 96 (4) 1354-1359; DOI: 10.1104/pp.96.4.1354
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Plant Physiology
Vol. 96, Issue 4
August 1991
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