Modulation of plasma membrane H+‐ATPase from oat roots by lysophosphatidylcholine, free fatty acids and phospholipase A2

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Modulation of plasma membrane H+‐ATPase from oat roots by lysophosphatidylcholine, free fatty acids and phospholipase A2. / Palmgren, Michael Gjedde; Sommarin, Marianne; Ulvskov, Peter; Jørgensen, Peter Leth.

In: Physiologia Plantarum, Vol. 74, No. 1, 1988, p. 11-19.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Palmgren, MG, Sommarin, M, Ulvskov, P & Jørgensen, PL 1988, 'Modulation of plasma membrane H+‐ATPase from oat roots by lysophosphatidylcholine, free fatty acids and phospholipase A2', Physiologia Plantarum, vol. 74, no. 1, pp. 11-19. https://doi.org/10.1111/j.1399-3054.1988.tb04934.x

APA

Palmgren, M. G., Sommarin, M., Ulvskov, P., & Jørgensen, P. L. (1988). Modulation of plasma membrane H+‐ATPase from oat roots by lysophosphatidylcholine, free fatty acids and phospholipase A2. Physiologia Plantarum, 74(1), 11-19. https://doi.org/10.1111/j.1399-3054.1988.tb04934.x

Vancouver

Palmgren MG, Sommarin M, Ulvskov P, Jørgensen PL. Modulation of plasma membrane H+‐ATPase from oat roots by lysophosphatidylcholine, free fatty acids and phospholipase A2. Physiologia Plantarum. 1988;74(1):11-19. https://doi.org/10.1111/j.1399-3054.1988.tb04934.x

Author

Palmgren, Michael Gjedde ; Sommarin, Marianne ; Ulvskov, Peter ; Jørgensen, Peter Leth. / Modulation of plasma membrane H+‐ATPase from oat roots by lysophosphatidylcholine, free fatty acids and phospholipase A2. In: Physiologia Plantarum. 1988 ; Vol. 74, No. 1. pp. 11-19.

Bibtex

@article{0ad0639c226b4d4481c32754088be52c,
title = "Modulation of plasma membrane H+‐ATPase from oat roots by lysophosphatidylcholine, free fatty acids and phospholipase A2",
abstract = "Plasma membrane vesicles were purified from 8‐day‐old oat (Avena sativa L. cv. Brighton) roots in an aqueous polymer two‐phase system. The plasma membranes possessed high specific ATPase activity [ca 4 μmol P1 (mg protein)−1 min−1 at 37°C]. Addition of lysophosphatidylcholine (lyso‐PC) produced a 2–3 fold activation of the plasma membrane ATPase, an effect due both to exposure of latent ATP binding sites and to a true activation of the enzyme. Lipid activation increased the affinity for ATP and caused a shift of the pH optimum of the H+ ‐ATPase activity to 6.75 as compared to pH 6.45 for the negative H+‐ATPase. Activation was dependent on the chain length of the acyl group of the lyso‐PC, with maximal activition obtained by palmitoyl lyso‐PC. Free fatty acids also activated the membrane‐bound H+‐ATPase. This activation was also dependent on chain length and to the degree of unsaturation, with linolenic and arachidonic acid as the most efficient fatty acids. Exogenously added PC was hydrolyzed to lyso‐PC and free fatty acids by an enzyme in the plasma membrane preparation, presumably of the phospholipase A type. Both lyso‐PC and free fatty acids are products of phospholipase A2 (EC 3.1.1.4) action, and addition of phospholipase A2 from animal sources increased the H+‐ATPase activity within seconds. Interaction with lipids and fatty acids could thus be part of the regulatory system for H+‐ATPase activity in vivo, and the endogenous phospholipase may be involved in the regulation of the H+‐ATPase activity in the plasma membranne.",
keywords = "Avena sativa, fatty acid, H‐ATPase, lysophosphatidylcholine, oat, phase partitioning, phospholipase A, plasma membrane",
author = "Palmgren, {Michael Gjedde} and Marianne Sommarin and Peter Ulvskov and J{\o}rgensen, {Peter Leth}",
year = "1988",
doi = "10.1111/j.1399-3054.1988.tb04934.x",
language = "English",
volume = "74",
pages = "11--19",
journal = "Physiologia Plantarum",
issn = "0031-9317",
publisher = "Wiley-Blackwell",
number = "1",

}

RIS

TY - JOUR

T1 - Modulation of plasma membrane H+‐ATPase from oat roots by lysophosphatidylcholine, free fatty acids and phospholipase A2

AU - Palmgren, Michael Gjedde

AU - Sommarin, Marianne

AU - Ulvskov, Peter

AU - Jørgensen, Peter Leth

PY - 1988

Y1 - 1988

N2 - Plasma membrane vesicles were purified from 8‐day‐old oat (Avena sativa L. cv. Brighton) roots in an aqueous polymer two‐phase system. The plasma membranes possessed high specific ATPase activity [ca 4 μmol P1 (mg protein)−1 min−1 at 37°C]. Addition of lysophosphatidylcholine (lyso‐PC) produced a 2–3 fold activation of the plasma membrane ATPase, an effect due both to exposure of latent ATP binding sites and to a true activation of the enzyme. Lipid activation increased the affinity for ATP and caused a shift of the pH optimum of the H+ ‐ATPase activity to 6.75 as compared to pH 6.45 for the negative H+‐ATPase. Activation was dependent on the chain length of the acyl group of the lyso‐PC, with maximal activition obtained by palmitoyl lyso‐PC. Free fatty acids also activated the membrane‐bound H+‐ATPase. This activation was also dependent on chain length and to the degree of unsaturation, with linolenic and arachidonic acid as the most efficient fatty acids. Exogenously added PC was hydrolyzed to lyso‐PC and free fatty acids by an enzyme in the plasma membrane preparation, presumably of the phospholipase A type. Both lyso‐PC and free fatty acids are products of phospholipase A2 (EC 3.1.1.4) action, and addition of phospholipase A2 from animal sources increased the H+‐ATPase activity within seconds. Interaction with lipids and fatty acids could thus be part of the regulatory system for H+‐ATPase activity in vivo, and the endogenous phospholipase may be involved in the regulation of the H+‐ATPase activity in the plasma membranne.

AB - Plasma membrane vesicles were purified from 8‐day‐old oat (Avena sativa L. cv. Brighton) roots in an aqueous polymer two‐phase system. The plasma membranes possessed high specific ATPase activity [ca 4 μmol P1 (mg protein)−1 min−1 at 37°C]. Addition of lysophosphatidylcholine (lyso‐PC) produced a 2–3 fold activation of the plasma membrane ATPase, an effect due both to exposure of latent ATP binding sites and to a true activation of the enzyme. Lipid activation increased the affinity for ATP and caused a shift of the pH optimum of the H+ ‐ATPase activity to 6.75 as compared to pH 6.45 for the negative H+‐ATPase. Activation was dependent on the chain length of the acyl group of the lyso‐PC, with maximal activition obtained by palmitoyl lyso‐PC. Free fatty acids also activated the membrane‐bound H+‐ATPase. This activation was also dependent on chain length and to the degree of unsaturation, with linolenic and arachidonic acid as the most efficient fatty acids. Exogenously added PC was hydrolyzed to lyso‐PC and free fatty acids by an enzyme in the plasma membrane preparation, presumably of the phospholipase A type. Both lyso‐PC and free fatty acids are products of phospholipase A2 (EC 3.1.1.4) action, and addition of phospholipase A2 from animal sources increased the H+‐ATPase activity within seconds. Interaction with lipids and fatty acids could thus be part of the regulatory system for H+‐ATPase activity in vivo, and the endogenous phospholipase may be involved in the regulation of the H+‐ATPase activity in the plasma membranne.

KW - Avena sativa

KW - fatty acid

KW - H‐ATPase

KW - lysophosphatidylcholine

KW - oat

KW - phase partitioning

KW - phospholipase A

KW - plasma membrane

U2 - 10.1111/j.1399-3054.1988.tb04934.x

DO - 10.1111/j.1399-3054.1988.tb04934.x

M3 - Journal article

AN - SCOPUS:84989738217

VL - 74

SP - 11

EP - 19

JO - Physiologia Plantarum

JF - Physiologia Plantarum

SN - 0031-9317

IS - 1

ER -

ID: 245001972