Tonoplast of Beta vulgaris L. contains detergent-resistant membrane microdomains

Озолина, Н. В.; Nesterkina, I. S.; Колесникова, Е. В.; Salyaev, R. K.; Nurminsky, V. N.; Ракевич, А. Л.; Мартынович, Е. Ф.; Chernyshov, Michael Yu.

doi:10.1007/s00425-012-1800-1

Cited by 39 publications

(22 citation statements)

References 33 publications

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“…Recently, similar sphingolipid desaturases have been characterized in the diatom T. pseudonana (Michaelson et al, 2013;Tonon et al, 2005). In yeast, and in Arabidopsis, regions within the vacuolar bilayer, enriched in sphingolipids and sterols (Chung et al, 2003;Finnigan et al, 2011), have been identified as essential to the function of vacuolar-ATPases (Ozolina et al, 2013;Yoshida et al, 2013). Vacuolar-ATPases are the proton pumps in plants (reviewed in Martinoia et al, 2007) that provide energy for NO 3 2 transport into the vacuole via NO 3 2 ClC transporters identified in this study.…”

Section: Nitrate Uptake Into the Vacuole A Competitive Advantage In mentioning

confidence: 64%

“…Vacuolar membrane lipids are poorly characterized in diatoms, but those that make up the vacuolar membranes in plants that store NO 3 2 provide a starting point for consideration of the composition of P. tricornutum vacuolar membranes. In vascular plants, the majority of vacuolar membrane lipids are phospholipids PE and PC, sterols, and sphingolipids, with sterols and sphingolipids comprising 30% and 10 to 20%, respectively (Ozolina et al, 2013;Yoshida and Uemura, 1986;reviewed in Zhang et al, 2015). Within the lipid cluster subset, we highlighted five genes encoding proteins with functions that are putatively well suited to vacuolar membrane lipid biosynthesis in P. tricornutum.…”

Section: Nitrate Uptake Into the Vacuole A Competitive Advantage In mentioning

confidence: 99%

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Nitrate Reductase Knockout Uncouples Nitrate Transport from Nitrate Assimilation and Drives Repartitioning of Carbon Flux in a Model Pennate Diatom

et al. 2017

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Section: Nitrate Uptake Into the Vacuole A Competitive Advantage In mentioning

confidence: 64%

Section: Nitrate Uptake Into the Vacuole A Competitive Advantage In mentioning

confidence: 99%

Nitrate Reductase Knockout Uncouples Nitrate Transport from Nitrate Assimilation and Drives Repartitioning of Carbon Flux in a Model Pennate Diatom

et al. 2017

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“…Alternatively, the presence of VHA-a2 and VHA-a3 in DRMs could simply be due to residual tonoplast membranes in the PMenriched samples. Indeed, the presence of DRMs in tonoplast preparations has recently been confirmed (Ozolina et al, 2012) and is in agreement with the fact that both sterols and sphingolipids, two classes of lipids typically enriched in DRMs, are present in amounts comparable to the PM (Yoshida and Uemura, 1986). Here, using the sterol binding probe filipin III, we have not only shown that sterols are indeed present in the tonoplast of Arabidopsis root tip cells but also that they still reach the tonoplast when ER export is blocked by BFA treatment in the sensitized GNL1-BFA S background.…”

Section: Direct Delivery From the Er To The Tonoplastmentioning

confidence: 96%

The Endoplasmic Reticulum Is the Main Membrane Source for Biogenesis of the Lytic Vacuole inArabidopsis

et al. 2013

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Vacuoles are multifunctional organelles essential for the sessile lifestyle of plants. Despite their central functions in cell growth, storage, and detoxification, knowledge about mechanisms underlying their biogenesis and associated protein trafficking pathways remains limited. Here, we show that in meristematic cells of the Arabidopsis thaliana root, biogenesis of vacuoles as well as the trafficking of sterols and of two major tonoplast proteins, the vacuolar H + -pyrophosphatase and the vacuolar H + -adenosinetriphosphatase, occurs independently of endoplasmic reticulum (ER)-Golgi and post-Golgi trafficking. Instead, both pumps are found in provacuoles that structurally resemble autophagosomes but are not formed by the core autophagy machinery. Taken together, our results suggest that vacuole biogenesis and trafficking of tonoplast proteins and lipids can occur directly from the ER independent of Golgi function.

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“…The stimulus for our investigation was absence of plausible knowledge about the structure and the functions of lipid-protein microformations in cell organelles, as well as the interest to the unusual membrane microinclusions registered in our observations earlier [3]. In particular, the domain structure of vacuolar membranes has not been plausibly scanned and investigated before.…”

Section: Introduction and Problem Statementmentioning

confidence: 99%

“…As obvious from earlier publications of several authors, the cell membrane is characterized by mobile lateral nonhomogenieties of its lipid content represented in the form of microinclusions [1] [2] [3]. These microinclusions may be studied in experiments presuming 1) visualization of the cell membranes with finding out examples of such microinclusions and 2) investigation of their characteristics.…”

Section: Introduction and Problem Statementmentioning

confidence: 99%

Lipid-Protein Microinclusions in the Morphological Structures of Organelle Membranes Studied by Fluorescent Confocal Microscopy

Chernyshov¹,

Nurminsky²,

Озолина³

2017

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Peculiar properties of morphological structures of organelle membranes were studied by fluorescent confocal microscopy. The list of objects in our experiments was represented by mitochondria, chloroplasts and vacuoles. During this study, identification of lipid microinclusions having the form of such lipid-protein structural microformations as lipid-protein microdomains, vesicles and membrane tubular structures (cytoplasmic transvacuolar strands and nanotubes) located in organelle membranes or bound up with them was conducted. Such membrane probes as laurdan, DPH, ANS and bis-ANS were used. Comparison of fluorescence intensity of these membrane probes was conducted. This investigation of the morphological properties of lipid-protein structural microformations was accompanied with analysis of 1) the phase state and 2) dynamics of microviscosity variations in the membrane elements of isolated plant cell organelles. Distributions of laurdan fluorescence generalized polarization (GP) values for the membrane on the whole and for the intensively fluorescing membrane segments were obtained. It was discovered that the microviscosity of intensively fluorescing membrane segments essentially differed from the microviscosity of the rest part of the membrane. In conclusion, some results of the study of peculiar properties of lipid-protein structural microformations related to the structure of organelle membranes and the discoveries made in this investigation are discussed. Keywords

show abstract

Tonoplast of Beta vulgaris L. contains detergent-resistant membrane microdomains

Cited by 39 publications

References 33 publications

Nitrate Reductase Knockout Uncouples Nitrate Transport from Nitrate Assimilation and Drives Repartitioning of Carbon Flux in a Model Pennate Diatom

Nitrate Reductase Knockout Uncouples Nitrate Transport from Nitrate Assimilation and Drives Repartitioning of Carbon Flux in a Model Pennate Diatom

The Endoplasmic Reticulum Is the Main Membrane Source for Biogenesis of the Lytic Vacuole inArabidopsis

Lipid-Protein Microinclusions in the Morphological Structures of Organelle Membranes Studied by Fluorescent Confocal Microscopy

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