Your search keyword '"Membrane proteome"' showing total 211 results

1. Characterization of a soluble library of the Pseudomonas aeruginosa PAO1 membrane proteome with emphasis on c-di-GMP turnover enzymes.

Author

Scherhag, Anna, Räschle, Markus, Unbehend, Niklas, Venn, Benedikt, Glueck, David, Mühlhaus, Timo, Keller, Sandro, Pérez Patallo, Eugenio, Zehner, Susanne, and Frankenberg-Dinkel, Nicole

Abstract

Studies of protein–protein interactions in membranes are very important to fully understand the biological function of a cell. The extraction of proteins from the native membrane environment is a critical step in the preparation of membrane proteins that might affect the stability of protein complexes. In this work, we used the amphiphilic diisobutylene/maleic acid copolymer to extract the membrane proteome of the opportunistic pathogen Pseudomonas aeruginosa , thereby creating a soluble membrane-protein library within a native-like lipid-bilayer environment. Size fractionation of nanodisc-embedded proteins and subsequent mass spectrometry enabled the identification of 3358 proteins. The native membrane-protein library showed a very good overall coverage compared to previous proteome data. The pattern of size fractionation indicated that protein complexes were preserved in the library. More than 20 previously described complexes, e.g. the SecYEG and Pili complexes, were identified and analyzed for coelution. Although the mass-spectrometric dataset alone did not reveal new protein complexes, combining pulldown assays with mass spectrometry was successful in identifying new protein interactions in the native membrane-protein library. Thus, we identified several candidate proteins for interactions with the membrane phosphodiesterase NbdA, a member of the c-di-GMP network. We confirmed the candidate proteins CzcR, PA4200, SadC, and PilB as novel interaction partners of NbdA using the bacterial adenylate cyclase two-hybrid assay. Taken together, this work demonstrates the usefulness of the native membrane-protein library of P. aeruginosa for the investigation of protein interactions and membrane-protein complexes. Data are available via ProteomeXchange with identifiers PXD039702 and PXD039700. [ABSTRACT FROM AUTHOR]

Published

2023

2. Membrane Proteomic Profiling of Soybean Leaf and Root Tissues Uncovers Salt-Stress-Responsive Membrane Proteins.

Author

Rehman, Hafiz Mamoon, Chen, Shengjie, Zhang, Shoudong, Khalid, Memoona, Uzair, Muhammad, Wilmarth, Phillip A., Ahmad, Shakeel, and Lam, Hon-Ming

Subjects

*MEMBRANE proteins, *PROTEOMICS, *ION transport (Biology), *CARRIER proteins, *PEPTIDES, *SOYBEAN, *ABSCISIC acid

Abstract

Cultivated soybean (Glycine max (L.)), the world's most important legume crop, has high-to-moderate salt sensitivity. Being the frontier for sensing and controlling solute transport, membrane proteins could be involved in cell signaling, osmoregulation, and stress-sensing mechanisms, but their roles in abiotic stresses are still largely unknown. By analyzing salt-induced membrane proteomic changes in the roots and leaves of salt-sensitive soybean cultivar (C08) seedlings germinated under NaCl, we detected 972 membrane proteins, with those present in both leaves and roots annotated as receptor kinases, calcium-sensing proteins, abscisic acid receptors, cation and anion channel proteins, proton pumps, amide and peptide transporters, and vesicle transport-related proteins etc. Endocytosis, linoleic acid metabolism, and fatty acid biosynthesis pathway-related proteins were enriched in roots whereas phagosome, spliceosome and soluble NSF attachment protein receptor (SNARE) interaction-related proteins were enriched in leaves. Using label-free quantitation, 129 differentially expressed membrane proteins were found in both tissues upon NaCl treatment. Additionally, the 140 NaCl-induced proteins identified in roots and 57 in leaves are vesicle-, mitochondrial-, and chloroplast-associated membrane proteins and those with functions related to ion transport, protein transport, ATP hydrolysis, protein folding, and receptor kinases, etc. Our proteomic results were verified against corresponding gene expression patterns from published C08 RNA-seq data, demonstrating the importance of solute transport and sensing in salt stress responses. [ABSTRACT FROM AUTHOR]

Published

2022

3. Membrane proteomic profiling enhances drug target detection.

Author

Chan, Hsin‐Ju, Chen, Li‐Yu, Chiu, Huan‐Chi, and Chen, Yu‐Ju

Subjects

*DRUG target, *MEMBRANE proteins, *PROTEOMICS, *NON-small-cell lung carcinoma, *PEPTIDES

Abstract

Membrane proteins are an important category of drug targets in human diseases. However, membrane protein characterization is challenging due to their hydrophobicity, low abundance, and poor protease accessibility of the proteins. To facilitate reproducible and sensitive profiling of the druggable membrane proteome, we reported a strategy combining membrane protein extraction and data‐independent acquisition mass spectrometry (DIA‐MS). By a single‐shot DIA analysis for a model lung cancer cell line, the results show good enrichment of 2,740 confidently identified membrane proteins, which accounts for 71% proteins identified from the membrane‐enriched sample and includes 202 FDA‐approved drug targets and 462 uniquely identified membrane proteins compared to the result from whole‐cell lysate. Furthermore, the membrane fraction enrichment significantly enhanced protein abundance of 1,245 membrane proteins, and 22 proteins were identified in the non‐small‐cell lung cancer pathway, including 6 lung cancer drug targets. The approach demonstrated better identification in higher intensities and signal‐to‐noise ratios of peptide ions. The drug targets increased 3.3–25.9‐fold (median 15.5‐fold) in peptide abundance and 1.0–12.0% in (median 5.3%) protein coverage. The membrane proteomic profiling strategy will advance the applications of quantitative proteomics in drug target discovery. [ABSTRACT FROM AUTHOR]

Published

2022

4. Combined Transcriptome and Proteome Profiling for Role of pfEMP1 in Antimalarial Mechanism of Action of Dihydroartemisinin

Author

Lina Chen, Zhongyuan Zheng, Hui Liu, Xi Wang, Shuiqing Qu, Yuanmin Yang, Shuoqiu Deng, Yu Zhang, Liu Tuo, Yongdan Zhao, and Yujie Li

Subjects

dihydroartemisinin, membrane proteome, pfEMP1, transcriptome, Microbiology, QR1-502

Abstract

ABSTRACT Malaria parasites induce morphological and biochemical changes in the membranes of parasite-infected red blood cells (iRBCs) for propagation. Artemisinin combination therapies are the first-line antiplasmodials in countries of endemicity. However, the mechanism of action of artemisinin is unclear, and drug resistance decreases long-term efficacy. To understand whether artemisinin targets or interacts with iRBC membrane proteins, this study investigated the molecular changes caused by dihydroartemisinin (DHA), an artemisinin derivative, in Plasmodium falciparum 3D7 using a combined transcriptomic and membrane proteomic profiling approach. Optical microscopy and scanning electron microscopy showed that DHA can cause morphological variation in the iRBC membrane. We identified 125 differentially expressed membrane proteins, and functional analysis indicated structural molecule activity and protein export as key biological functions of the two omics studies. DHA treatment decreased the expression of var gene variants PF3D7_0415700 and PF3D7_0900100 dose-dependently. Western blotting and immunofluorescence analysis showed that DHA treatment downregulates the var gene encoding P. falciparum erythrocyte membrane protein-1 (pfEMP1). pfEMP1 knockout significantly increased artemisinin sensitivity. Results showed that pfEMP1 might be involved in the antimalarial mechanism of action of DHA and pfEMP1 or its regulated factors may be further exploited in antiparasitic drug design. The findings are beneficial for elucidating the potential effects of DHA on iRBC membrane proteins and developing new drugs targeting iRBC membrane. IMPORTANCE Malaria parasites induce morphological and biochemical changes in the membranes of parasite-infected red blood cells (iRBCs) for propagation, with artemisinin combination therapies as the first-line treatments. To understand whether artemisinin targets or interacts with iRBC membrane proteins, this study investigated the molecular changes caused by dihydroartemisinin (DHA), an artemisinin derivative, in Plasmodium falciparum 3D7 using a combined transcriptomic and membrane proteomic profiling approach. We found that DHA can cause morphological changes of iRBC membrane. Structural molecule activity and protein export are considered to be the key biological functions based on the two omics studies. pfEMP1 might be involved in the DHA mechanism of action. pfEMP1 or its regulated factors may be further exploited in antiparasitic drug design. The findings are beneficial for elucidating the potential effects of DHA on iRBC membrane proteins and developing new antimalarial drugs targeting iRBC membrane.

Published

2021

5. Strategies for Rapid Identification of Acinetobacter baumannii Membrane Proteins and Polymyxin B’s Effects

Author

Yun Lu, Xinxin Hu, Tongying Nie, Xinyi Yang, Congran Li, and Xuefu You

Subjects

Acinetobacter baumannii, membrane proteome, polymyxin B, detergents, LC-MS/MS, Microbiology, QR1-502

Abstract

Acinetobacter baumannii, especially multidrug resistant Acinetobacter baumannii, is a notable source of pressure in the areas of public health and antibiotic development. To overcome this problem, attention has been focused on membrane proteins. Different digestion methods and extraction detergents were examined for membrane proteome sample preparation, and label-free quantitative and targeted proteome analyses of the polymyxin B-induced Acinetobacter baumannii ATCC 19606 membrane proteome were performed based on nano LC-MS/MS. Ultracentrifugation of proteins at a speed of 150,000×g, digestion by trypsin, filter-aided sample preparation, and detergents such as lauryldimethylamine-N-oxide were proved as a fast and effective way for identification of membrane proteome by nano LC-MS/MS. Upon treatment with polymyxin B, expression levels of 15 proteins related to membrane structure, transporters, cell surface, and periplasmic space were found to be significantly changed. Furthermore, targeted proteome was also used to confirm these changes. A relatively rapid membrane proteome preparation method was developed, and a more comprehensive view of changes in the Acinetobacter baumannii membrane proteome under polymyxin B pressure was obtained.

Published

2021

6. Integrative Analysis of Membrane Proteome and MicroRNA Reveals Novel Lung Cancer Metastasis Biomarkers

Author

Yan Kong, Zhi Qiao, Yongyong Ren, Georgi Z. Genchev, Maolin Ge, Hua Xiao, Hongyu Zhao, and Hui Lu

Subjects

membrane proteome, lung cancer metastasis, multi-omics analysis, microRNA, prognostic, Genetics, QH426-470

Abstract

Lung cancer is one of the most common human cancers both in incidence and mortality, with prognosis particularly poor in metastatic cases. Metastasis in lung cancer is a multifarious process driven by a complex regulatory landscape involving many mechanisms, genes, and proteins. Membrane proteins play a crucial role in the metastatic journey both inside tumor cells and the extra-cellular matrix and are a viable area of research focus with the potential to uncover biomarkers and drug targets. In this work we performed membrane proteome analysis of highly and poorly metastatic lung cells which integrated genomic, proteomic, and transcriptional data. A total of 1,762 membrane proteins were identified, and within this set, there were 163 proteins with significant changes between the two cell lines. We applied the Tied Diffusion through Interacting Events method to integrate the differentially expressed disease-related microRNAs and functionally dys-regulated membrane protein information to further explore the role of key membrane proteins and microRNAs in multi-omics context. Has-miR-137 was revealed as a key gene involved in the activity of membrane proteins by targeting MET and PXN, affecting membrane proteins through protein–protein interaction mechanism. Furthermore, we found that the membrane proteins CDH2, EGFR, ITGA3, ITGA5, ITGB1, and CALR may have significant effect on cancer prognosis and outcomes, which were further validated in vitro. Our study provides multi-omics-based network method of integrating microRNAs and membrane proteome information, and uncovers a differential molecular signatures of highly and poorly metastatic lung cancer cells; these molecules may serve as potential targets for giant-cell lung metastasis treatment and prognosis.

Published

2020

7. Organelle Membrane Proteomics Reveals Differential Influence of Mycobacterial Lipoglycans on Macrophage Phagosome Maturation and Autophagosome Accumulation

Author

Shui, Wenqing, Petzold, Christopher J, Redding, Alyssa, Liu, Jun, Pitcher, Austin, Sheu, Leslie, Hsieh, Tsung-yen, Keasling, Jay D, and Bertozzi, Carolyn R

Subjects

Biochemistry and Cell Biology, Biological Sciences, Biodefense, Biotechnology, Emerging Infectious Diseases, Vaccine Related, Prevention, HIV/AIDS, Tuberculosis, Infectious Diseases, Rare Diseases, 2.1 Biological and endogenous factors, Aetiology, Infection, Good Health and Well Being, Animals, Antigens, Bacterial, Autophagy, Immunoblotting, Intracellular Membranes, Isotope Labeling, Lipopolysaccharides, Macrophages, Mice, Microscopy, Fluorescence, Mycobacterium tuberculosis, Peptide Fragments, Phagosomes, Phosphatidylinositols, Protein Transport, Proteomics, Reproducibility of Results, Tandem Mass Spectrometry, Trypsin, Vesicular Transport Proteins, Phagosome, autophagosome, membrane proteome, mycobacterial lipoglycans, mannosecapped LAM, Chemical Sciences, Biochemistry & Molecular Biology, Biological sciences, Chemical sciences

Abstract

The mycobacterial cell wall component lipoarabinomannan (LAM) has been described as one of the key virulence factors of Mycobacterium tuberculosis. Modification of the terminal arabinan residues of this lipoglycan with mannose caps in M. tuberculosis or with phosphoinositol caps in Mycobacterium smegmatis results in distinct host immune responses. Given that M. tuberculosis typically persists in the phagosomal vacuole after being phagocytosed by macrophages, we performed a proteomic analysis of that organelle after treatment of macrophages with LAMs purified from the two mycobacterial species. The quantitative changes in phagosomal proteins suggested a distinct role for mannose-capped LAM in modulating protein trafficking pathways that contribute to the arrest of phagosome maturation. Enlightened by our proteomic data, we performed further experiments to show that only the LAM from M. tuberculosis inhibits accumulation of autophagic vacuoles in the macrophage, suggesting a new function for this virulence-associated lipid.

Published

2011

8. A robust mass spectrometry method for rapid profiling of erythrocyte ghost membrane proteomes

Author

Haddy K. S. Fye, Paul Mrosso, Lesley Bruce, Marie-Laëtitia Thézénas, Simon Davis, Roman Fischer, Gration L. Rwegasira, Julie Makani, and Benedikt M. Kessler

Subjects

Erythrocyte ghosts, Shotgun proteomics, Tandem mass spectrometry, Membrane proteome, Haemoglobinopathies, Medicine

Abstract

Abstract Background Red blood cell (RBC) physiology is directly linked to many human disorders associated with low tissue oxygen levels or anemia including chronic obstructive pulmonary disease, congenital heart disease, sleep apnea and sickle cell anemia. Parasites such as Plasmodium spp. and phylum Apicomplexa directly target RBCs, and surface molecules within the RBC membrane are critical for pathogen interactions. Proteomics of RBC membrane ‘ghost’ fractions has therefore been of considerable interest, but protocols described to date are either suboptimal or too extensive to be applicable to a larger set of clinical cohorts. Methods Here, we describe an optimised erythrocyte isolation protocol from blood, tested for various storage conditions and explored using different fractionation conditions for isolating ghost RBC membranes. Liquid chromatography mass spectrometry (LC–MS) analysis on a Q-Exactive Orbitrap instrument was used to profile proteins isolated from the comparative conditions. Data analysis was run on the MASCOT and MaxQuant platforms to assess their scope and diversity. Results The results obtained demonstrate a robust method for membrane enrichment enabling consistent MS based characterisation of > 900 RBC membrane proteins in single LC–MS/MS analyses. Non-detergent based membrane solubilisation methods using the tissue and supernatant fractions of isolated ghost membranes are shown to offer effective haemoglobin removal as well as diverse recovery including erythrocyte membrane proteins of high and low abundance. Conclusions The methods described in this manuscript propose a medium to high throughput framework for membrane proteome profiling by LC–MS of potential applicability to larger clinical cohorts in a variety of disease contexts.

Published

2018

9. Integrative Analysis of Membrane Proteome and MicroRNA Reveals Novel Lung Cancer Metastasis Biomarkers.

Author

Kong, Yan, Qiao, Zhi, Ren, Yongyong, Genchev, Georgi Z., Ge, Maolin, Xiao, Hua, Zhao, Hongyu, and Lu, Hui

Subjects

PROTEOMICS, LUNG cancer, METASTASIS, MEMBRANE proteins, MICRORNA

Abstract

Lung cancer is one of the most common human cancers both in incidence and mortality, with prognosis particularly poor in metastatic cases. Metastasis in lung cancer is a multifarious process driven by a complex regulatory landscape involving many mechanisms, genes, and proteins. Membrane proteins play a crucial role in the metastatic journey both inside tumor cells and the extra-cellular matrix and are a viable area of research focus with the potential to uncover biomarkers and drug targets. In this work we performed membrane proteome analysis of highly and poorly metastatic lung cells which integrated genomic, proteomic, and transcriptional data. A total of 1,762 membrane proteins were identified, and within this set, there were 163 proteins with significant changes between the two cell lines. We applied the Tied Diffusion through Interacting Events method to integrate the differentially expressed disease-related microRNAs and functionally dys-regulated membrane protein information to further explore the role of key membrane proteins and microRNAs in multi-omics context. Has-miR-137 was revealed as a key gene involved in the activity of membrane proteins by targeting MET and PXN, affecting membrane proteins through protein–protein interaction mechanism. Furthermore, we found that the membrane proteins CDH2, EGFR, ITGA3, ITGA5, ITGB1, and CALR may have significant effect on cancer prognosis and outcomes, which were further validated in vitro. Our study provides multi-omics-based network method of integrating microRNAs and membrane proteome information, and uncovers a differential molecular signatures of highly and poorly metastatic lung cancer cells; these molecules may serve as potential targets for giant-cell lung metastasis treatment and prognosis. [ABSTRACT FROM AUTHOR]

Published

2020

10. Membrane proteomic analysis reveals the intestinal development is deteriorated by intrauterine growth restriction in piglets.

Author

Huang, Shimeng, Liu, Cong, Li, Na, Wu, Zhenhua, Li, Tiantian, Han, Dandan, Li, Zhen, Zhao, Jiangchao, and Wang, Junjun

Subjects

*FETAL development, *PIGLETS, *DOPAMINE receptors, *MEMBRANE proteins, *CARRIER proteins, *SMALL molecules, *INTESTINAL mucosa

Abstract

The alterations of the intestinal proteome were observed in intrauterine growth restriction (IUGR) piglets during early life by gel-based approaches. Nevertheless, how IUGR affects the intestinal membrane proteome during neonatal development remains unclear. Here, we applied the iTRAQ-based proteomics technology and biochemical analysis to investigate the impact of IUGR on the membrane proteome of the jejunal mucosa in the piglets. Three hundred sixty-one membrane proteins were screened by functional prediction. Among them, eight, five, and one differentially expressed membrane proteins were identified between IUGR and NBW piglets at day 0, day 7, and day 21 after birth, respectively. Differentially expressed membrane proteins (DEMPs) including F1SBL3, F1RRW8, F1S539, F1S2Z2, F1RIR2, F1RUF2 I3LP60, Q2EN79, and F1SIH8 were reduced while the relative abundance of I3L6A2, F1SCJ1, F1RI18, I3LRJ7, and F1RNN0 were increased in IUGR piglets than NBW piglets. From the aspects of function, F1RRW8, F1S539, F1S2Z2, and F1RIR2 are mainly associated with D2 dopamine receptor binding, transmembrane transport of small molecules, signal transduction, and translocation of GLUT4, respectively, and F1SIH8, I3LRJ7, and F1RNN0 are related to autophagy, metabolism of vitamins, and intracellular protein transport. Additionally, IUGR decreased the level of proteins (F1RRW8, Q2EN79, and F1RI18) that are involved in response to oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2020

11. Membrane proteomic analysis reveals overlapping and independent functions of Streptococcus mutans Ffh, YidC1, and YidC2.

Author

Mishra, Surabhi, Crowley, Paula J., Wright, Katherine R., Palmer, Sara R., Walker, Alejandro R., Datta, Susmita, and Brady, L. Jeannine

Subjects

*STREPTOCOCCUS mutans, *SIGNAL recognition particle, *MEMBRANE proteins, *RIBOSOMAL proteins, *GENETIC mutation

Abstract

A comparative proteomic analysis was utilized to evaluate similarities and differences in membrane samples derived from the cariogenic bacterium Streptococcus mutans, including the wild-type strain and four mutants devoid of protein translocation machinery components, specifically ∆ffh, ∆yidC1, ∆yidC2, or ∆ffh/yidC1. The purpose of this work was to determine the extent to which the encoded proteins operate individually or in concert with one another and to identify the potential substrates of the respective pathways. Ffh is the principal protein component of the signal recognition particle (SRP), while yidC1 and yidC2 are dual paralogs encoding members of the YidC/Oxa/Alb family of membrane-localized chaperone insertases. Our results suggest that the co-translational SRP pathway works in concert with either YidC1 or YidC2 specifically, or with no preference for paralog, in the insertion of most membrane-localized substrates. A few instances were identified in which the SRP pathway alone, or one of the YidCs alone, appeared to be most relevant. These data shed light on underlying reasons for differing phenotypic consequences of ffh, yidC1 or yidC2 deletion. Our data further suggest that many membrane proteins present in a ∆yidC2 background may be non-functional, that ∆yidC1 is better able to adapt physiologically to the loss of this paralog, that shared phenotypic properties of ∆ffh and ∆yidC2 mutants can stem from impacts on different proteins, and that independent binding to ribosomal proteins is not a primary functional activity of YidC2. Lastly, genomic mutations accumulate in a ∆yidC2 background coincident with phenotypic reversion, including an apparent W138R suppressor mutation within yidC1. [ABSTRACT FROM AUTHOR]

Published

2019

12. Tissue-specific profiling of membrane proteins in the salicin sequestering juveniles of the herbivorous leaf beetle, Chrysomela populi.

Author

Schmidt, Lydia, Wielsch, Natalie, Wang, Ding, Boland, Wilhelm, and Burse, Antje

Subjects

*MEMBRANE proteins, *CHRYSOMELIDAE, *ATP-binding cassette transporters, *METABOLITES, *CARRIER proteins, *PLANT metabolites

Abstract

Sequestration of plant secondary metabolites is a detoxification strategy widespread in herbivorous insects including not only storage, but also usage of these metabolites for the insects' own benefit. Larvae of the poplar leaf beetle Chrysomela populi sequester plant-derived salicin to produce the deterrent salicylaldehyde in specialized exocrine glands. To identify putative transporters involved in the sequestration process we investigated integral membrane proteins of several tissues from juvenile C. populi by using a proteomics approach. Computational analyses led to the identification of 122 transport proteins in the gut, 105 in the Malpighian tubules, 94 in the fat body and 27 in the defensive glands. Among these, primary active transporters as well as electrochemical potential-driven transporters were most abundant in all tissues, including ABC transporters (especially subfamilies B, C and G) and sugar porters as most interesting families facilitating the sequestration of plant glycosides. Whereas ABC transporters are predominantly expressed simultaneously in several tissues, sugar porters are often expressed in only one tissue, suggesting that sugar porters govern more distinct functions than members of the ABC family. The inventory of transporters presented in this study provides the base for further functional characterizations on transport processes of sequestered glycosides in insects. Image 1 • Proteomics identified transport proteins in several tissues of juvenile C. populi. • ABC transporters and sugar porters are of interest for sequestration of salicin. • ABC transporters are often expressed simultaneously in several tissues. • In general, sugar porters seem to be more tissue-specific than ABC transporters. [ABSTRACT FROM AUTHOR]

Published

2019

13. Chapter Eight - The Pollen Plasma Membrane Permeome Converts Transmembrane Ion Transport Into Speed.

Author

Pertl-Obermeyer, Heidi, Lackner, Peter, Dunlop, John W. C., and Obermeyer, Gerhard

Subjects

*BOTANICAL periodicals, *POLLEN, *CELL membranes, *PLANTS, *ION transport (Biology)

Abstract

Pollen tubes are the fastest growing cells in nature with elongation rates of > 20 μm min-1. The pollen tubes grow as fast as possible through the stigma tissue towards the egg cells where they release two sperm cells for fertilization. In addition to speed, the growth process has to be precise and well balanced to find the targets and to avoid bursting of the tube, respectively. Transport of ions across the plasma membrane generates a typical polar pattern of endogenous currents that accompanies pollen tube growth, and which is thought to function as a pacemaker to synchronize cellular processes. The endogenous currents are generated by the activity of various ion transporters in the plasma membrane, which were investigated by biophysical and molecular biology approaches. Using an unbiased database search for pollen-expressed transporter genes in Arabidopsis and Lilium, a large number of putative transporters was identified that might contribute to the current pattern formation. Furthermore, we hypothesize that the distribution of the transporters to specific regions in the pollen tube is the basis for the current pattern and is achieved by a self-organization process based on the electrophoretic mobility of charged membrane proteins in an electrical field. Thus, the activity of an ion transporter causes a local change in the transmembrane potential, which in turn would attract similar transporters and repel others leading to a heterogeneous distribution of transporters in the plasma membrane and the observed current pattern. [ABSTRACT FROM AUTHOR]

Published

2018

14. Membrane Proteomics of Arabidopsis Glucosinolate Mutants cyp79B2/B3 and myb28/29.

Author

Mostafa, Islam, Mi-Jeong Yoo, Ning Zhu, Geng, Sisi, Dufresne, Craig, Abou-Hashem, Maged, El-Domiaty, Maher, and Sixue Chen

Subjects

ARABIDOPSIS proteins, GLUCOSINOLATES, PLANT proteomics

Abstract

Glucosinolates (Gls) constitute a major group of natural metabolites represented by three major classes (aliphatic, indolic and aromatic) of more than 120 chemical structures. In our previous work, soluble proteins and metabolites in Arabidopsis mutants deficient of aliphatic (myb28/29) and indolic Gls (cyp79B2B3) were analyzed. Here we focus on investigating the changes at the level of membrane proteins in these mutants. Our LC/MS-MS analyses of tandem mass tag (TMT) labeled peptides derived from the cyp79B2/B3 and myb28/29 relative to wild type resulted in the identification of 4,673 proteins, from which 2,171 are membrane proteins. Fold changes and statistical analysis showed 64 increased and 74 decreased in cyp79B2/B3, while 28 increased and 17 decreased in myb28/29. As to the shared protein changes between the mutants, one protein was increased and eight were decreased. Bioinformatics analysis of the changed proteins led to the discovery of three cytochromes in glucosinolate molecular network (GMN): cytochrome P450 86A7 (At1g63710), cytochrome P450 71B26 (At3g26290), and probable cytochrome c (At1g22840). CYP86A7 and CYP71B26 may play a role in hydroxyl-indolic Gls production. In addition, flavone 3'-O-methyltransferase 1 represents an interesting finding as it is likely to participate in the methylation process of the hydroxyl-indolic Gls to form methoxy-indolic Gls. The analysis also revealed additional new nodes in the GMN related to stress and defense activity, transport, photosynthesis, and translation processes. Gene expression and protein levels were found to be correlated in the cyp79B2/B3, but not in the myb28/29. [ABSTRACT FROM AUTHOR]

Published

2017

15. His-Tagged Peptidiscs Enable Affinity Purification of the Membrane Proteome for Downstream Mass Spectrometry Analysis

Author

Leonard J. Foster, John W. Young, Zhiyu Zhao, Irvinder Singh Wason, David G Rattray, and Franck Duong Van Hoa

Subjects

0301 basic medicine, Proteome, 030102 biochemistry & molecular biology, Chemistry, Cell Membrane, Membrane Proteins, General Chemistry, Mass spectrometry, Biochemistry, Chromatography, Affinity, Mass Spectrometry, 03 medical and health sciences, 030104 developmental biology, Membrane, Affinity chromatography, Downstream (manufacturing), High complexity, Biophysics, Membrane proteome

Abstract

Characterization of the integral membrane proteome by mass spectrometry (MS) remains challenging due its high complexity and inherent insolubility. In a typical experiment, the cellular membranes are isolated, the proteins are solubilized and fractionated, and the detergent micelles are removed before MS analysis. Detergents are not compatible with mass spectrometry, however, and their removal from biological samples often results in reduced protein identification. As an alternative to detergents, we recently developed the peptidisc membrane mimetic, which allows entrapment of the cell envelope proteome into water-soluble particles, termed a "peptidisc library". Here, we employ a His-tagged version of the peptidisc peptide scaffold to enrich the reconstituted membrane proteome by affinity chromatography. This purification step reduces the sample complexity by depleting ribosomal and soluble proteins that often cosediment with cellular membranes. As a result, the peptidisc library is enriched in low-abundance membrane proteins. We apply this method to survey changes in the membrane proteome upon depletion of the SecDFyajC complex, the ancillary subunit of the Sec translocon. In the depleted strain, we detect increased membrane localization of the motor ATPase SecA, along with increased levels of an unannotated inner membrane protein, YibN. Together, these results demonstrate the utility of the peptidisc for global purification of membrane proteins and for monitoring change in the membrane proteome.

Published

2020

16. Membrane Proteome Analysis of Cerulein-Stimulated Pancreatic Acinar Cells: Implication for Early Event of Acute Pancreatitis

Subjects

cerulein, pancreatitis, pancreatic acinar cells, membrane proteome, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background/Aims: Cerulein pancreatitis is similar to human edematous pancreatitis with dysregulation of the production and secretion of digestive enzymes, edema formation, cytoplasmic vacuolization and the death of acinar cells. We hypothesized that membrane proteins may be altered as the early event during the induction of acute pancreatitis. Present study aims to determine the differentially expressed proteins in the membranes of cerulein-treated pancreatic acinar cells. Methods: Pancreatic acinar AR42J cells were treated with 10−8 M cerulein for 1 hour. Membrane proteins were isolated from the cells and separated by two-dimensional electrophoresis using pH gradients of 5-8. Membrane proteins were identified by matrix-assisted laser desorption/ionization-time of flight mass spectrometry (MALDI-TOF MS) analysis of the peptide digests. The differentially expressed proteins, whose expression levels were more or less than three-fold in cerulein-treated cells, were analyzed. Results: Two differentially expressed proteins (mannan-binding lectin-associated serine protease-2, heat shock protein 60) were up-regulated while four proteins (protein disulfide isomerase, Ճ-actin, isocitrate dehydrogenase 3, seven in absentia homolog 1A) were down-regulated by cerulein treatment in pancreatic acinar cells. These proteins are related to cell signaling, oxidative stress, and cytoskeleton arrangement. Conclusions: Oxidative stress may induce cerulein-induced cell injury and disturbances in defense mechanism in pancreatic acinar cells. (Gut Liver 2010; 4:84-93)

Published

2010

17. Comparative proteomic analysis of a membrane-enriched fraction from flag leaves reveals responses to chemical hybridization agent SQ-1 in wheat

Author

Qilu eSong, Shuping eWang, Gaisheng eZhang, Ying eLi, Zheng eLi, Jialin eGuo, Na eNiu, Junwei eWang, and Shoucai eMa

Subjects

ROS, wheat, Membrane proteome, Flag leaves, CHA-SQ-1, Plant culture, SB1-1110

Abstract

The induction of wheat male fertile lines by using the chemical hybridizing agent SQ-1 (CHA-SQ-1) is an effective approach in the utilization of heterosis; however, the molecular basis of male fertility remains unknown. Wheat flag leaves are the initial receptors of CHA-SQ-1 and their membrane structure plays a vital role in response to CHA-SQ-1 stress. To investigate the response of wheat flag leaves to CHA-SQ-1 stress, we compared their quantitative proteomic profiles in the absence and presence of CHA-SQ-1. Our results indicated that wheat flag leaves suffered oxidative stress during CHA-SQ-1 treatments. Leaf O2-, H2O2, and malonaldehyde levels were significantly increased within 10 h after CHA-SQ-1 treatment, while the activities of major antioxidant enzymes such as superoxide dismutase, catalase, and guaiacol peroxidase were significantly reduced. Proteome profiles of membrane-enriched fraction showed a change in the abundance of a battery of membrane proteins involved in multiple biological processes. These variable proteins mainly impaired photosynthesis, ATP synthesis protein mechanisms and were involved in the response to stress. These results provide an explanation of the relationships between membrane proteomes and anther abortion and the practical application of CHA for hybrid breeding.

Published

2015

18. Membrane Proteomic Profiling of Soybean Leaf and Root Tissues Uncovers Salt-Stress-Responsive Membrane Proteins

Author

Hafiz Mamoon Rehman, Shengjie Chen, Shoudong Zhang, Memoona Khalid, Muhammad Uzair, Phillip A. Wilmarth, Shakeel Ahmad, and Hon-Ming Lam

Subjects

Proteomics, salt stress, membrane proteome, soybean, orbitrap, stress-inducible proteins, label-free quantification, mass spectrometry, Organic Chemistry, Membrane Proteins, General Medicine, Sodium Chloride, Plant Roots, Salt Stress, Catalysis, Computer Science Applications, Plant Leaves, Inorganic Chemistry, Seedlings, Stress, Physiological, Soybeans, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Plant Proteins

Abstract

Cultivated soybean (Glycine max (L.)), the world’s most important legume crop, has high-to-moderate salt sensitivity. Being the frontier for sensing and controlling solute transport, membrane proteins could be involved in cell signaling, osmoregulation, and stress-sensing mechanisms, but their roles in abiotic stresses are still largely unknown. By analyzing salt-induced membrane proteomic changes in the roots and leaves of salt-sensitive soybean cultivar (C08) seedlings germinated under NaCl, we detected 972 membrane proteins, with those present in both leaves and roots annotated as receptor kinases, calcium-sensing proteins, abscisic acid receptors, cation and anion channel proteins, proton pumps, amide and peptide transporters, and vesicle transport-related proteins etc. Endocytosis, linoleic acid metabolism, and fatty acid biosynthesis pathway-related proteins were enriched in roots whereas phagosome, spliceosome and soluble NSF attachment protein receptor (SNARE) interaction-related proteins were enriched in leaves. Using label-free quantitation, 129 differentially expressed membrane proteins were found in both tissues upon NaCl treatment. Additionally, the 140 NaCl-induced proteins identified in roots and 57 in leaves are vesicle-, mitochondrial-, and chloroplast-associated membrane proteins and those with functions related to ion transport, protein transport, ATP hydrolysis, protein folding, and receptor kinases, etc. Our proteomic results were verified against corresponding gene expression patterns from published C08 RNA-seq data, demonstrating the importance of solute transport and sensing in salt stress responses.

Published

2022

19. The protein and lipid composition of the membrane of milk fat globules depends on their size.

Author

Jing Lu, Argov-Argaman, Nurit, Anggrek, Jeni, Boeren, Sjef, van Hooijdonk, Toon, Vervoort, Jacques, and Hettinga, Kasper Arthur

Subjects

*MILKFAT, *LIPIDS, *PHOSPHATIDYLINOSITOLS, *CHOLESTEROL, *PROTEINS

Abstract

In bovine milk, fat globules (MFG) have a heterogeneous size distribution with diameters ranging from 0.1 to 15 μm. Although efforts have been made to explain differences in lipid composition, little is known about the protein composition of MFG membranes (MFGM) in different sizes of MFG. In this study, protein and lipid analyses were combined to study MFG formation and secretion. Two different sized MFG fractions (7.6 ± 0.9 μm and 3.3 ± 1.2 μm) were obtained by centrifugation. The protein composition of MFGM in the large and small MFG fractions was compared using mass-spectrometry-based proteomics techniques. The lipid composition and fatty acid composition of MFG was determined using HPLC-evaporative lightscattering detector and gas chromatography, respectively. Two frequently studied proteins in lipid droplet biogenesis, perilipin-2 and TIP47, were increased in the large and small MFG fractions, respectively. In the large MFG fraction, besides perilipin-2, cytoplasmic vesicle proteins (heat shock proteins, 14-3-3 proteins, and Rabs), microfilaments and intermediate filamentrelated proteins (actin and vimentin), host defense proteins (cathelicidins), and phosphatidylinositol were higher in concentration. On the other hand, cholesterol synthesis enzymes [lanosterol synthase and sterol-4- α-carboxylate 3-dehydrogenase (decarboxylating)], cholesterol, unsaturated fatty acids, and phosphatidylethanolamine were, besides TIP47, higher in concentration in the small MFG fraction. These results suggest that vesicle proteins, microfilaments and intermediate filaments, cholesterol, and specific phospholipids play an important role in lipid droplet growth, secretion, or both. The observations from this study clearly demonstrated the difference in protein and lipid composition between small and large MFG fractions. Studying the role of these components in more detail in future experiments may lead to a better understanding of fat globule formation and secretion. [ABSTRACT FROM AUTHOR]

Published

2016

20. The membrane proteome of male gametophyte in Solanum lycopersicum.

Author

Paul, Puneet, Chaturvedi, Palak, Selymesi, Mario, Ghatak, Arindam, Mesihovic, Anida, Scharf, Klaus-Dieter, Weckwerth, Wolfram, Simm, Stefan, and Schleiff, Enrico

Subjects

*GAMETOPHYTES, *PLANT proteomics, *TOMATOES, *POLLEN, *CELL compartmentation, *MEMBRANE proteins

Abstract

Pollen cells possess specialized cellular compartments separated by membranes. Consequently, mature pollen contains proteinaceous factors for inter- and intracellular transport of metabolites or ions to facilitate the upcoming energy exhausting processes — germination and fertilization. Despite the current advancement in the understanding of pollen development little is known about the role and molecular nature of the membrane proteome that participates in functioning and development of male gametophyte. We dissected the membrane proteome of mature pollen from economically important crop Solanum lycopersicum (tomato). Isolated membrane fractions from mature pollen of two tomato cultivars (cv. Moneymaker and cv. Red setter) were subjected to shotgun proteomics (GEL-LC–Orbitrap-MS). The global tomato protein assignment was achieved by mapping the peptides on reference genome (cv. Heinz 1706) and de novo assembled transcriptome based on mRNA sequencing from the respective cultivar. We identified 687 proteins, where 176 were assigned as putative membrane proteins. About 58% of the identified membrane proteins participate in transport processes. In depth analysis revealed proteins corresponding to energy related pathways (Glycolysis and Krebs cycle) as prerequisite for mature pollen, thereby revealing a reliable model of energy reservoir of the male gametophyte. Biological significance Mature pollen plays an indispensable role in plant fertility and crop production. To decipher the functionality of pollen global proteomics studies have been undertaken. However, these datasets are deficient in membrane proteins due to their low abundance and solubility. The work presented here provides a comprehensive investigation of membrane proteome of male gametophyte of an agriculturally important crop plant tomato. The analysis of membrane enriched fractions from two tomato cultivars ensured an effective profiling of the pollen membrane proteome. Particularly proteins of the Krebs cycle or the glycolysis process have been detected and thus a model for the energy dynamics and preparedness of the male gametophyte for the upcoming events — germination and fertilization is provided. [ABSTRACT FROM AUTHOR]

Published

2016

21. Strategies for Rapid Identification of Acinetobacter baumannii Membrane Proteins and Polymyxin B’s Effects

Author

Xuefu You, Congran Li, Xinyi Yang, Yun Lu, Xinxin Hu, and Tongying Nie

Subjects

Microbiology (medical), Acinetobacter baumannii, medicine.drug_class, Polymyxin, Immunology, Microbial Sensitivity Tests, Microbiology, Cellular and Infection Microbiology, Tandem Mass Spectrometry, medicine, Polymyxins, LC-MS/MS, Original Research, biology, Chemistry, Membrane Proteins, polymyxin B, Periplasmic space, Trypsin, biology.organism_classification, QR1-502, Anti-Bacterial Agents, membrane proteome, Infectious Diseases, Membrane protein, Biochemistry, detergents, Proteome, Ultracentrifuge, Polymyxin B, medicine.drug

Abstract

Acinetobacter baumannii, especially multidrug resistant Acinetobacter baumannii, is a notable source of pressure in the areas of public health and antibiotic development. To overcome this problem, attention has been focused on membrane proteins. Different digestion methods and extraction detergents were examined for membrane proteome sample preparation, and label-free quantitative and targeted proteome analyses of the polymyxin B-induced Acinetobacter baumannii ATCC 19606 membrane proteome were performed based on nano LC-MS/MS. Ultracentrifugation of proteins at a speed of 150,000×g, digestion by trypsin, filter-aided sample preparation, and detergents such as lauryldimethylamine-N-oxide were proved as a fast and effective way for identification of membrane proteome by nano LC-MS/MS. Upon treatment with polymyxin B, expression levels of 15 proteins related to membrane structure, transporters, cell surface, and periplasmic space were found to be significantly changed. Furthermore, targeted proteome was also used to confirm these changes. A relatively rapid membrane proteome preparation method was developed, and a more comprehensive view of changes in the Acinetobacter baumannii membrane proteome under polymyxin B pressure was obtained.

Published

2021

22. Changes in milk fat globule membrane proteome after pasteurization in human, bovine and caprine species

Author

Ying Ma, Lina Zhang, Yanyan Wu, and Peng Zhou

Subjects

Proteomics, Pasteurization, 01 natural sciences, Analytical Chemistry, Caprine species, law.invention, 0404 agricultural biotechnology, Immune system, law, Confocal laser scanning microscopy, Animals, Humans, Secretion, Milk fat globule, Glycoproteins, Chemistry, Goats, 010401 analytical chemistry, Lipid Droplets, 04 agricultural and veterinary sciences, General Medicine, Milk Proteins, 040401 food science, 0104 chemical sciences, Milk, Membrane, Biochemistry, Cattle, Electrophoresis, Polyacrylamide Gel, Female, Glycolipids, Membrane proteome, Food Science

Abstract

Milk fat globule membrane (MFGM) proteins have been shown to be very sensitive to processing. This study aims to investigate the thermos-stability of human, bovine, and caprine MFGM proteins after pasteurization. The milk fat globule size was determined using confocal laser scanning microscopy. The MFGM proteins were characterized using SDS-PAGE and label-free proteomic techniques. The results indicated that pasteurization didn't influence the MFGs size distributions in these three species. A total of 1104, 632, and 137 proteins were identified in human, bovine, and caprine MFGM, respectively. The significantly changed proteins after pasteurization were mainly involved in lipid syntheses and secretion as well as immune response. In addition, the changes of these proteins also differed among species, and a higher thermo-sensitivity was observed in human and caprine MFGM proteins than bovine MFGM proteins. In sum, pasteurization affected MFGM protein composition in different extent among three species.

Published

2019

23. Membrane Profiling by Free Flow Electrophoresis and SWATH-MS to Characterize Subcellular Compartment Proteomes in Mesembryanthemum crystallinum

Author

Qi Guo, John C. Cushman, Lei Liu, Won Cheol Yim, and Bronwyn J. Barkla

Subjects

0106 biological sciences, 0301 basic medicine, Free-flow electrophoresis, QH301-705.5, Proteomics, marker proteins, 01 natural sciences, Catalysis, peptide library, subcellular proteomics, Inorganic Chemistry, 03 medical and health sciences, Lipid biosynthesis, subcellular localization, lipid metabolism, ATPase, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Spectroscopy, Cellular compartment, mass spectrometry, biology, Chemistry, lipid biosynthesis, Organic Chemistry, Mesembryanthemum crystallinum, General Medicine, Subcellular localization, biology.organism_classification, Computer Science Applications, membrane proteome, membrane fractionation, 030104 developmental biology, Membrane, Proteome, Biophysics, 010606 plant biology & botany

Abstract

The study of subcellular membrane structure and function facilitates investigations into how biological processes are divided within the cell. However, work in this area has been hampered by the limited techniques available to fractionate the different membranes. Free Flow Electrophoresis (FFE) allows for the fractionation of membranes based on their different surface charges, a property made up primarily of their varied lipid and protein compositions. In this study, high-resolution plant membrane fractionation by FFE, combined with mass spectrometry-based proteomics, allowed the simultaneous profiling of multiple cellular membranes from the leaf tissue of the plant Mesembryanthemum crystallinum. Comparisons of the fractionated membranes’ protein profile to that of known markers for specific cellular compartments sheds light on the functions of proteins, as well as provides new evidence for multiple subcellular localization of several proteins, including those involved in lipid metabolism.

Published

2021

24. A census of α-helical membrane proteins in double-stranded DNA viruses infecting bacteria and archaea.

Author

Kristensen, David M., Saeed, Usman, Frishman, Dmitrij, and Koonin, Eugene V.

Subjects

*MEMBRANE proteins, *DNA analysis, *VIRUS diseases, *VIRAL genomes, *DNA viruses, *LIPIDS, *HOMEOSTASIS, *ENERGY transfer

Abstract

Background: Viruses are the most abundant and genetically diverse biological entities on earth, yet the repertoire of viral proteins remains poorly explored. As the number of sequenced virus genomes grows into the thousands, and the number of viral proteins into the hundreds of thousands, we report a systematic computational analysis of the point of first-contact between viruses and their hosts, namely viral transmembrane (TM) proteins. Results: The complement of α-helical TM proteins in double-stranded DNA viruses infecting bacteria and archaea reveals large-scale trends that differ from those of their hosts. Viruses typically encode a substantially lower fraction of TM proteins than archaea or bacteria, with the notable exception of viruses with virions containing a lipid component such as a lipid envelope, internal lipid core, or inner membrane vesicle. Compared to bacteriophages, archaeal viruses are substantially enriched in membrane proteins. However, this feature is not always stable throughout the evolution of a viral lineage; for example, TM proteins are not part of the common heritage shared between Lipothrixviridae and Rudiviridae. In contrast to bacteria and archaea, viruses almost completely lack proteins with complicated membrane topologies composed of more than 4 TM segments, with the few detected exceptions being obvious cases of relatively recent horizontal transfer from the host. Conclusions: The dramatic differences between the membrane proteomes of cells and viruses stem from the fact that viruses do not depend on essential membranes for energy transformation, ion homeostasis, nutrient transport and signaling. [ABSTRACT FROM AUTHOR]

Published

2015

25. Enhanced SDC-assisted digestion coupled with lipid chromatography-tandem mass spectrometry for shotgun analysis of membrane proteome.

Author

Lin, Yong, Wang, Kunbo, Liu, Zhonghua, Lin, Haiyan, and Yu, Lijun

Subjects

*MEMBRANE proteins, *HYDROPHOBIC interactions, *DEOXYCHOLIC acid, *SOLUBILIZATION, *LIQUID chromatography-mass spectrometry, *EXTRACTION (Chemistry), *CHEMICAL sample preparation, *GENE ontology

Abstract

Despite the biological importance of membrane proteins, their analysis has lagged behind that of soluble proteins and still presents a great challenge mainly because of their highly hydrophobic nature and low abundance. Sodium deoxycholate (SDC)-assisted digestion strategy has been introduced in our previous papers, which cleverly circumvents many of the challenges in shotgun membrane proteomics. However, it is associated with significant sample loss due to the slightly weaker extraction/solubilization ability of 1% SDC. In this study, an enhanced SDC-assisted digestion method (ESDC method) was developed that incorporates the almost strongest ability of SDC with a high concentration (5%) to lyse membrane and extract/solubilize hydrophobic membrane proteins, and then dilution to 1% for more efficient digestion. The comparative study using rat liver membrane-enriched sample showed that, compared with previous SDC-assisted method and the “universal” filter-aided sample preparation (FASP) method, the ESDC method not only increased the identified number of total proteins, membrane proteins, hydrophobic proteins, integral membrane proteins (IMPs) and IMPs with more than 5 transmembrane domains (TMDs) by an average of 10.8%, 13.2%, 17.8%, 17.9% and 52.9%, respectively, but also enhanced the identified number of total peptides and hydrophobic peptides by averagely 12.5% and 14.2%. These results demonstrated that the ESDC method provides a substantial improvement in the recovery and identification of membrane proteins, especially those with high hydrophobicity and multiple TMDs, and thereby displaying more potential for shotgun membrane proteomics. [ABSTRACT FROM AUTHOR]

Published

2015

26. A Commensal Strain of Staphylococcus epidermidis Overexpresses Membrane Proteins Associated with Pathogenesis When Grown in Biofilms.

Author

Águila-Arcos, S., Ding, S., Aloria, K., Arizmendi, J., Fearnley, I., Walker, J., Goñi, F., and Alkorta, I.

Subjects

*STAPHYLOCOCCUS epidermidis, *GENETIC overexpression, *MEMBRANE proteins, *PATHOGENIC microorganisms, *MEDICAL equipment, *BIOFILMS

Abstract

Staphylococcus epidermidis has emerged as one of the major nosocomial pathogens associated with infections of implanted medical devices. The most important factor in the pathogenesis of these infections is the formation of bacterial biofilms. Bacteria grown in biofilms are more resistant to antibiotics and to the immune defence system than planktonic bacteria. In these infections, the antimicrobial therapy usually fails and the removal of the biofilm-coated implanted device is the only effective solution. In this study, three proteomic approaches were performed to investigate membrane proteins associated to biofilm formation: (i) sample fractionation by gel electrophoresis, followed by isotopic labelling and LC-MS/MS analysis, (ii) in-solution sample preparation, followed by isotopic labelling and LC-MS/MS analysis and (iii) in-solution sample preparation and label-free LC-MS/MS analysis. We found that the commensal strain S. epidermidis CECT 231 grown in biofilms expressed higher levels of five membrane and membrane-associated proteins involved in pathogenesis: accumulation-associated protein, staphylococcal secretory antigen, signal transduction protein TRAP, ribonuclease Y and phenol soluble modulin beta 1 when compared with bacteria grown under planktonic conditions. These results indicate that a commensal strain can acquire a pathogenic phenotype depending on the mode of growth. [ABSTRACT FROM AUTHOR]

Published

2015

27. Identification of prohibitin 1 as a potential prognostic biomarker in human pancreatic carcinoma using modified aqueous two-phase partition system combined with 2D-MALDI-TOF-TOF-MS/MS.

Author

Zhong, Ning, Cui, Yazhou, Zhou, Xiaoyan, Li, Tianliang, and Han, Jinxiang

Abstract

Membrane proteins are an important source of potential targets for anticancer drugs or biomarkers for early diagnosis. In this study, we used a modified aqueous two-phase partition system combined with two-dimensional (2D) matrix-assisted laser desorption ionization (MALDI) time of flight (TOF) mass spectrometry (MS, 2D-MALDI-TOF-TOF-MS/MS) analysis to isolate and identify membrane proteins in PANC-1 pancreatic cancer cells. Using this method, we identified 55 proteins, of which 31 (56.4 %) were membrane proteins, which, according to gene ontology annotation, are associated with various cellular processes including cell signal transduction, differentiation, and apoptosis. Immunohistochemical analysis showed that the expression level of one of the identified mitochondria membrane proteins, prohibitin 1 (PHB1), is correlated with pancreatic carcinoma differentiation; PHB1 is expressed at a higher level in normal pancreatic tissue than in well-differentiated carcinoma tissue. Further studies showed that PHB1 plays a proapoptotic role in human pancreatic cancer cells, which suggests that PHB1 has antitumorigenic properties. In conclusion, we have provided a modified method for isolating and identifying membrane proteins and demonstrated that PHB1 may be a promising biomarker for early diagnosis and therapy of pancreatic (and potentially other) cancers. [ABSTRACT FROM AUTHOR]

Published

2015

28. Sperm membrane proteome in wild Japanese macaque (Macaca fuscata) and Sika deer (Cervus nippon).

Author

Kawase, Osamu, Cao, Shinuo, and Xuan, Xuenan

Subjects

*JAPANESE macaque, *MONKEYS, *MAMMAL reproduction, *SIKA deer, *SPERMATOZOA analysis, *SPERMATOZOAN proteins, *ELECTROPHORESIS, *REPRODUCTION

Abstract

Whereas recent advances in proteome-related techniques have accumulated a lot of information about sperm proteins in model animals, the information in non-model wildlife species is absolutely deficient, although this knowledge would be valuable to regulate wildlife overabundance. To characterize the repertoires of sperm membrane proteins in Japanese overpopulated wildlife, our study focuses on the following two species: Macaca fuscata and Cervus nippon . We enriched sperm membrane proteins by the phase partitioning with Triton X-114, and then separated them by two-dimensional electrophoresis, and, finally, they were comprehensively identified by peptide mass fingerprinting. Sperm membrane proteins were successfully enriched. They included some proteins with unknown function and fertility-related proteins that work in sperm development, motility, capacitation, transport, protection, acrosome reaction, and fertilization. Additionally, beta-defensin 126 and epithelial chloride channel were strongly detected in M. fuscata but not in C. nippon , whereas lactadherin and NADH-cytochrome b5 reductase 1 were strongly detected in C. nippon alone. This study is an initiative case showing that the sperm of wildlife conserve major fertility-related proteins, but express some proteins in a species-specific manner. In the development of a practical method for fertility control, this aspect may be taken into consideration. [ABSTRACT FROM AUTHOR]

Published

2015

29. Defining the core proteome of the chloroplast envelope membranes

Author

Stefan eSimm, Dimitri ePapasotiriou, Mohamed eIbrahim, Matthias eLeisegang, Bernd eMüller, Tobias eSchorge, Michael eKaras, Oliver eMirus, Maik eSommer, and Enrico eSchleiff

Subjects

Mass Spectrometry, Membrane Proteins, plant proteomics, Membrane proteome, envelope membrane proteome approach comparison, Plant culture, SB1-1110

Abstract

High-throughput protein localization studies require multiple strategies. Mass spectrometric analysis of cellular fractions is one of the complementary approaches to a diverse array of cell biological methods. In recent years, the protein content of different cellular compartments and subcompartments was approached. Despite of all the efforts in this direction, analyzing membrane fractions is still a difficult task, as e.g. the dissection of the proteome of the envelope membranes of chloroplasts or mitochondria is often not reliable, since sample purity is not always warranted. Moreover, proteomic studies are often restricted to single (model) species, and therefore limited in respect to differential individual evolution.In the study at hand, we have dissected the different chloroplast subcompartments from the model plant Pisum sativum to determine the protein content in the inner and outer envelope membrane. Additionally, we have analyzed the proteome of the mixed envelope membranes of Arabidopsis thaliana and Medicago sativa for inter-species comparison. Further the protein content in the stroma and thylakoid of A. thaliana has been used as a control pool. The analysis yielded a total of 825 proteins in the various fractions isolated. In our study 157 of them were exclusively found in envelopes. The general overlap of our results with previous studies was limited to 38 sequences. Based on this, we provide a detailed map of the outer and inner envelope proteome. We conclude (i) that several alternative sample purification techniques and analysis strategies have to be combined to justify conclusions based on proteomics alone, and (ii) that generalization of results requires the comparison of different species and developmental states.

Published

2013

30. Analysis of Streptomyces coelicolor membrane proteome using two-dimensional native/native and native/sodium dodecyl sulfate gel electrophoresis.

Author

Li, Fuhou, Liang, Jingdan, Wang, Weixia, Zhou, Xiufen, Deng, Zixin, and Wang, Zhijun

Subjects

*MEMBRANE proteins, *STREPTOMYCES coelicolor, *PROTEOMICS, *SODIUM dodecyl sulfate, *POLYACRYLAMIDE gel electrophoresis, *POLYPEPTIDES, *OLIGOMERS

Abstract

Analysis of the oligomeric state of a protein may provide insights into its physiological functions. Because membrane proteins are considered to be the workhorses of energy generation and polypeptide and nutrient transportation, in this study we characterized the membrane-associated proteome of Streptomyces coelicolor by two-dimensional (2D) blue native/sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE), high-resolution clear native/native PAGE, and native/SDS–PAGE. A total of 77 proteins were identified, and 20 proteins belonging to 15 complexes were characterized. Moreover, the resolution of high-resolution clear native/SDS–PAGE is much higher than that of blue native/SDS–PAGE. OBP (SCO5477) and BldKB (SCO5113) were identified as the main protein spots from the membrane fractions of S . coelicolor M145, suggesting that these two proteins are involved in extracellular peptide transportation. These two transporters exhibited multiple oligomeric states in the native PAGE system, which may suggest their multiple physiological functions in the development of S . coelicolor . [ABSTRACT FROM AUTHOR]

Published

2014

31. Author response for 'Inhibition of clathrin‐mediated endocytosis by knockdown of <scp>AP</scp> ‐2 leads to alterations in the plasma membrane proteome'

Author

Peter Zentis, Stefan Höning, Tobias Blaeske, Lisa Maria Kowalski, Paola Zigrino, David Tobys, Eva Cziudaj, Elke Pach, and Stefan Müller

Subjects

Gene knockdown, Chemistry, Receptor-mediated endocytosis, Membrane proteome, Cell biology

Published

2020

32. Characterization of the membrane proteome and N-glycoproteome in BV-2 mouse microglia by liquid chromatography-tandem mass spectrometry.

Author

Dohyun Han, Sungyoon Moon, Yikwon Kim, Hophil Min, and Youngsoo Kim

Subjects

*MICROGLIA, *PROTEOMICS, *DOSE fractionation, *CHROMATOGRAPHIC analysis, *GLYCOPROTEINS

Abstract

Background Microglial cells are resident macrophages of the central nervous system and important cellular mediators of the immune response and neuroinflammatory processes. In particular, microglial activation and communication between microglia, astrocytes, and neurons are hallmarks of the pathogenesis of several neurodegenerative diseases. Membrane proteins and their N-linked glycosylation mediate this microglial activation and regulate many biological process including signal transduction, cell-cell communication, and the immune response. Although membrane proteins and N-glycosylation represent a valuable source of drug target and biomarker discovery, the knowledge of their expressed proteome in microglia is very limited. Results To generate a large-scale repository, we constructed a membrane proteome and Nglycoproteome from BV-2 mouse microglia using a novel integrated approach, comprising of crude membrane fractionation, multienzyme-digestion FASP, N-glyco-FASP, and various mass spectrometry. We identified 6928 proteins including 2850 membrane proteins and 1450 distinct N-glycosylation sites on 760 N-glycoproteins, of which 556 were considered novel N-glycosylation sites. Especially, a total of 114 CD antigens are identified via MS-based analysis in normal conditions of microglia for the first time. Our bioinformatics analysis provides a rich proteomic resource for examining microglial function in, for example, cell-tocell communication and immune responses. Conclusions Herein, we introduce a novel integrated proteomic approach for improved identification of membrane protein and N-glycosylation sites. To our knowledge, this workflow helped us to obtain the first and the largest membrane proteomic and N-glycoproteomic datesets for mouse microglia. Collectively, our proteomics and bioinformatics analysis significantly expands the knowledge of the membrane proteome and N-glycoproteome expressed in microglia within the brain and constitutes a foundation for ongoing proteomic studies and drug development for various neurological diseases. [ABSTRACT FROM AUTHOR]

Published

2014

33. Molecular architecture of the endocytic TPLATE complex

Author

Daniël Van Damme, Roman Pleskot, Klaas Yperman, Michael Kraus, Pieter De Bruyn, Bert De Rybel, Jie Wang, Geert De Jaeger, Evelien Mylle, Jonah Nolf, Dominique Eeckhout, Peter Grones, Romain Merceron, Michaël Vandorpe, Remy Loris, Martin Potocký, Savvas N. Savvides, Lam Dai Vu, Eliana Mor, Joanna Winkler, Faculty of Sciences and Bioengineering Sciences, Department of Bio-engineering Sciences, and Structural Biology Brussels

Subjects

0106 biological sciences, Plant molecular biology, Endocytic cycle, Plant Science, Endocytosis, Biochemistry, 01 natural sciences, 03 medical and health sciences, Membrane interaction, structural biology, endocytosis, Research Articles, 030304 developmental biology, 0303 health sciences, Multidisciplinary, biology, Chemistry, Plant Sciences, CD spectroscopy, Biology and Life Sciences, food and beverages, SciAdv r-articles, Lipidome, biology.organism_classification, Dictyostelium, Cell biology, Structural biology, Coatomer, Membrane proteome, 010606 plant biology & botany, Research Article

Abstract

An integrative structural approach reveals crucial roles of specific subunits in the plant TPLATE/TSET complex., Eukaryotic cells rely on endocytosis to regulate their plasma membrane proteome and lipidome. Most eukaryotic groups, except fungi and animals, have retained the evolutionary ancient TSET complex as an endocytic regulator. Unlike other coatomer complexes, structural insight into TSET is lacking. Here, we reveal the molecular architecture of plant TSET [TPLATE complex (TPC)] using an integrative structural approach. We identify crucial roles for specific TSET subunits in complex assembly and membrane interaction. Our data therefore generate fresh insight into the differences between the hexameric TSET in Dictyostelium and the octameric TPC in plants. Structural elucidation of this ancient adaptor complex represents the missing piece in the coatomer puzzle and vastly advances our functional as well as evolutionary insight into the process of endocytosis.

Published

2020

34. The TPLATE subunit is essential for structural assembly of the endocytic TSET complex

Author

Pieter De Bruyn, Daniël Van Damme, Klaas Yperman, Roman Pleskot, Evelien Mylle, Joanna Winkler, Martin Potocký, Jie Wang, Romain Merceron, Michael Kraus, Jonah Nolf, Remy Loris, Savvas N. Savvides, Bert De Rybel, Michaël Vandorpe, Geert De Jaeger, Lam Dai Vu, Eliana Mor, Dominique Eeckhout, and Peter Grones

Subjects

biology, Membrane interaction, Coatomer, Chemistry, Endocytic cycle, Computational biology, Membrane proteome, Lipidome, Endocytosis, biology.organism_classification, Dictyostelium, Structural approach

Abstract

SummaryAll eukaryotic cells rely on endocytosis to regulate the plasma membrane proteome and lipidome. Most eukaryotic groups, with the exception of fungi and animals, have retained the evolutionary ancient TSET complex as a regulator of endocytosis. Despite the presence of similar building blocks in TSET, compared to other coatomer complexes, structural insight into this adaptor complex is lacking. Here, we elucidate the molecular architecture of the octameric plant TSET complex (TPLATE complex/TPC) using an integrative structural approach. This allowed us to describe a plant-specific connection between the TML subunit and the AtEH/Pan1 proteins and show a direct interaction between the complex and the plasma membrane without the need for any additional protein factors. Furthermore, we identify the appendage of TPLATE as crucial for complex assembly. Structural elucidation of this ancient adaptor complex vastly advances our functional as well as evolutionary insight into the process of endocytosis.Graphical abstract

Published

2020

35. Correction to: Exploring the potential of the platelet membrane proteome as a source of peripheral biomarkers for Alzheimer’s disease

Author

James J. Lah, Eric B. Dammer, Laura E. Donovan, Duc M. Duong, John Hanfelt, Allan I. Levey, and Nicholas T. Seyfried

Subjects

medicine.medical_specialty, Neurology, Geriatrics gerontology, business.industry, Cognitive Neuroscience, MEDLINE, Neurosciences. Biological psychiatry. Neuropsychiatry, Disease, Bioinformatics, Peripheral, medicine, Platelet, Neurology (clinical), Neurology. Diseases of the nervous system, Membrane proteome, business, RC346-429, Geriatric psychiatry, RC321-571

Published

2021

36. Stable Isotope Dilution Mass Spectrometry for Membrane Transporter Quantitation.

Author

Farrokhi, Vahid, McShane, Adam J., Nemati, Reza, and Yao, Xudong

Published

2013

37. Defining the core proteome of the chloroplast envelope membranes.

Author

Simm, Stefan, Papasotiriou, Dimitrios G., Ibrahim, Mohamed, Leisegang, Matthias S., Müller, Bernd, Schorge, Tobias, Karas, Michael, Mirus, Oliver, Sommer, Maik S., and Schleiff, Enrico

Subjects

CHLOROPLASTS, PLANT proteins, MITOCHONDRIA, CELL membranes, ARABIDOPSIS thaliana

Abstract

High-throughput protein localization studies require multiple strategies. Mass spectrometric analysis of defined cellular fractions is one of the complementary approaches to a diverse array of cell biological methods. In recent years, the protein content of different cellular (sub-)compartments was approached. Despite of all the efforts made, the analysis of membrane fractions remains difficult, in that the dissection of the proteomes of the envelope membranes of chloroplasts or mitochondria is often not reliable because sample purity is not always warranted. Moreover, proteomic studies are often restricted to single (model) species, and therefore limited in respect to differential individual evolution. In this study we analyzed the chloroplast envelope proteomes of different plant species, namely, the individual proteomes of inner and outer envelope (OE) membrane of Pisum sativum and the mixed envelope proteomes of Arabidopsis thaliana and Medicago sativa.The analysis of all three species yielded 341 identified proteins in total, 247 of them being unique. 39 proteins were genuine envelope proteins found in at least two species. Based on this and previous envelope studies we defined the core envelope proteome of chloroplasts. Comparing the general overlap of the available six independent studies (including ours) revealed only a number of 27 envelope proteins. Depending on the stringency of applied selection criteria we found 231 envelope proteins, while less stringent criteria increases this number to 649 putative envelope proteins. Based on the latter we provide a map of the outer and inner envelope core proteome, which includes many yet uncharacterized proteins predicted to be involved in transport, signaling, and response. Furthermore, a foundation for the functional characterization of yet unidentified functions of the inner and OE for further analyses is provided. [ABSTRACT FROM AUTHOR]

Published

2013

38. Development and evaluation of an entirely solution-based combinative sample preparation method for membrane proteomics

Author

Lin, Yong, Liu, Hui, Liu, Zhonghua, Liu, Yi, He, Quanze, Chen, Ping, Wang, Xianchun, and Liang, Songping

Subjects

*CHEMICAL sample preparation, *PROTEOMICS, *HYDROPHOBIC surfaces, *MEMBRANE proteins, *SOLUBILIZATION, *SODIUM dodecyl sulfate, *MASS spectrometry

Abstract

Abstract: The hydrophobic nature of many membrane proteins, especially integral membrane proteins, brings great difficulties to their analysis. To improve the analysis of membrane proteins, an entirely solution-based combinative sample preparation (CSP) method was developed and its application to the shotgun analysis of rat liver membrane proteomes was evaluated in this study. This CSP method comprehensively uses the strong ability of sodium dodecyl sulfate (SDS) to lyse the membranes and solubilize hydrophobic membrane proteins, the high efficiency of the optimized acetone precipitation method in sample cleanup and protein recovery, and the advantages of sodium deoxycholate (SDC) in improving protein solubilization/digestion as well as being compatible with trypsin activity. Compared with two other representative sample preparation methods, the SDC-assisted membrane-lysing method and the tube gel method, the newly established CSP method exhibited superiority in the recovery and identification of hydrophobic peptides, larger peptides, and highly hydrophobic membrane proteins with multiple transmembrane domains. The CSP method has characteristics of easy operation, low cost, and suitability for treating protein samples in various volumes, particularly large volumes, thereby having potential in the analysis of membrane proteomes with mass spectrometry. [Copyright &y& Elsevier]

Published

2013

39. Development of a Method Combining Peptidiscs and Proteomics to Identify, Stabilize, and Purify a Detergent-Sensitive Membrane Protein Assembly.

Author

Young JW, Wason IS, Zhao Z, Kim S, Aoki H, Phanse S, Rattray DG, Foster LJ, Babu M, and Duong van Hoa F

Subjects

Escherichia coli genetics, Escherichia coli metabolism, Membrane Proteins, Proteome analysis, Escherichia coli Proteins metabolism, Proteomics methods

Abstract

The peptidisc membrane mimetic enables global reconstitution of the bacterial membrane proteome into water-soluble detergent-free particles, termed peptidisc libraries. We present here a method that combines peptidisc libraries and chromosomal-level gene tagging technology with affinity purification and mass spectrometry (AP/MS) to stabilize and identify fragile membrane protein complexes that exist at native expression levels. This method circumvents common artifacts caused by bait protein overproduction and protein complex dissociation due to lengthy exposure to detergents during protein isolation. Using the Escherichia coli Sec system as a case study, we identify an expanded version of the translocon, termed the HMD complex, consisting of nine different integral membrane subunits. This complex is stable in peptidiscs but dissociates in detergents. Guided by this native-level proteomic information, we design and validate a procedure that enables purification of the HMD complex with minimal protein dissociation. These results highlight the utility of peptidiscs and AP/MS to discover and stabilize fragile membrane protein assemblies. Data are available via ProteomeXchange with identifier PXD032315.

Published

2022

40. Shotgun analysis of membrane proteomes by an improved SDS-assisted sample preparation method coupled with liquid chromatography–tandem mass spectrometry

Author

Lin, Yong, Jiang, Huajun, Yan, Yujun, Peng, Bin, Chen, Jinhua, Lin, Haiyan, and Liu, Zhonghua

Subjects

*PROTEOMICS, *ELECTROSPRAY ionization mass spectrometry, *TANDEM mass spectrometry, *SODIUM dodecyl sulfate, *LIQUID chromatography, *MEMBRANE proteins, *CHEMICAL sample preparation

Abstract

Abstract: Analysis of the membrane proteins, particularly the integral membrane proteins, is limited by the inherent membrane hydrophobicity. Sodium dodecyl sulfate (SDS) is one of the most efficient reagents used for the extraction of membrane proteins, but its presence in samples interferes with LC–MS-based proteomic analyses because it affects RP-LC separations and electrospray ionization. In this paper, we present an improved sample preparation strategy based on SDS-assisted digestion and peptide-level SDS-removal using an optimized potassium dodecyl sulfate (KDS) precipitation method (SSDP method) for shotgun analysis of the membrane proteome. This method utilizes a high concentration of SDS (1.0%) to lyse the membranes and to solubilize the hydrophobic membrane proteins, resulting in a more complete protein digestion in the diluted SDS buffer (0.1% SDS), and a high efficiency of SDS removal and peptide recovery by the optimized KDS precipitation for protein identification. The SSDP method provides evidence that proteins can be efficiently digested, and the SDS can be decreased to <0.01% allowing >95% peptide recovery. Compared to other sample preparation methods commonly used in shotgun membrane proteomics, the newly developed method not only increased the identified number of the total proteins, membrane proteins and integral membrane proteins by an average of 33.1%, 37.2% and 40.5%, respectively, but also leading to the identification of highest number of matching peptides. All the results showed that the method yielded better recovery and reliability in the identification of the proteins especially the highly hydrophobic integral membrane proteins, and thus providing a promising tool for the shotgun analysis of membrane proteome. [Copyright &y& Elsevier]

Published

2012

41. Effects of pre-storage leukoreduction on stored red blood cells signaling: A time-course evaluation from shape to proteome

Author

Antonelou, Marianna H., Tzounakas, Vassilis L., Velentzas, Athanassios D., Stamoulis, Konstantinos E., Kriebardis, Anastasios G., and Papassideri, Issidora S.

Subjects

*ERYTHROCYTES, *PROTEOMICS, *OXIDATIVE stress, *CARBONYLATION, *PHOSPHATIDYLSERINES, *BLOOD transfusion

Abstract

Abstract: The introduction of pre-storage leukoreduction in the preparation of standard RBCs intended for transfusion provided significant improvement in the quality of labile products and their post transfusion viability and effects, although the literature data are controversial. To elucidate the issue of the probable leukoreduction effects on RBCs storage lesion, we evaluated various storage quality measures in RBCs stored in either leukoreduced (L) or non-leukoreduced (N) units, with emphasis to senescence and oxidative stress associated modifications. Our data suggest that the residual leukocytes/platelets of the labile products represent a stressful storage factor, countering the structural and functional integrity of stored RBCs. Hemolysis, irreversible echinocytosis, microvesiculation, removal signaling, ROS/calcium accumulation, band 3-related senescence modifications, membrane proteome stress biomarkers as well as emergence of a senescence phenotype in young RBCs that is disproportionate to their age, are all encountered more or mostly in N-RBCs compared to the L-RBCs, either for a part or for the whole of the storage period. The partial, yet significant, alleviation of so many storage-related manifestations in the L-RBCs compared to the N-RBCs, is presented for the first time and provides a rational mechanistic interpretation of the improved storage quality and transfusions observed by the introduction of pre-storage leukoreduction. This article is part of a Special Issue entitled: Integrated omics. [Copyright &y& Elsevier]

Published

2012

42. Alterations of the erythrocyte membrane proteome and cytoskeleton network during storage - a possible tool to identify autologous blood transfusion.

Author

Nikolovski, Zoran, De La Torre, Carolina, Chiva, Cristina, Borràs, Eva, Andreu, David, Ventura, Rosa, and Segura, Jordi

Abstract

Mature red blood cells (RBCs) are the end-stage of a development process that starts in the bone marrow and continues to differentiate, through reticulocyte stage, entering into the circulation with a four-month lifespan. While stored, RBCs undergo different changes. The aim of this study was to evaluate changes occurring in RBC membranes during storage that could be used as possible markers to detect the misuse of blood transfusion in sports. Whole blood was collected from two volunteers in blood bags and stored for 42 days at 4°C. At different times (1, 7, 21, and 42 days of storage) whole blood was extracted under sterile conditions and submitted to RBC membrane ghost preparation and further analysis. Proteomic methods were applied using two strategies: protein oriented using 2-DE gels and peptide oriented using isobaric tags for relative and absolute quantitation (iTRAQ). In both approaches, the goal was to compare detectable changes in RBC membrane proteome before and after standard storage at different times. Some of the changes were confirmed with both methodologies employed, while with others only with one of them. Complementarities of the methods in this case showed to be an advantage. Changes were observed in two different protein complexes. In one of them, changes consisted of proteins decreasing, while increasing in the other during storage of RBCs. They are mostly located in cytoskeleton - spectrin β, band 4.2, ankyrin-1, tropomodulin-1, β adducin, band 4.9 (dematin), tropomyosin, while some changes were also observed in transmembrane proteins (glycophorin C, aquaporin-1, band 3). Copyright © 2012 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2012

43. Sample preparation for the analysis of membrane proteomes by mass spectrometry.

Author

Wang, Xianchun and Liang, Songping

Abstract

The low abundance and highly hydrophobic nature of most membrane proteins make their analysis more difficult than that for common soluble proteins. Successful membrane protein identification is largely dependent on the sample preparation including the enrichment and dissolution of the membrane proteins. A series of conventional and newly developed methods has been applied to the enrichment of low-abundance membrane proteins at membrane and/or protein levels and to the dissolution of hydrophobic membrane proteins. However, all the existing methods have inherent advantages and limitations. Up to now, there has been no unique method that can universally be employed to solve all the problems and more efforts are needed in improving sample preparation for the analysis of membrane proteomes. [ABSTRACT FROM AUTHOR]

Published

2012

44. Shotgun analysis of membrane proteomes using a novel combinative strategy of solution-based sample preparation coupled with liquid chromatography–tandem mass spectrometry

Author

Lin, Yong, Liu, Hui, Liu, Zhonghua, Wang, Xianchun, and Liang, Songping

Subjects

*MEMBRANE proteins, *SOLUTION (Chemistry), *ANALYTICAL chemistry, *TANDEM mass spectrometry, *LIQUID chromatography, *PROTEOMICS, *PRECIPITATION (Chemistry)

Abstract

Abstract: Although much effort has been made in the field of membrane proteomics, the analysis of membrane proteins particularly integral membrane proteins with poor water solubility still presents a great challenge. In this paper, 2% SDS was used to extract membrane proteins and experimental conditions for the application of acetone precipitation method to the cleanup of SDS-solubilized membrane protein sample were optimized. For improving the re-dissolution and trypsinolysis of acetone-precipitated proteins, several commonly used additives, urea, methanol and sodium deoxycholate (SDC), were employed and compared. The results showed that, when the pre-cooled acetone-to-sample ratio was 6:1 (v/v) with one additional washing step, residual SDS in the protein sample could be lowered to below 0.01% and more than 90% of the proteins were precipitated and therefore recovered. 1% SDC-containing buffer could improve the re-dissolution and digestion of the acetone precipitated proteins more efficiently than the others. Using the combinative sample preparation strategy developed, 398 proteins were identified from the rat liver membrane-enriched fraction, including 188 membrane proteins. Compared with other three representative solution-based sample preparation methods commonly used in membrane proteomics, the newly developed combinative strategy increased the number of identified total proteins and membrane proteins on average by 29.2% and 28.5%, respectively. This combinative strategy was demonstrated to be easily operated at low cost and suitable for the analysis of membrane proteins varying in type and sample volume, etc. [Copyright &y& Elsevier]

Published

2012

45. Alteration of the kidney membrane proteome of Mizuhopecten yessoensis induced by low-level methyl parathion exposure

Author

Huang, Xiang and Huang, He-Qing

Subjects

*METHYL parathion, *ORGANOPHOSPHORUS pesticides, *KIDNEY physiology, *PYRUVATE kinase, *PEPTIDASE, *OXYGENASES, *TRYPSIN inhibitors, *GEL electrophoresis

Abstract

Abstract: Methyl parathion (MP) is a widely used organophosphorus pesticide that causes severe health and environmental effects. We investigated the alteration of the proteomic profile in the membrane enriched fraction of the kidneys of the scallop Mizuhopecten yessoensis exposed to low-level MP. Gas chromatography analysis showed that MP residues were significantly accumulated in the kidneys and the digestive glands of the scallops. According to two-dimensional electrophoresis, 17 proteins were differentially modulated under MP exposure. The mRNA expressions of 12 differential proteins were analyzed using quantitative PCR, and 10 showed consistent alteration of mRNA level with that of protein expression level. Altered expressions of two proteins (mitochondrial processing peptidase and α-tubulin) were also examined using Western blotting, showing that the mitochondrial processing peptidase was down-regulated but α-tubulin remained unchanged in response to MP exposure. Subcellular locations of all the identified proteins that were predicted using bioinformatics tools indicate that few of them are permanently located in the membrane. The differentially expressed proteins are involved in several critical biological processes, and their relevance to human health has been illuminated. These data taken together have provided some novel insights into the chronic toxicity mechanism of MP and have suggested mitochondrial processing peptidase as a potential biomarker for human health and environmental monitoring. [Copyright &y& Elsevier]

Published

2012

46. Oxidative stress-associated shape transformation and membrane proteome remodeling in erythrocytes of end stage renal disease patients on hemodialysis

Author

Antonelou, Marianna H., Kriebardis, Anastasios G., Velentzas, Athanassios D., Kokkalis, Apostolos C., Georgakopoulou, Sofia-Christina, and Papassideri, Issidora S.

Subjects

*CHRONIC kidney failure, *OXIDATIVE stress, *MEMBRANE proteins, *PROTEOMICS, *ERYTHROCYTES, *HEMODIALYSIS, *HEMOGLOBINS, *TRANSMISSION electron microscopy, *PATIENTS

Abstract

Abstract: This study was designed to evaluate the oxidative stress status of erythrocytes and its association with cellular ultrastructure and membrane proteome modifications in patients with end stage renal disease (ESRD) on hemodialysis (HD). For that purpose, we studied red blood cells'' (RBCs) modifications in twelve non-diabetic ESRD patients that were responsive in erythropoietin therapy. Intracellular ROS levels were measured by fluorometry, RBCs ultra-structure was examined by electron microscopy, while the membrane proteome by electrophoresis and immunoblotting. Compared to the healthy subjects, the uremic RBCs exhibited significantly increased ROS accumulation. Dialysis partially ameliorated the basal ROS levels but triggered cellular sensitivity to exogenous oxidative stimuli. Common membrane modifications involved loss, aggregation, fragmentation and carbonylation of critical components as well as over-expression of stress markers. HD significantly contributed to membrane proteome remodeling, especially for aquaporin-1, peroxiredoxin-2 and ubiquitinated proteins. The intracellular redox status and the closely associated membrane modifications seemed to be related to membrane instability, loss of surface area through vesiculation, echinocytosis and stomatocytosis. Our data evinced a network of interactions among the uremic toxins, the RBCs membrane composition and the cellular shape modifications in ESRD, which is developed around a core of oxidative provocations and cellular responses. [Copyright &y& Elsevier]

Published

2011

47. Comparison of surfactant-assisted shotgun methods using acid-labile surfactants and sodium dodecyl sulfate for membrane proteome analysis

Author

Wu, Fang, Sun, Difei, Wang, Nan, Gong, Yan, and Li, Liang

Subjects

*SURFACE active agents, *SULFATES, *HIGH performance liquid chromatography, *TANDEM mass spectrometry, *ION exchange (Chemistry), *PROTEOMICS, *MEMBRANE proteins, *ESCHERICHIA coli

Abstract

Abstract: Three surfactant-assisted shotgun methods using acid labile surfactants, sodium-3-[(2-methyl-2-undecyl-1,3-dioxolan-4-yl)-methoxyl]-1-propanesulfonate (RapiGest) and 3-[3-(1,1-bisalkyloxyethyl)pyridin-1-yl]propane-1-sulfonate (PPS), and sodium dodecyl sulfate (SDS) were investigated for their applicability to membrane proteome analysis. It is shown that RapiGest is a preferred reagent for handling membrane proteomes of Escherichia coli and MCF7 cells for liquid chromatography tandem mass spectrometry (LC MS/MS) analysis of tryptic digests. The RapiGest method allowed identification of more peptides and proteins than the SDS and PPS methods and there was no apparent bias for the type of peptides and proteins identified by the RapiGest and SDS methods, while a slightly higher proportion of hydrophilic peptides and proteins were identified by the PPS method. The performance of the SDS and PPS methods is similar in terms of the numbers of peptides and proteins identified. Since the SDS method required the removal of SDS using a technique such as strong-cation exchange (SCX), we further investigated the effect of SCX on sample loss through analyzing the digest of an enriched E. coli membrane fraction as well as a standard protein, bovine serum albumin (BSA). The results showed that extensive sample loss (as much as 62%) was encountered during the SCX cleaning step. We then applied the RapiGest method in combination with two-dimensional LC MS/MS to characterize the E. coli membrane proteome. In total, 1626 unique proteins (5799 unique peptides) were identified with a peptide false discovery rate of 2.4%. About 60% of the identified proteins with known cellular locations were found to be membrane proteins. Among them, about 75% were integral membrane proteins. This work represents one of the most comprehensive profiles of E. coli membrane proteome generated by a proteomic technique. [Copyright &y& Elsevier]

Published

2011

48. Analysis of cytoplasmic membrane proteome of Streptococcus pneumoniae by shotgun proteomic approach.

Author

Choi, Chi-Won, Yun, Sung-Ho, Kwon, Sang-Oh, Leem, Sun-Hee, Choi, Jong-Soon, Yun, Chi-Young, and Kim, Seung

Abstract

In this study, cytoplasmic membrane proteins of S. pneumoniae strain R6 (ATCC BBA-255) were effectively separated from cell wall or extracellular proteins by sodium carbonate precipitation (SCP) and ultracentrifugation. Forty seven proteins were analyzed as cytoplasmic membrane proteins from the 260 proteins identified by the shotgun proteomic method using SDS-PAGE/LC/MS-MS. ABC transporters for metabolites such as metals, oligopeptides, phosphate, sugar, and amino acids, and membrane proteins involved in phosphotransferse systems, were identified as the predominant and abundant, cytoplasmic membrane proteins that would be essential for nutrient uptake, antibiotic resistance and virulence mechanisms. Our result supports that gel-based shotgun proteomics combined with sodium carbonate precipitation and ultracentrifugation is an effective method for analysis of cytoplasmic membrane proteins of S. pneumoniae. [ABSTRACT FROM AUTHOR]

Published

2010

49. Quantitative proteomic overview on the Corynebacterium glutamicum l-lysine producing strain DM1730

Author

Fränzel, Benjamin, Poetsch, Ansgar, Trötschel, Christian, Persicke, Marcus, Kalinowski, Jörn, and Wolters, Dirk Andreas

Subjects

*PROTEOMICS, *CORYNEBACTERIUM glutamicum, *QUANTITATIVE chemical analysis, *LYSINE, *BACTERIAL cell walls, *OXIDATIVE stress, *MEMBRANE proteins, *GRAM-positive bacteria

Abstract

Abstract: Corynebacterium glutamicum is one of the most important microorganisms because of its ability to produce and secrete glutamate, lysine and other amino acids. To optimize biotechnological amino acid synthesis it is therefore necessary to understand well how metabolic fluxes can be altered by studying the proteins directing these fluxes. In this work we give a comprehensive quantitative outline about the proteomic state of the l-lysine producing mutant strain DM1730 compared to wild type strain ATCC 13032 in the stationary phase of growth. This study comprises 1107 soluble and membrane proteins, of which 908 have been quantified. C. glutamicum DM1730 seems to produce a large amount of lysine even at the expense of various housekeeping functions. Generally, several proteins that are involved in stress response were found to be significantly more abundant, whereas many members of the protein expression machinery are less abundant as well as most proteins involved in cell growth and division and cell envelope synthesis. Extensive l-lysine production causes C. glutamicum to suffer from oxidative stress and iron limitation. Ultimately, a changed lipid composition of C. glutamicum''s cell envelope seems to increase its fluidity, which might be related to altered physiology and membrane processes. [Copyright &y& Elsevier]

Published

2010

50. Gel absorption-based sample preparation for the analysis of membrane proteome by mass spectrometry

Author

Zhou, Jian, Xiong, Jixian, Li, Jianglin, Huang, Sha, Zhang, Hai, He, Quanze, Lin, Yong, Chen, Ping, Wang, Xianchun, and Liang, Songping

Subjects

*CHEMICAL sample preparation, *MEMBRANE proteins, *PROTEOMICS, *MASS spectrometry, *ABSORPTION, *COLLOIDS, *POLYACRYLAMIDE

Abstract

Abstract: A gel absorption-based sample preparation method for shotgun analysis of membrane proteome has been developed. In this new method, membrane proteins solubilized in a starting buffer containing a high concentration of sodium dodecyl sulfate (SDS) were directly entrapped and immobilized into gel matrix when the membrane protein solution was absorbed by the vacuum-dried polyacrylamide gel. After the detergent and other salts were removed by washing, the proteins were subjected to in-gel digestion and the tryptic peptides were extracted and analyzed by capillary liquid chromatography coupled with tandem mass spectrometry (CapLC–MS/MS). The results showed that the newly developed method not only avoided the protein loss and the adverse protein modifications during gel embedment but also improved the subsequent in-gel digestion and the recovery of tryptic peptides, particularly the hydrophobic peptides, thereby facilitating the identification of membrane proteins, especially the integral membrane proteins. Compared with the conventional tube-gel digestion method, the newly developed method increased the numbers of identified membrane proteins and integral membrane proteins by 25.0% and 30.2%, respectively, demonstrating that the method is of broad practicability in gel-based shotgun analysis of membrane proteome. [Copyright &y& Elsevier]

Published

2010