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Advances in analytical methodologies for the characterization and quantification in proteomic analysis / Analyse protéomique : progrès en caractérisation et en quantificationBertaccini, Diego 30 September 2014 (has links)
L’objectif de cette thèse était de développer et d’optimiser de nouvelles méthodologies et approches analytiques afin d’améliorer le potentiel de l’analyse protéomique pour les études biologiques.La première partie de ce travail est consacrée à la détermination massive et exacte de la position N-Terminale des protéines (N-Terminome). Pour cela, nous avons utilisé et développé une approche basée sur une dérivation N-Terminale au TMPP. Cette méthodologie de marquage de la position N-Terminale a permis d’aborder l’étude des clivages protéolytiques des protéines exportées par le parasite P. falciparum (pathogène de la malaria) dans le globule rouge.Afin de permettre une exploitation automatique à haut débit des données de MS/MS, nous avons élaboré une nouvelle méthodologie (dénommée dN-TOP). Celle-Ci repose sur l’utilisation de TMPP portant des isotopes stables et permet ainsi d’accéder à la détermination des positions N-Terminales pour des études de N-Terminome à large échelle.La seconde partie est dédiée aux développements de différentes stratégies analytiques de quantification, aussi bien au niveau peptidique qu’au niveau protéique, appliquées à une série de problématiques biologiques. Ces optimisations ont été réalisées dans le contexte de l’étude des complexes protéiques, du dosage de prion par SRM, de quantification des glycations d’anticorps monoclonaux thérapeutiques et de l’hémoglobine HbA2 pour la standardisation des méthodes de référence. / The objective of this Ph.D. thesis was to develop and optimize new methodologies and analytical approaches to improve the potential of the mass spectrometry based proteomics.The first part of this work focused on the development of the N-Termini proteomics. This topic was addressed with a specific N-Termini chemical derivatization based on TMPP. We have shown that our method allowed both specific N-Terminomics and classical proteomics studies in the same experiment.This N-Terminus methodology was applied to study the proteolytic cleavages of the exported proteins in P. falciparum, a parasite responsible for the malaria.In order to automatize the complex and tedious informatics processsing of the MS/SM data of ourTMPP based N-Terminomics method, we have introduced a new approach (named dN-TOP), based on the use of a stable isotope labeled TMPP which made now N-Terminome proteomics compatible with high throughput studies.The second part addresses quantitative aspects of proteomics. It describes the optimization of quantitative methods at the peptide level or at the protein level for five different proteomic studies in the context of protein complex subunits, targeted SRM based prion, quantification of monoclonal antibodies glycation and hemoglobin HbA2 for reference measurement methods standardization.
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Effect of Amino Acid Substitutions on 70S Ribosomal Binding, Cellular Uptake, and Antimicrobial Activity of Oncocin Onc112Kolano, Lisa, Knappe, Daniel, Berg, Angela, Berg, Thorsten, Hoffmann, Ralf 10 August 2023 (has links)
Proline-rich antimicrobial peptides (PrAMPs) are promising
candidates for the treatment of infections caused by highpriority
human pathogens. Their mode of action consists of (I)
passive diffusion across the outer membrane, (II) active transport
through the inner membrane, and (III) inhibition of protein
biosynthesis by blocking the exit tunnel of the 70S ribosome.
We tested whether in vitro data on ribosomal binding and
bacterial uptake could predict the antibacterial activity of
PrAMPs against Gram-negative and Gram-positive bacteria.
Ribosomal binding and bacterial uptake rates were measured
for 47 derivatives of PrAMP Onc112 and compared to the
minimal inhibitory concentrations (MIC) of each peptide.
Ribosomal binding was evaluated for ribosome extracts from
four Gram-negative bacteria. Bacterial uptake was assessed by
quantifying each peptide in the supernatants of bacterial
cultures. Oncocin analogues with a higher net positive charge
appeared to be more active, although their ribosome binding
and uptake rates were not necessarily better than for Onc112.
The data suggest a complex mode of action influenced by
further factors improving or reducing the antibacterial activity,
including diffusion through membranes, transport mechanism,
secondary targets, off-target binding, intracellular distribution,
and membrane effects. Relying only on in vitro binding and
uptake data may not be sufficient for the rational development
of more active analogues.
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