Isolation of plasma membrane fractions from green wheat leaves by free-flow electrophoresis or two-phase partition alone or in combination |
| |
Authors: | Alfred Egger,D. James Moiré ,Gun Sellden,Anna Stina Sandelius |
| |
Affiliation: | Bifangslrasse 71, CH-4663 Aarburg, Switzerland;Dept of Medicinal Chemistry and Pharmacognocy, Purdue Univ., West Lafayette, IN 47907, USA;Botanical Institute, Dept of Plant Physiology, Univ. of Göteborg, Carl Skottsbergs Gata 22, S-413 19 Goteborg, Sweden. |
| |
Abstract: | Plasma membrane vesicles were isolated from shoots of light-grown wheat seedlings by preparative free-flow electrophoresis, aqueous polymer two-phase partition or both. Plasma membrane vesicles were identified from staining of thin sections prepared for electron microscopy with phosphotungstic acid at low pH. The orientation of the plasma membrane vesicles was determined from latency and trypsin sensitivity of K+ Mg2+ATPase and of glucan synthase II, and concanavalin A-peroxidase binding and membrane asymmetry visualized by electron microscopy. The K+Mg2+ATPase and of glucan synthase II activities of plasma membrane fractions isolated by two-phase partition were latent and trypsin resistant. The vesicles bound concanavalin A-peroxidase strongly and exhibited a cytoplasmic side-in morphology. These fractions of cytoplasmic side-in vesicles were less than 10% contaminated by cytoplasmic side-out vesicles. By free-flow electrophoresis, two populations of vesicles which stained with phosphotungstic acid at low pH, designated D and E, were obtained. The vesicle population with the lower electrophoretic mobility, fraction E, contained plasma membrane vesicles with properties similar to those of the plasma membrane vesicles obtained after two-phase partition. The phosphotungstic-reactive vesicles with greater electrophoretic mobility, fraction D, were concanavalin A unreactive with the cytoplasmic membrane leaflet outwards. Less than 50% of the K+Mg2+-ATPase activity of this fraction was latent and trypsin sensitive. The vesicles of fraction D appeared to be preferentially cytoplasmic side-out. The electrophoretic mobilities of cytoplasmic side-out (non-latent glucan synthase II activity) and cytoplasmic side-in (latent glncan synthase II activity) plasma membrane vesicles isolated from a frozen and thawed wheat plasma membrane fraction, corresponded with the mobilities of fraction D and E, respectively, again showing that the plasma membrane vesicles with the lesser electrophoretic mobility were cytoplasmic side-in. The cytoplasmic side-in and cytoplasmic side-out vesicles therefore showed opposite eletrophoretic mobilities compared with a previous free-flow electrophoretic separation of soybean plasma membranes. The majorities of the plasma membrane vesicles of both fractions D and E entered the upper phase upon two-phase partition with the phase composition used for purification of wheat plasma membranes. Thus, neither electrophoretic mobility nor phase partitioning characteristics can be used as the only criteria for assignment of vesicle orientation. |
| |
Keywords: | ATPase concanavalin A free-flow electrophoresis glucan synthase II plasma membrane two-phase partition Triticum aestivum vesicle orientation wheat |
|
|