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180 results on '"envelope membrane"'

1. Defining the lipidome of Arabidopsis leaf mitochondria: Specific lipid complement and biosynthesis capacity

Author

Liu, Yi-Tse, Senkler, Jennifer, Herrfurth, Cornelia, Braun, Hans-Peter, Feussner, Ivo, Liu, Yi-Tse, Senkler, Jennifer, Herrfurth, Cornelia, Braun, Hans-Peter, and Feussner, Ivo

Abstract

Mitochondria are often considered as the power stations of the cell, playing critical roles in various biological processes such as cellular respiration, photosynthesis, stress responses, and programmed cell death. To maintain the structural and functional integrities of mitochondria, it is crucial to achieve a defined membrane lipid composition between different lipid classes wherein specific proportions of individual lipid species are present. Although mitochondria are capable of self-synthesizing a few lipid classes, many phospholipids are synthesized in the endoplasmic reticulum and transferred to mitochondria via membrane contact sites, as mitochondria are excluded from the vesicular transportation pathway. However, knowledge on the capability of lipid biosynthesis in mitochondria and the precise mechanism of maintaining the homeostasis of mitochondrial lipids is still scarce. Here we describe the lipidome of mitochondria isolated from Arabidopsis (Arabidopsis thaliana) leaves, including the molecular species of glycerolipids, sphingolipids, and sterols, to depict the lipid landscape of mitochondrial membranes. In addition, we define proteins involved in lipid metabolism by proteomic analysis and compare our data with mitochondria from cell cultures since they still serve as model systems. Proteins putatively localized to the membrane contact sites are proposed based on the proteomic results and online databases. Collectively, our results suggest that leaf mitochondria are capable—with the assistance of membrane contact site-localized proteins—of generating several lipid classes including phosphatidylethanola-mines, cardiolipins, diacylgalactosylglycerols, and free sterols. We anticipate our work to be a foundation to further investigate the functional roles of lipids and their involvement in biochemical reactions in plant mitochondria.

Published
2023

2. Plastidic ABC Proteins

Author

Roston, Rebecca L., Hurlock, Anna K., Benning, Christoph, Baluška, František, Series editor, Vivanco, Jorge M., Series editor, and Geisler, Markus, editor

Published
2014
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19. Chapter 15 The Chemistry and Biology of Light-Harvesting Complex II and Thylakoid Biogenesis: raison d’etre of Chlorophylls b and c

Author

Hoober, J. Kenneth, Eggink, Laura L., Chen, Min, Larkum, Anthony W. D., Govindjee, editor, Sharkey, Thomas D., editor, Rebeiz, Constantin A., editor, Benning, Christoph, editor, Bohnert, Hans J., editor, Daniell, Henry, editor, Hoober, J. Kenneth, editor, Lichtenthaler, Hartmut K., editor, Portis, Archie R., editor, and Tripathy, Baishnab C., editor

Published
2010
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38. Biogenesis of Green Plant Thylakoid Membranes

Author

Cline, Kenneth, Govindjee, editor, Foyer, Christine, editor, Gantt, Elisabeth, editor, Golbeck, John H., editor, Golden, Susan S., editor, Junge, Wolfgang, editor, Michel, Hartmut, editor, Satoh, Kirmiyuki, editor, Siedow, James, editor, Green, Beverley R., editor, and Parson, William W., editor

Published
2003
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45. Does a voltage-sensitive outer envelope transport mechanism contributes to the chloroplast iron uptake?

Author

Solti, Ádám, Kovács, Krisztina, Müller, Brigitta, Vázquez, Saúl, Hamar, Éva, Pham, Hong, Tóth, Brigitta, Abadía, Javier, and Fodor, Ferenc

Subjects
CHLOROPLASTS, IRON content of plants, BIOLOGICAL transport, SPECTROPHOTOMETRY, EFFECT of metals on plants, PHYSIOLOGY, PLANTS
Abstract

Main conclusion : Based on the effects of inorganic salts on chloroplast Fe uptake, the presence of a voltage-dependent step is proposed to play a role in Fe uptake through the outer envelope. Although iron (Fe) plays a crucial role in chloroplast physiology, only few pieces of information are available on the mechanisms of chloroplast Fe acquisition. Here, the effect of inorganic salts on the Fe uptake of intact chloroplasts was tested, assessing Fe and transition metal uptake using bathophenantroline-based spectrophotometric detection and plasma emission-coupled mass spectrometry, respectively. The microenvironment of Fe was studied by Mössbauer spectroscopy. Transition metal cations (Cd, Zn, and Mn) enhanced, whereas oxoanions (NO , SO , and BO ) reduced the chloroplast Fe uptake. The effect was insensitive to diuron (DCMU), an inhibitor of chloroplast inner envelope-associated Fe uptake. The inorganic salts affected neither Fe forms in the uptake assay buffer nor those incorporated into the chloroplasts. The significantly lower Zn and Mn uptake compared to that of Fe indicates that different mechanisms/transporters are involved in their acquisition. The enhancing effect of transition metals on chloroplast Fe uptake is likely related to outer envelope-associated processes, since divalent metal cations are known to inhibit Fe transport across the inner envelope. Thus, a voltage-dependent step is proposed to play a role in Fe uptake through the chloroplast outer envelope on the basis of the contrasting effects of transition metal cations and oxoaninons. [ABSTRACT FROM AUTHOR]

Published
2016
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50. Perspectives

Author

Mets, Laurens J., Rochaix, Jean-David, Govindjee, editor, Amesz, Jan, editor, Aro, Eva-Mari, editor, Barber, James, editor, Blankenship, Robert E., editor, Murata, Norio, editor, Ort, Donald R., editor, Rochaix, J. -D., editor, Goldschmidt-Clermont, M., editor, and Merchant, S., editor

Published
1998
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