Selective production of sealed plasma membrane vesicles from red beet ( Bete vulgaris L.) storage tissue

Modification of our previous procedure for the isolation of microsomal membrane vesicles from red beet ( Beta vulgaris L.) storage tissue allowed the recovery of sealed membrane vesicles displaying proton transport activity sensitive to both nitrate and orthovanadate. In the absence of a high salt c...

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Veröffentlicht in:Arch. Biochem. Biophys.; (United States) 1987-05, Vol.254 (2), p.621-630
Hauptverfasser: Giannini, John L., Gildensoph, Lynne H., Briskin, Donald P.
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Sprache:eng
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Zusammenfassung:Modification of our previous procedure for the isolation of microsomal membrane vesicles from red beet ( Beta vulgaris L.) storage tissue allowed the recovery of sealed membrane vesicles displaying proton transport activity sensitive to both nitrate and orthovanadate. In the absence of a high salt concentration in the homogenization medium, contributions of nitrate-sensitive (tonoplast) and vanadate-sensitive (plasma membrane) proton transport were roughly equal. The addition of 0.25 m KCl to the homogenization medium increased the relative amount of nitrate-inhibited proton transport activity while the addition of 0.25 m KI resulted in proton pumping vesicles displaying inhibition by vanadate but stimulation by nitrate. These effects appeared to result from selective sealing of either plasma membrane or tonoplast membrane vesicles during homogenization in the presence of the two salts. Following centrifugation on linear sucrose gradients it was shown that the nitrate-sensitive, proton-transporting vesicles banded at low density and comigrated with nitrate-sensitive ATPase activity while the vanadate-sensitive, proton-transporting vesicles banded at a much higher density and comigrated with vanadate-sensitive ATPase. The properties of the vanadate-sensitive proton pumping vesicles were further characterized in microsomal membrane fractions produced by homogenization in the presence of 0.25 m KI and centrifugation on discontinuous sucrose density gradients. Proton transport was substrate specific for ATP, displayed a sharp pH optimum at 6.5, and was insensitive to azide but inhibited by N′-N-dicyclohexylcarbodiimide, diethylstilbestrol, and fluoride. The K m of proton transport for Mg:ATP was 0.67 m m and the K 0.5 for vanadate inhibition was at about 50 μ m. These properties are identical to those displayed by the plasma membrane ATPase and confirm a plasma membrane origin for the vesicles.
ISSN:0003-9861
1096-0384
DOI:10.1016/0003-9861(87)90145-7