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Isobaric Tags (isobaric + tag)

Distribution by Scientific Domains
Life Sciences33%

Selected Abstracts

Protein labeling by iTRAQ: A new tool for quantitative mass spectrometry in proteome research

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 3 2007
Sebastian Wiese
Abstract A novel, MS-based approach for the relative quantification of proteins, relying on the derivatization of primary amino groups in intact proteins using isobaric tag for relative and absolute quantitation (iTRAQ) is presented. Due to the isobaric mass design of the iTRAQ reagents, differentially labeled proteins do not differ in mass; accordingly, their corresponding proteolytic peptides appear as single peaks in MS scans. Because quantitative information is provided by isotope-encoded reporter ions that can only be observed in MS/MS spectra, we analyzed the fragmentation behavior of ESI and MALDI ions of peptides generated from iTRAQ-labeled proteins using a TOF/TOF and/or a QTOF instrument. We observed efficient liberation of reporter ions for singly protonated peptides at low-energy collision conditions. In contrast, increased collision energies were required to liberate the iTRAQ label from lysine side chains of doubly charged peptides and, thus, to observe reporter ions suitable for relative quantification of proteins with high accuracy. We then developed a quantitative strategy that comprises labeling of intact proteins by iTRAQ followed by gel electrophoresis and peptide MS/MS analyses. As proof of principle, mixtures of five different proteins in various concentration ratios were quantified, demonstrating the general applicability of the approach presented here to quantitative MS-based proteomics. [source]

Identification of proteins of Neisseria meningitidis induced under iron-limiting conditions using the isobaric tandem mass tag (TMT) labeling approach

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 7 2009
Peter van Ulsen
Abstract Isobaric labeling reagents such as Tandem Mass Tags (TMTŪ) enable the genome-wide quantification of protein expression levels under different conditions using a gel-free MS/MS-based approach. Here, we applied a TMTduplex approach with two isobaric tags to study the response of the human pathogen Neisseria meningitidis to deprivation of iron, a condition met in the human body. In total, 609 proteins were identified in samples of three independent growth experiments, in which we compared cultures grown in the presence and absence of iron. Expression of 35 proteins was found to be induced or repressed under iron-limiting conditions, including 11 proteins whose ORFs were not previously identified in DNA array studies as being regulated by iron availability at the transcriptional level. These 11 proteins include proteins likely involved in iron metabolism. [source]

Translational and transcriptional analysis of Sulfolobus solfataricus P2 to provide insights into alcohol and ketone utilisation

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 3 2007
Poh Kuan Chong
Abstract The potential of Sulfolobus solfataricus P2 for alcohol or ketone bioconversion was explored in this study. S. solfataricus was grown in different concentrations (0.1,0.8% w/v) of alcohols or ketones (ethanol, iso-propanol, n -propanol, acetone, phenol and hexanol) in the presence of 0.4% w/v glucose. Consequently, the addition of these alcohols or ketones into the growth media had an inhibitory effect on biomass production, whereby lag times increased and specific growth rates decreased when compared to a glucose control. Complete glucose utilisation was observed in all cultures, although slower rates of glucose consumption were observed in experimental cultures (average of 14.9,mg/L/h compared to 18.9,mg/L/h in the control). On the other hand, incomplete solvent utilisation was observed, with the highest solvent consumption being approximately 51% of the initial concentration in acetone cultures. Translational responses of S. solfataricus towards these alcohols or ketones were then investigated using the isobaric tags for relative and absolute quantitation (iTRAQ) technique. The majority (>80%) of proteins identified and quantified showed no discernable changes in regulation compared to the control. These results, along with those obtained from transcriptional analysis of key genes involved within this catabolic process using quantitative RT-PCR and metabolite analysis, demonstrate successful alcohol or ketone conversion in S. solfataricus. [source]

Early events of Bacillus anthracis germination identified by time-course quantitative proteomics

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 19 2006
Pratik Jagtap
Abstract Germination of Bacillus anthracis spores involves rehydration of the spore interior and rapid degradation of several of the protective layers, including the spore coat. Here, we examine the temporal changes that occur during B. anthracis spore germination using an isobaric tagging system. Over the course of 17,min from the onset of germination, the levels of at least 19 spore proteins significantly decrease. Included are acid-soluble proteins, several known and predicted coat proteins, and proteins of unknown function. Over half of these proteins are small (less than 100 amino acids) and would have been undetectable by conventional gel-based analysis. We also identified 20 proteins, whose levels modestly increased at the later time points when metabolism has likely resumed. Taken together, our data show that isobaric labeling of complex mixtures is particularly effective for temporal studies. Furthermore, we describe a rigorous statistical approach to define relevant changes that takes into account the nature of data obtained from multidimensional protein identification technology coupled with the use of isobaric tags. This study provides an expanded list of the proteins that may be involved in germination of the B. anthracis spore and their relative levels during germination. [source]

Quantitative nuclear proteomics reveals new phenotypes altered in lymphoblastoid cells

PROTEOMICS - CLINICAL APPLICATIONS, Issue 3 2009
Paul Brennan Dr.
Abstract B-lymphocytes are essential for the production of antibodies to fight pathogens and are the cells of origin in 95% of human lymphomas. During their activation, and immortalisation by Epstein,Barr virus (EBV) which contributes to human cancers, B-lymphocytes undergo dramatic changes in cell size and protein content. This study was initiated to compare the proteome of two B-cell lines, from the same individual, that reflect different patterns of activation, one is EBV negative and the other is EBV positive. Using isobaric tags, LC-MALDI TOF-TOF and subcellular fractionation, we quantified 499 proteins from B-cells. From a detergent lysed protein extract, we identified 34 proteins that were differentially expressed in EBV-immortalised B-cells. By analysing a nuclear extract, we identified a further 29 differentially expressed proteins with only four proteins shared between the two extracts, illustrating the benefit of subcellular fractionation. This analysis has identified proteins involved in the cytoskeletal phenotype of activated B-cells and the increased antigen recognition in EBV-immortalised cells. Importantly, we have also identified new regulators of transcription and changes in ribonuclear proteins that may contribute to the increased cell size and immortalisation of lymphoblastoid cells. [source]

Analysis of detergent-resistant membranes of Helicobacter pylori infected gastric adenocarcinoma cells reveals a role for MARK2/Par1b in CagA-mediated disruption of cellular polarity

CELLULAR MICROBIOLOGY, Issue 3 2008
Zaher Zeaiter
Summary Detergent-resistant membranes of eukaryotic cells are enriched in many important cellular signalling molecules and frequently targeted by bacterial pathogens. To learn more about pathogenic mechanisms of Helicobacter pylori and to elucidate novel effects on host epithelial cells, we investigated how bacterial co-cultivation changes the protein composition of detergent-resistant membranes of gastric adenocarcinoma (AGS) tissue culture cells. Using iTRAQ (isobaric tags for relative and absolute quantification) analysis we identified several cellular proteins, which are potentially related to H. pylori virulence. One of the proteins, which showed a significant infection-dependent increase in detergent resistance, was the polarity-associated serine/threonine kinase MARK2 (EMK1/Par-1b). We demonstrate that H. pylori causes the recruitment of MARK2 from the cytosol to the plasma membrane, where it colocalizes with the bacteria and interacts with CagA. Using Mardin Darby Canine Kidney (MDCK) monolayers and a three-dimensional MDCK tissue culture model we showed that association of CagA with MARK2 not only causes disruption of apical junctions, but also inhibition of tubulogenesis and cell differentiation. [source]