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Correlation between potassium efflux and copper sensitivity in 10 Arahidopsis ecotypes *
Author(s) -
MURPHY ANGUS,
TAIZ LINCOLN
Publication year - 1997
Publication title -
new phytologist
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.742
H-Index - 244
eISSN - 1469-8137
pISSN - 0028-646X
DOI - 10.1046/j.1469-8137.1997.00738.x
Subject(s) - ecotype , efflux , copper , potassium , membrane permeability , arabidopsis , chemistry , biology , membrane , botany , biochemistry , mutant , organic chemistry , gene
SUMMARY To study the relationship between copper sensitivity and membrane permeability in Arabidopsis , the seedling growth rates (measured as root extension and f. wt increase) of 10 ecotypes with differing copper sensitivities were compared with their patterns of potassium efflux and copper uptake. At 36 h, inhibition of root extension in 40 μi Cu correlated well with K + efflux ( r = 0.96) and a decrease in osmolality ( r = 0.96). By contrast, neither tissue osmolality nor K + efflux correlated significantly with growth inhibition after 4 h Cu treatment. In detailed time‐course studies of two of the less sensitive ecotypes (Shadhara and Ws) and two of the more sensitive ecotypes (Berkeley and Limeport) in 20 μM Cu, growth, K + retention and osmolality decreased rapidly during the first 4 h. Only the two less sensitive ecotypes recovered during the following 32 h. A similar pattern was observed with 40 μM Cu, except that growth inhibition was more marked. Interestingly, after 4 h the less sensitive ecotypes exhibited greater inhibition than the more sensitive. In time‐course measurements, the Cu contents of the four ecotypes were not significantly different when normalised on a f. wt basis. We conclude that variations in the metal sensitivities of Arabidopsis ecotypes are not due to constitutive differences in membrane permeability but, rather, to differences in the ability to reverse K + efflux. The possibility that short‐term Cu‐induced K + ‐leakage is regulated by channels rather than lipid oxidation is discussed.

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