Roman Ladig scite author profile

SUMMARYNative polyacrylamide gel electrophoresis (PAGE) is an important technique for the analysis of membrane protein complexes. A major breakthrough was the development of blue native (BN-) and high resolution clear native (hrCN-) PAGE techniques. Although these techniques are very powerful, they could not be applied to all systems with the same resolution. We have developed an alternative protocol for the analysis of membrane protein complexes of plant chloroplasts and cyanobacteria, which we termed histidine-and deoxycholatebased native (HDN-) PAGE. We compared the capacity of HDN-, BN-and hrCN-PAGE to resolve the well-studied respiratory chain complexes in mitochondria of bovine heart muscle and Yarrowia lipolytica, as well as thylakoid localized complexes of Medicago sativa, Pisum sativum and Anabaena sp. PCC7120. Moreover, we determined the assembly/composition of the Anabaena sp. PCC7120 thylakoids and envelope membranes by HDN-PAGE. The analysis of isolated chloroplast envelope complexes by HDN-PAGE permitted us to resolve complexes such as the translocon of the outer envelope migrating at approximately 700 kDa or of the inner envelope of about 230 and 400 kDa with high resolution. By immunodecoration and mass spectrometry of these complexes we present new insights into the assembly/composition of these translocation machineries. The HDN-PAGE technique thus provides an important tool for future analyses of membrane complexes such as protein translocons.

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TFAM-dependent and independent dynamics of mtDNA levels in C2C12 myoblasts caused by redox stress

Noack¹,

Bednarek²,

Heidler³

et al. 2006

Biochimica et Biophysica Acta (BBA) - General Subjects

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The intracellular distribution of the components of the GET system in vascular plants

Bodensohn

Simm

Fischer

et al. 2019

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Regulation of two GTPases Toc159 and Toc34 in the translocon of the outer envelope of chloroplasts

Wiesemann

Simm

Mirus

et al. 2019

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Insertion of plastidic β-barrel proteins into the outer envelopes of plastids involves an intermembrane space intermediate formed with Toc75-V/OEP80

Groß

Klinger

Spies

et al. 2021

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The insertion of organellar membrane proteins with the correct topology requires the following: First, the proteins must contain topogenic signals for translocation across and insertion into the membrane. Second, proteinaceous complexes in the cytoplasm, membrane, and lumen of organelles are required to drive this process. Many complexes required for the intracellular distribution of membrane proteins have been described, but the signals and components required for the insertion of plastidic β-barrel-type proteins into the outer membrane are largely unknown. The discovery of common principles is difficult, as only a few plastidic β-barrel proteins exist. Here, we provide evidence that the plastidic outer envelope β-barrel proteins OEP21, OEP24, and OEP37 from pea (Pisum sativum) and Arabidopsis thaliana contain information defining the topology of the protein. The information required for translocation of pea proteins across the outer envelope membrane is present within the six N-terminal β-strands. This process requires the action of TOC (translocon of the outer chloroplast membrane). After translocation into the intermembrane space, β-barrel proteins interact with TOC75-V, as exemplified by OEP37 and P39, and are integrated into the membrane. The membrane insertion of plastidic β-barrel proteins is affected by mutation of the last β-strand, suggesting that this strand contributes to the insertion signal. These findings shed light on the elements and complexes involved in plastidic β-barrel protein import.

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The plastid outer membrane localized LPTD1 is important for glycerolipid remodelling under phosphate starvation

Hsueh

Ehmann

Flinner

et al. 2017

Plant Cell & Environment

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Glycerolipid synthesis in plants is coordinated between plastids and the endoplasmic reticulum (ER). A central step within the glycerolipid synthesis is the transport of phosphatidic acid from ER to chloroplasts. The chloroplast outer envelope protein TGD4 belongs to the LptD family conserved in bacteria and plants and selectively binds and may transport phosphatidic acid. We describe a second LptD-family protein in A. thaliana (atLPTD1; At2g44640) characterized by a barrel domain with an amino-acid signature typical for cyanobacterial LptDs. It forms a cation selective channel in vitro with a diameter of about 9 Å. atLPTD1 levels are induced under phosphate starvation. Plants expressing an RNAi construct against atLPTD1 show a growth phenotype under normal conditions. Expressing the RNAi against atLPTD1 in the tgd4-1 background renders the plants more sensitive to light stress or phosphate limitation than the individual mutants. Moreover, lipid analysis revealed that digalactosyldiacylglycerol and sulfoquinovosyldiacylglycerol levels remain constant in the RNAi mutants under phosphate starvation, while these two lipids are enhanced in wild-type. Based on our results, we propose a function of atLPTD1 in the transport of lipids from ER to chloroplast under phosphate starvation, which is combinatory with the function of TGD4.

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The signal distinguishing between targeting of outer membrane β-barrel protein to plastids and mitochondria in plants

Klinger¹,

Gosch²,

Bodensohn³

et al. 2019

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Tic22 from Anabaena sp. PCC 7120 with holdase function involved in outer membrane protein biogenesis shuttles between plasma membrane and Omp85

Brouwer

Ngo

Yadav

et al. 2019

Molecular Microbiology

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β-barrel-shaped outer membrane proteins (OMPs) ensure regulated exchange of molecules across the cell-wall of Gram-negative bacteria. They are synthesized in the cytoplasm and translocated across the plasma membrane via the SEC translocon. In the periplasm, several proteins participate in the transfer of OMPs to the outer membrane-localized complex catalyzing their insertion. This process has been described in detail for proteobacteria and some molecular components are conserved in cyanobacteria. For example, Omp85 proteins that catalyze the insertion of OMPs into the outer membrane exist in cyanobacteria as well. In turn, SurA and Skp involved in OMP transfer from plasma membrane to Omp85 in E. coli are likely replaced by Tic22 in cyanobacteria. We describe that anaTic22 functions as periplasmic holdase for OMPs in Anabaena sp. PCC 7120 and provide evidence for the process of substrate delivery to ana Omp85. Ana Tic22 binds to the plasma membrane with specificity for phosphatidylglycerol and monogalactosyldiacylglycerol. Substrate recognition induces membrane dissociation and interaction with the N-terminal POTRA domain of Omp85. This leads to substrate release by the interaction with a proline-rich domain and the first POTRA domain of Omp85. The order of events during OMP transfer from plasma membrane to Omp85 in cyanobacteria is discussed. Abbreviations: BAM, β-barrel assembly machinery; DGDG, digalactosyldiacylglycerol; MGDG, monogalactosyldiacylglycerol; OM, outer membrane; OMP, OM proteins; PC, phosphatidylcholine; PG, phosphatidylglycerol; PGL, peptidoglycan layer; PM, plasma membrane; POTRA, polypeptide-transportassociated domains; SQDG, sulfoquinovosyldiacylglycerol; TIC, translocon of the inner envelope membrane of chloroplasts.

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Roman Ladig

A high‐definition native polyacrylamide gel electrophoresis system for the analysis of membrane complexes

TFAM-dependent and independent dynamics of mtDNA levels in C2C12 myoblasts caused by redox stress

The intracellular distribution of the components of the GET system in vascular plants

Regulation of two GTPases Toc159 and Toc34 in the translocon of the outer envelope of chloroplasts

Insertion of plastidic β-barrel proteins into the outer envelopes of plastids involves an intermembrane space intermediate formed with Toc75-V/OEP80

The plastid outer membrane localized LPTD1 is important for glycerolipid remodelling under phosphate starvation

The signal distinguishing between targeting of outer membrane β-barrel protein to plastids and mitochondria in plants

Tic22 from Anabaena sp. PCC 7120 with holdase function involved in outer membrane protein biogenesis shuttles between plasma membrane and Omp85

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