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Robert C. Granstedt, Ray C. Huffaker, Identification of the Leaf Vacuole as a Major Nitrate Storage Pool , Plant Physiology, Volume 70, Issue 2, August 1982, Pages 410–413, https://doi.org/10.1104/pp.70.2.410
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Abstract
Highly purified vacuoles were isolated from protoplasts derived from green barley (Hordeum vulgare var. Numar) leaves, in order to determine their role as a NO3− storage sink. α-Mannosidase and acid phosphatase activities were used as markers to identify vacuoles, α-mannosidase being the more suitable. Nitrate and α-mannosidase, which were released from vacuoles destroyed during lysis of protoplasts, moved at unequal rates in the density gradient used for vacuole isolation. Purified vacuoles retained less NO3− than α-mannosidase during a single washing. Empirically determined corrections were used to account for NO3− movement in estimating the percentage of total cellular nitrate found in the vacuole. Vacuoles from plants grown in the presence of NO3− contained 58% of the total cellular NO3− and therefore represent a major NO3− storage pool.
Present address: c/o Standard Fruit Co., Apartado Postal #96, La Ceiba, Honduras, Central America.
This research was in part made possible because of a research assistantship awarded by the Agronomy and Range Science Dept., University of California of Davis.
