Development of Methods for the Study of Phosphoproteins

Chen, Zhaoyuan

01 December 2006

Characterization of phosphoproteins-including detection, identification of phosphoproteins and identification of phosphorylation sites-is mostly done with radiolabeling and proteomic techniques. Three main topics related to phosphoprotein characterization are included in this dissertation. First, large-scale characterization of the CHO (Chinese hamster ovary) cell phosphoproteome was done using two dimensional gel electrophoresis (2DE) separation, visualization of phosphoproteins by radiolabeling or a phosphoprotein specific dye, followed by MALDI-TOF identification. Because radiolabeling of phosphoproteins is very sensitive and straightforward to quantify, such analysis can give a clear picture of the relative phosphosphorylation of proteins present in a sample. But there are also limitations to this approach, such as the inability of 2DE to separate hydrophobic, acidic and large proteins and the poor detection limits of common protein stains such as Coomassie stain. Additionally, it is difficulty to excise the right spots for identification because of the low abundance of phosphoproteins which have been visualized by radiolabeling. Furthermore, there are problems associated with metabolic radiolabeling. A second topic of the dissertation is the development of a novel strong cation exchange monolithic column for MudPIT (multidimensional protein identification technology) and phosphopeptide isolation. This column, a poly(AMPS-co-PEGDA) monolith containing as high as 40% AMPS, has several favorable features, such as high binding capacity, extraordinarily high resolution, and high peak capacity, making it ideal for resolving complex peptide samples. Application of this novel column to isolate model phosphopeptides was shown. More general use of this column in MudPIT (strong cation exchange column followed by reverse-phased MS/MS) is probably somewhat limited, due to the hydrophobicity of the AMPS monomer. A better monolith could be obtained if a more hydrophilic monomer was used. In the third area of the dissertation, several individual protein phosphorylation sites were analyzed, employing different strategies. Phosphorylation sites of one multiply phosphorylated tryptic peptide from CK2-phosphorylated phosducin-like protein (PhLP) was well characterized using enrichment with a MonoTip® TiO Pipette Tip. Analysis of syntaxin 1a phosphorylation by AMPK (AMP-activated protein kinase) was done by peptide level mapping for potential phosphopeptides after its unsuccessful trial with enrichment using the MonoTip® TiO Pipette Tip. Several criteria such as existence of non-phosphorylated forms of potential phosphopeptides, controls and reasonable retention times were used to rule out false positives. Phosphorylation of syntaxin 1a by AMPK was narrowed down to tryptic peptide T32 with evidence from different sources. Three phosphorylation sites of syntaxin 4 by AMPK were identified within the same peptide (Q65QVTILATPLPEESMK80). Further pinpointing of phosphorylation site(s) for syntaxin 1a by AMPK and further confirmation of these phosphorylation sites in syntaxin 4 by AMPK are required in vivo. The role of phosphorylation in syntaxin 4 by AMPK is the next step toward elucidation of AMPK activation and regulation of the glucose uptake mechanism.

phosphoprotein

phosphopeptide

protein phoshorylation

mass spectrometry

phosphorylation site identification

PhLP

syntaxin

two dimensional gel electrophoresis

phosphoproteome

Biochemistry

Chemistry

Isolation and Identification of O-linked-β-N-acetylglucosamine Modified Proteins (O-GlcNAc) in the Developing Xenopus laevis Oocyte

Paspuleti, Sreelatha

08 November 2004

Oocyte development in Xenopus laevis spans six morphologically distinct stages (stage I-VI), and is associated with a decrease in protein O-GlcNAc levels. As a first step in elucidating the role of O-GlcNAc in developing oocytes, initial efforts were focused on isolation and identification of fifteen modified proteins that decrease during oocyte development. Stage I oocytes due to their high amounts of these proteins, were used as starting material for purification. Multiple affinity and specific antibody based purification technique were initially used in an attempt to enrich the O-GlcNAc proteins. Due to the unique properties of the proteins ultimately identified, these techniques were unable to provide sufficient material for sequencing. However, differential centrifugation coupled with 2D-gel electrophoresis was highly successful. The majority of isolated proteins were strongly basic in nature with pIs 8-10. Coomassie stained bands from 2D-analysis were trypsin digested, and peptides were sequenced by mass spectroscopy (Finnigan LCQ). Mass data were interpreted by Bioworks software, and protein sequences were compared to multiple protein databases. Initially, six proteins were identified as Thesaurin a (42Sp50), cytoplasmic mRNA binding protein p54, y-box homolog, Xp 54 (ATP dependent RNA helicase p54), Vg1 RNA binding protein variant A, Zygote arrest 1(Zar1) and Poly (A) binding protein (PABP). Thesaurin a, the main component of 42S particle of previtellogenic oocytes (stages I-III) is involved in tRNA storage and possess low tRNA transfer activity; y-box factor homolog and Xp54 are present in oocyte mRNA storage ribonucleoprotein particles; Vg1 RBP variant A associates mVg1 RNA to microtubules in order to translocate to the vegetal cortex; Zar1 is involved in oocyte-to-embryo transition; and PABP initiates mRNA translation. This study is the first to characterize these oocyte specific proteins as O-GlcNAc modified proteins. Overall, the presence of several O-GlcNAc proteins in oocytes, the reduction in their levels/ O-GlcNAc levels, and the variation in maturation time in the presence of HBP-flux modulators in developing oocyte indicates O-GlcNAc may play important roles in metabolism, cell growth and cell division of X. laevis oocytes. Therefore, identifying the remainder of these proteins and elucidating the O-GlcNAc role in their function is a worthwhile pursuit.

Thesaurin a

Cytoplasmic mRNA binding protein p54

Vg1 RNA binding protein variant A

Zygote arrest 1

Two-dimensional gel electrophoresis

American Studies

Arts and Humanities

Proteomic analysis of the biological control fungus Trichoderma

Grinyer, Jasmine

January 2007

Thesis by publication. / "August 2006" / Thesis (PhD)--Macquarie University, Division of Environmental & Life Sciences, Dept. of Biological Sciences & Dept. of Chemistry & Biomolecular Sciences), 2007. / Bibliography: leaves 157-183. / 1. Introduction -- 1.1. Proteomics and two-dimensional electrophoresis -- 1.2. A proteomic approach to study the filamentous fungus Trichoderma -- 1.3. Aims of the thesis -- 2. Materials and methods -- 3. Results and discussion -- 3.1. Method development for the display and identification of fungal proteins by 2DE and mass spectrometry -- 3.2. Discovery of novel determinants in the biological control of phytopathogens by Trichoderma atroviride -- 3.3. Summary and concluding remarks. / Trichoderma harzianum and T. atroviride are filamentous fungi commonly found in soil. Both display biocontrol capabilities against a range of phytopathogenic fungi including Rhizoctonia solani and Botrytis cinerea which are known pests of hundreds of commercially important crops including tomatoes, potatoes, beans, cucumber, strawberries, cotton and grapes. These Trichoderma species secrete a combination of enzymes degrading cell walls and antibiotics to overgrow and kill fungal phytopathogens. They are seen as an environmentally friendly alternative to chemical fungicides currengly used on crops. / A proteomic approach was taken to separate and identify proteins from a strain of T. harzianum with well established biocontrol properties. Several methods were developed in this thesis to display the whole proteome content and several subcellular proteome fractions from T. harzianum. Proteins were separated by two-dimensional electrophoresis and identified by mass spectrometric methods. The resulting proteomic maps represent the first extensive array of cellular and sub-cellular proteomes for T. harzianum. / Cellular protein patterns of T. atroviride (T. harzianum P1) grown on media containing either glucose or R. solani cell walls were compared by differential gel electrophoresis to identify a suite of new proteins involved in the biological control response. Twenty four T. atroviride protein spots up-regulated in the presence of the R. solani cell walls were identified by mass spectrometry and N-terminal sequencing. Proteins identified from this study included previously implicated enzymes degrading cell walls and three novel proteases, vacuolar serine protease, vacuolar protease A and trypsin-like protease. The genes encoding two of these proteases, vacuolar protease A and vacuolar serine protease have been cloned by degenerate primer PCR and genomic walking PCR and sequenced. The gene sequences and protein sequences derived from these genes have been partially characterised. / Mode of access: World Wide Web. / 194 leaves ill

Trichoderma -- Molecular aspects

Trichoderma -- Biotechnology

Proteomics

Trichoderma atroviride

biological control

filamentous fungi

proteomics

two-dimensional gel electrophoresis

protein mapping

fungal proteases

Identification and analysis of genes associated with drought tolerance in rice

Alrifdi, Muteb Daham Q

06 August 2021

Rice (Oryza sativa L.) is an important crop cultivated worldwide, and abiotic stresses limit its productivity. Different approaches were carried out to understand the mechanisms of rice defense responses against abiotic stresses, mainly drought. The NADPH-generating enzymes engaged in response to dehydration and salt stresses during the seedling stage of Nipponbare cultivar were analyzed. Enzyme activities of 6-phosphogluconate dehydrogenase (6PGDH), NADP-dependent aldehyde dehydrogenase, NADP-malic enzyme (NADP-ME) in leaves, and 6PGDH in roots were significantly increased in response to dehydration stress. NADP-ME and NADP-glutamate dehydrogenase activities in roots increased significantly in response to salt stress. These results suggest the involvement of NADPH-generating enzymes in plant responses to dehydration and salinity stresses, and the increased demands of NADPH in plants under abiotic stress can be furnished by enhanced activities of NADPH-producing enzymes. Also, a dehydration-induced protein was detected and identified as serine-hydroxymethyltransferase. This result indicates that serine-hydroxymethyltransferase can play a key role in regulating dehydration response in rice. Moreover, comparative proteomic analyses of CL163 (drought-tolerant), Cheniere (drought-sensitive), and Rex (moderately-drought-sensitive) rice varieties were performed. Drought-responsive proteome changes were profiled in leaves and roots at the seedling stage in response to drought stress imposed by polyethylene glycol (PEG-6000). Eighteen significantly differentially expressed proteins were identified by mass spectrometry. Elongate factor1 alpha and 17.9-kDa classI heat shock protein appear to have different expression patterns between CL163 and Cheniere, which may be attributable to the difference in drought response of the two rice varieties. Furthermore, a compendium of 103 drought resistance genes in rice was compiled to construct and analyze networks formed by associations between genes/proteins and to identify the most significant genes, biological processes/pathways. Genes were classified based on gene ontology and protein class into 26 groups. Forty-two genes were classified as transcription factors. Proteins encoded by the genes were localized in 8 subcellular locations and classified into three classes. Two pathways from KEGG whose genes were overrepresented in the compendium were identified. Gene expression, network presenting pairwise interactions between genes/proteins, and co-expression network were constructed. This study provides a systematic view of the crucial genes that can be contributing collectively to drought tolerance.

Rice (Oryza sativa L.)

Abiotic Stresse

Drought

Salt

The NADPH-Generating Enzymes

Enzyme Activity

Proteomic Analyses

Plant Systems Biology

In-Gel Activity Staining Analysis

Two-Dimensional Gel Electrophoresis.

Differentially Expressed Proteins in the Pancreas of Diabetic Mice

Qiu, Linghua

03 November 2005

No description available.

Biology, Molecular

Type Z Diabetes Mellitus

Pancreas

Two-Dimensional Gel Electrophoresis

Regenerating Islet-Derived 1

Regenerating Islet-Derived 2

Cellular Glutathione Peroxidase

Untersuchungen zu Nitrat-induzierbaren Proteinen der Plasmamembran von Chlorella saccharophila (Krüger) Nadson / Investigations on nitrate-inducible proteins in the plasma membrane of Chlorella saccharophila (Krueger) Nadson

Brechlin, Peter

30 October 2002

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Plasmamembran

Nitrat-Transportsystem

Nitrat-Transporter

Zweidimensionale Gelelektrophorese

plasma membrane

nitrate transport system

nitrate transporter

two-dimensional gel electrophoresis

42.15

42.17

42.43

WA

WV

Impact d'une mitochondrie exogène sur le protéome du cybride Chrosomus eos

Schwartz, Logan

08 1900

On retrouve dans le complexe Chrosomus eos-neogaeus une forme cybride ayant le génome nucléaire de C. eos et le génome mitochondrial de C. neogaeus. Ce modèle particulier fournit une occasion unique d’étudier l’influence d’une mitochondrie exogène sur le métabolisme et la physiologie d'organismes vivant en milieu naturel, et s'étant donc adaptés à cette situation cellulaire atypique. La mitochondrie jouant un rôle fondamental vital, nous nous attendons à ce que la présence d’une mitochondrie exogène chez la forme cybride ait un impact sur l’expression de son génome et du protéome qui en découle. L’objectif de ce projet est d’étudier les différences au niveau protéomique entre des individus C. eos purs (forme sauvage) et des cybrides provenant d'habitats similaires afin de faire ressortir au maximum les différences dues à la présence de mitochondries C. neogaeus chez la forme cybride. Pour ce faire, nous avons comparé les protéomes des formes cybride et sauvage en utilisant l'électrophorèse en deux dimensions. Un sous-groupe de protéines produisant un signal spécifique révélé par l’analyse comparative a été identifié et analysé par spectrométrie de masse (LC/MS). Les résultats indiquent que la présence de mitochondries C. neogaeus chez le cybride influence fortement la régulation génique chez ce dernier. De plus, les protéines identifiées apportent des pistes intéressantes supportant l'hypothèse que la présence de mitochondries C. neogaeus chez le cybride rendrait ce biotype plus résistant au froid que la forme sauvage. / The Chrosomus eos-neogaeus genetic complex regroups different forms of hybrids of these two species, among which a cybrid form, that harbours the nuclear genome of C. eos and the mitochondria of C. neogaeus. This peculiar model is thus a unique opportunity to study the influence of an exogenous mitochondria on the metabolism and cellular physiology in a living animal in the wild, and thus perfectly adapted to this atypical cellular environment. Mitochondria being at the core of fundamental biological processes, we expect that the presence of foreign mitochondria will modify gene expression and the resulting proteome of these fishes. The overall goal of this master thesis is thus to compare the proteome of pure (wild type) C. eos with the cybrid form sampled in similar lakes from the same geographical area so that most differences could be attributed to the different mitochondrial genomes. To achieve this goal, we used two dimensional electrophoresis. We selected a sub-group of proteins that showed the most extreme expression differences and identified these spots by mass spectrometric analyses (LC/MS). Results demonstrate that C. neogaeus mitochondria has a strong influence on gene expression in cybrid. Proteins identified bring new clues supporting the hypothesis that cybrid are more cold tolerant than the wild type biotype.

Cybride

Hybride cytoplasmique

Protéomique

Analyse comparative

Gel 2D

Mitochondrie

Chrosomus eos-neogaeus

Mitochondria

Cybrid

Cytoplasmic hybrid

Proteomic

Two-dimensional gel electrophoresis

Comparative analysis

Cell-protein-material Interactions on Bioceramics and Model Surfaces / Interaktioner mellan celler, proteiner och keramiska material

Rosengren, Åsa

January 2004

<p>The objective of this thesis was to investigate and characterize the interaction between blood proteins and different surfaces with emphasis on protein adsorption to bioceramics and model surfaces. Special effort was made to monitor the spontaneous and selective adsorption of proteins from human plasma and to examine the orientation, conformation and functional behavior of single proteins after adsorption. </p><p>Five different ceramic biomaterials: alumina (Al₂O₃), zirconia (ZrO₂), hydroxyapatite (Ca₁₀(PO₄)₆(OH)₂) and two glass-ceramics, AP40 (SiO₂-CaO-Na₂O-P₂O₅-MgO-K₂O-CaF₂) and RKKP (AP40 with Ta₂O₃-La₂O₃), were exposed to human plasma and their protein binding capacities and affinities for specific proteins were studied by chromatography, protein assays, two-dimensional gel electrophoresis and Western blotting. The studies showed that all materials adsorbed approximately the same high amount of plasma proteins and that they therefore should be fully covered by proteins in an <i>in vivo</i> setting. The adsorbed proteins were different for most materials which could explain their previously observed different levels of tissue integration <i>in vivo</i>. </p><p>Four of the proteins that behaved differently, ceruloplasmin, prothrombin, α₂-HS-glycoprotein and α₁-antichymotrypsin, were selected for characterization with atomic force microscopy and ellipsometry. The studies, which were performed on ultraflat silicon wafers (silica), showed that the proteins oriented themselves with their long axis parallel to the surface or as in case of ceruloplasmin with one of its larger sides towards the surface. All of them had globular shapes but other conformational details were not resolved. Furthermore, prothrombin (none of the others) formed multilayers at high proteins concentrations. </p><p>The functional behaviour of the adsorbed proteins, referring to their cell binding and cell spreading capacity on silica and a positive cell adhesion reference surface (Thermanox®), was affected by the underlying substrate. Ceruloplasmin, α₂-HS-glycoprotein and α₁-antichymotrypsin stimulated cell attachment to silica, but suppressed attachment to Thermanox®. Prothrombin stimulated cell attachment to both surfaces. The attachment was in most cases mediated both by cell membrane-receptors (integrins) and by non-specific interactions between the cell and the material. </p><p>This thesis showed that the compositional mixture, orientation, conformation and functional behavior of the adsorbed proteins are determined by the properties of the underlying surface and if these parameters are controlled very different cellular responses can be induced.</p>

Chemistry

protein adsorption

blood proteins

biomaterials

ceramics

glass-ceramics

two-dimensional gel electrophoresis

protein orientation

silicon wafers

atomic force microscopy

bone cell adhesion

divalent cation dependency

Kemi

Chemistry

Kemi

Cell-protein-material Interactions on Bioceramics and Model Surfaces / Interaktioner mellan celler, proteiner och keramiska material

Rosengren, Åsa

January 2004

The objective of this thesis was to investigate and characterize the interaction between blood proteins and different surfaces with emphasis on protein adsorption to bioceramics and model surfaces. Special effort was made to monitor the spontaneous and selective adsorption of proteins from human plasma and to examine the orientation, conformation and functional behavior of single proteins after adsorption. Five different ceramic biomaterials: alumina (Al2O3), zirconia (ZrO2), hydroxyapatite (Ca10(PO4)6(OH)2) and two glass-ceramics, AP40 (SiO2-CaO-Na2O-P2O5-MgO-K2O-CaF2) and RKKP (AP40 with Ta2O3-La2O3), were exposed to human plasma and their protein binding capacities and affinities for specific proteins were studied by chromatography, protein assays, two-dimensional gel electrophoresis and Western blotting. The studies showed that all materials adsorbed approximately the same high amount of plasma proteins and that they therefore should be fully covered by proteins in an in vivo setting. The adsorbed proteins were different for most materials which could explain their previously observed different levels of tissue integration in vivo. Four of the proteins that behaved differently, ceruloplasmin, prothrombin, α2-HS-glycoprotein and α1-antichymotrypsin, were selected for characterization with atomic force microscopy and ellipsometry. The studies, which were performed on ultraflat silicon wafers (silica), showed that the proteins oriented themselves with their long axis parallel to the surface or as in case of ceruloplasmin with one of its larger sides towards the surface. All of them had globular shapes but other conformational details were not resolved. Furthermore, prothrombin (none of the others) formed multilayers at high proteins concentrations. The functional behaviour of the adsorbed proteins, referring to their cell binding and cell spreading capacity on silica and a positive cell adhesion reference surface (Thermanox®), was affected by the underlying substrate. Ceruloplasmin, α2-HS-glycoprotein and α1-antichymotrypsin stimulated cell attachment to silica, but suppressed attachment to Thermanox®. Prothrombin stimulated cell attachment to both surfaces. The attachment was in most cases mediated both by cell membrane-receptors (integrins) and by non-specific interactions between the cell and the material. This thesis showed that the compositional mixture, orientation, conformation and functional behavior of the adsorbed proteins are determined by the properties of the underlying surface and if these parameters are controlled very different cellular responses can be induced.

Chemistry

protein adsorption

blood proteins

biomaterials

ceramics

glass-ceramics

two-dimensional gel electrophoresis

protein orientation

silicon wafers

atomic force microscopy

bone cell adhesion

divalent cation dependency

Kemi

Chemistry

Kemi