Academic literature on the topic 'Protein isotopic labelling'
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Journal articles on the topic "Protein isotopic labelling"
Haris, Parvez I. "Can infrared spectroscopy provide information on protein–protein interactions?" Biochemical Society Transactions 38, no. 4 (July 26, 2010): 940–46. http://dx.doi.org/10.1042/bst0380940.
Full textChaud, Saula Goulart, Admar Costa de Oliveira, and Paulo César Ocheuze Trivelin. "Nitrogen 15 abundance in protein fractions of beans fertilized with (15NH4)2SO4." Scientia Agricola 59, no. 4 (December 2002): 777–80. http://dx.doi.org/10.1590/s0103-90162002000400023.
Full textMuona, Mikko, A. Sesilja Aranko, and Hideo Iwai. "Segmental Isotopic Labelling of a Multidomain Protein by Protein Ligation by Protein Trans-Splicing." ChemBioChem 9, no. 18 (December 15, 2008): 2958–61. http://dx.doi.org/10.1002/cbic.200800604.
Full textClifton, Luke A. "Unravelling the structural complexity of protein–lipid interactions with neutron reflectometry." Biochemical Society Transactions 49, no. 4 (July 9, 2021): 1537–46. http://dx.doi.org/10.1042/bst20201071.
Full textRYCHEN, GUIDO, DIDIER MPASSI, STEPHAN JURJANZ, MICHEL MERTES, IRENE LENOIR-WIJNKOOP, JEAN MICHEL ANTOINE, and FRANÇOIS LAURENT. "15N as a marker to assess portal absorption of nitrogen from milk, yogurt and heat-treated yogurt in the growing pig." Journal of Dairy Research 69, no. 1 (February 2002): 95–101. http://dx.doi.org/10.1017/s0022029901005374.
Full textTHABET, AHMED, JOHANNES SCHMIDT, SVEN BAUMANN, WALTHER HONSCHA, MARTIN VON BERGEN, ARWID DAUGSCHIES, and BERIT BANGOURA. "Resistance towards monensin is proposed to be acquired in a Toxoplasma gondii model by reduced invasion and egress activities, in addition to increased intracellular replication." Parasitology 145, no. 3 (September 5, 2017): 313–25. http://dx.doi.org/10.1017/s0031182017001512.
Full textLÓPEZ-HELLÍN, Joan, Ricardo GONZALO, Mónica TEJEDA, Montserrat CARRASCAL, Maya R. VILÀ, Joaquín ABIÁN, and Elena GARCÍA-ARUMÍ. "Transcriptomic and proteomic analysis of liver and muscle alterations caused by surgical stress in rats." Clinical Science 108, no. 2 (January 21, 2005): 167–78. http://dx.doi.org/10.1042/cs20040144.
Full textFeldberg, R. S., D. A. Iannitti, and D. E. Cochrane. "Histidine decarboxylase from rat mast cells. Enhanced recovery in cell-free extracts and isotopic labelling." Biochemical Journal 249, no. 1 (January 1, 1988): 297–300. http://dx.doi.org/10.1042/bj2490297.
Full textBequette, B. J., F. R. C. Backwell, M. S. Dhanoa, A. Walker, A. G. Calder, D. Wray-Cahen, J. A. Metcalf, et al. "Kinetics of blood free and milk casein-amino acid labelling in the dairy goat at two stages of lactation." British Journal of Nutrition 72, no. 2 (August 1994): 211–20. http://dx.doi.org/10.1079/bjn19940025.
Full textChang, Shih Chieh, Charles A. Galea, Eleanor W. W. Leung, Rajeev B. Tajhya, Christine Beeton, Michael W. Pennington, and Raymond S. Norton. "Expression and isotopic labelling of the potassium channel blocker ShK toxin as a thioredoxin fusion protein in bacteria." Toxicon 60, no. 5 (October 2012): 840–50. http://dx.doi.org/10.1016/j.toxicon.2012.05.017.
Full textDissertations / Theses on the topic "Protein isotopic labelling"
Mas, Guillaume. "Etude structurale et fonctionnelle par RMN d'une chaperonine de 1 MDa en action." Thesis, Université Grenoble Alpes (ComUE), 2015. http://www.theses.fr/2015GREAV036/document.
Full textChaperonins are essential molecular chaperons for the refolding of proteins in the cells. Size and complexity of these biological machineries make complex the study of their structural and functional properties. NMR spectroscopy offers an unique ability to monitor structural and dynamic changes in real-time and at atomic resolution. However, the NMR studies of large proteins and complexes has been a real challenge for a long time. In the first part of this thesis, it has been shown that the combination of methyl specific labeling, optimized NMR spectroscopy for large assemblies and electron microscopy can be used to monitor the different states of the functional cycle of a 1 MDa chaperonin. To study this mechanism, the native chaperonin was reconstituted with a labeling of the methionines and valines methyl groups. Methionines residues have been used as probes to identify the NMR spectra corresponding to intermediates states and active species of the functional cycle. Thanks to theses probes, it has been possible to follow in real time the structural rearrangements corresponding to the different conformations of the chaperonin during its functional cycle. The second part deals with the characterization of the interaction between the chaperonin and an unfolded protein. Observation of the stabilization of the unfolded protein by the chaperonin allowed to identify the holdase activity of the chaperonin. Using a clever combination of a differential methyl labeling and optimized NMR spectroscopy for large assemblies, it has been possible to follow the refolding of the unfolded protein by the chaperonin and the effects of the unfolded protein on the functional cycle of the chaperonin in action
Marques, Emerson Finco. "Investigação de produtos de reação do oxigênio singlete em proteínas por espectrometria de massas e marcação isotópica." Universidade de São Paulo, 2017. http://www.teses.usp.br/teses/disponiveis/46/46136/tde-12042018-100759/.
Full textSinglet molecular oxygen (1O2) can be generated in biological systems, reacting with different biomolecules. Proteins are major target for oxidants due to higher concentration in organisms. At physiological pH, 1O2 may react with the following aminoacids: His, Tyr, Met, Cys and Trp. Here, we investigated oxidation and dimerization reactions of proteins exposed to 1O2 using lysozyme as a model. Modifications of lysozyme by 1O2 were investigated using mass spectrometry approaches. Identification of the main oxidation and dimerization products were performed by peptide sequencing by nano-chromatography coupled to mass spectrometry (nLC-MS/MS). Singlet oxygen was generated using visible light and rose Bengal as photosensitizer, and from the decomposition of thermolabile endoperoxides DHPN16O2 e DHPN18O2, clean sources of 1O2. Experimental findings showed oxidation of Met, His, and Trp residuesin lysozyme. Structural characterization by nLC-MS/MS of the oxidative modifications in lysozyme tryptic peptides showed the addition of [18O]-labeled atoms in different amino acid residues. Lysozyme has in its structure a single histidine residue (His15). We identified shifts of +14 Da (described as oxohistidine), +16 and +32 Da in this residue. Methionine residues (Met12 and Met105) were oxidized to sulfoxides (MetSO mass shift of +16 Da). Modifications in tryptophan residues were identified as kynurenine (shift mass of +4 Da), +16 and + 32 Da. Oxidized lysozyme subjected to SDS-Page showed dimmers formation. The main aim was to analyze cross-linking formation between 2-oxo-histidine residues in lysozyme. However, cross-links between 2- oxo-histidine and lysine residues, and cross-links between oxidized tryptophan residues have been identified. Following results obtained with the protein model, we evaluated oxidation and the dimers formation in proteins extracted from the lens of the bovine eye. Analysis performed in nLC-MS/MS and bioinformatics identified different types of modifications, including formation of dimers with histidine residues (2-oxo-His-His). The data provided evidence for simultaneous occurrence of protein cross-linking on exposure 1O2. These results demonstrated the important role of 1O2 in protein reactions beyond its involvement in developing of pathological conditions. In conclusion, dimerization of proteins through 2-oxo-His residues may be a possible new biomarker for 1O2 in biological systems.
Xuereb, Fabien. "La spectrométrie de masse appliquée à la quantification des protéines médicaments dans le plasma." Thesis, Bordeaux 1, 2008. http://www.theses.fr/2008BOR13686/document.
Full textThe growing number of therapeutic proteins has created needs in the field of their quantification, mainly in plasma, which is a complex protein environment. Quantitative analysis of these proteins is essential for pharmacokinetics/pharmacodynamics studies, and for the optimization of treatments. However, the nature itself of the analyte and the low concentrations that are expected in plasma complicate the quantitative analysis. The proposed methodology differs from usual methods on its universal applicability. It relies on mass spectrometry adapted to the quantification of proteins by using peptides differential isotope labelling : after enrichment and proteolysis, the therapeutic protein and the plasmatic proteins are labelled on lysine residues by the light reagent. In parallel, peptides of the pure therapeutic protein, labelled by heavy version of reagent, are used as internal standard. The ability to quantify the protein with several of its peptides improves the reliability of the analysis. When applied to epoetin beta at expected therapeutic concentrations (about 0.5 femtomole/µL of plasma), the proposed strategy leads to a quantification limit close to 50 attomoles of epoetin beta/µL plasma, with a nano-LC-ESI-Q-TRAP mass spectrometry methodology operating in MRM. To extend the universal character of this approach to the field of pegylated protein drugs, a second therapeutic protein model has been studied. This model is a pegylated interferon alfa-2b which allowed developing a strategy for specific extraction of the drug relying on its pegylation
Nars, Guillaume. "Dynamique fonctionnelle des protéines : études d'une lipase et d'une protéine A de la membrane externe de bactérie." Thesis, Toulouse 3, 2015. http://www.theses.fr/2015TOU30111/document.
Full textUnderstanding the function of proteins and biological systems requires an accurate knowledge of the underlying molecular mechanisms. Crystallography and nuclear magnetic resonance provide a detailed description of these mechanisms, with an atomic resolution, by providing data on both structures and motions. We investigated two proteins, the lip2 lipase from the yeast Yarrowia lipolytica and the membrane protein OmpA from the bacteria Klebsiella pneumoniae. We tried to produce lip2 with uniform and amino-acid specific stable isotope labelling on its functional loop (the lid) for NMR experiments. The homologous recombinant expression in Yarrowia lipolytica turned out to be the most efficient for uniform labelling but failed for specific labelling due to extensive isotope scrambling. We solved the structure of OmpA C-terminal domain by X-ray crystallography, and analyzed its dynamics in solution by NMR (15N relaxation techniques). We characterized its transmembrane N-terminal domain in proteoliposomes by solid state NMR: using state of the art ultra-fast MAS (60 kHz), 1H detection and a 1 GHz spectrometer, we could assign most ?-barrel resonances and establish a NH order parameter profile. In a complementary approach, we used proteolysis to reveal a unique trypsin cleavage site on the extracellular loop 3. Finally, a first characterization of the full-length protein expressed in the outer membrane of Escherichia coli was initiated by solid state NMR on intact outer membranes
Akkif, Mohamed. "Contribution a l'etude des racines de secheresse du colza (brassica napus var. Oleifera metzg. ) : aspects cytophysiologiques et metaboliques." Nantes, 1987. http://www.theses.fr/1987NANT2010.
Full textMercatelli, Eleonora. "Development of novel sample preparation strategies for in-cell NMR." Doctoral thesis, 2017. http://hdl.handle.net/2158/1114729.
Full textSchiffer, Eric [Verfasser]. "Domain specific isotope labelling of membrane proteins : NMR and FTIR spectroscopy of SRII/HtrII complexes from Natronobacterium pharaonis / vorgelegt von Eric Schiffer." 2005. http://d-nb.info/997965614/34.
Full textLiu, X., L. Hu, G. Ge, B. Yang, J. Ning, S. Sun, L. Yang, Klaus Pors, and J. Gu. "Quantitative analysis of cytochrome P450 isoforms in human liver microsomes by the combination of proteomics and chemical probe-based assay." 2014. http://hdl.handle.net/10454/10502.
Full textCytochrome P450 (CYP) is one of the most important drug-metabolizing enzyme families, which participates in the biotransformation of many endogenous and exogenous compounds. Quantitative analysis of CYP expression levels is important when studying the efficacy of new drug molecules and assessing drug-drug interactions in drug development. At present, chemical probe-based assay is the most widely used approach for the evaluation of CYP activity although there are cross-reactions between the isoforms with high sequence homologies. Therefore, quantification of each isozyme is highly desired in regard to meeting the ever-increasing requirements for carrying out pharmacokinetics and personalized medicine in the academic, pharmaceutical, and clinical setting. Herein, an absolute quantification method was employed for the analysis of the seven isoforms CYP1A2, 2B6, 3A4, 3A5, 2C9, 2C19, and 2E1 using a proteome-derived approach in combination with stable isotope dilution assay. The average absolute amount measured from twelve human liver microsomes samples were 39.3, 4.3, 54.0, 4.6, 10.3, 3.0, and 9.3 (pmol/mg protein) for 1A2, 2B6, 3A4, 3A5, 2C9, 2C19, and 2E1, respectively. Importantly, the expression level of CYP3A4 showed high correlation (r = 0.943, p < 0.0001) with the functional activity, which was measured using bufalin-a highly selective chemical probe we have developed. The combination of MRM identification and analysis of the functional activity, as in the case of CYP3A4, provides a protocol which can be extended to other functional enzyme studies with wide application in pharmaceutical research.
Book chapters on the topic "Protein isotopic labelling"
Takeda, Mitsuhiro, and Masatsune Kainosho. "Isotope Labelling." In Protein NMR Spectroscopy: Practical Techniques and Applications, 23–53. Chichester, UK: John Wiley & Sons, Ltd, 2011. http://dx.doi.org/10.1002/9781119972006.ch2.
Full textPlevin, Michael J., and Jérôme Boisbouvier. "Isotope-Labelling of Methyl Groups for NMR Studies of Large Proteins." In Recent Developments in Biomolecular NMR, 1–24. The Royal Society of Chemistry, 2012. http://dx.doi.org/10.1039/9781849731201-00001.
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