Caroline Rosier scite author profile

Among differential proteomic methods based on stable isotopic labeling, isotope-coded protein labeling (ICPL) is a recent non-isobaric technique devised to label primary amines found in proteins. ICPL overcomes some of the disadvantages found in other chemical-labeling techniques, such as iTRAQ or ICAT. However, previous analyses revealed that more than 30% of the proteins identified in regular ICPL generally remain unquantified. In this study, we describe a modified version of ICPL, named Post-digest ICPL, that makes it possible to label and thus to quantify all the peptides in a sample (bottom-up approach). Optimization and validation of this Post-digest ICPL approach were performed using a standard protein mixture and complex protein samples. Using this strategy, the number of proteins that were identified and quantified was greatly increased in comparison with regular ICPL and cICAT approaches. The pros and cons of this improvement are discussed. This complementary approach to traditional ICPL was applied to the analysis of modification of protein abundances in the model bacterium Cupriavidus metallidurans CH34 after cultivation under simulated microgravity. In this context, two different systems - a 2-D clinorotation and 3-D random positioning device - were used and the results were compared and discussed.

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The response of Cupriavidus metallidurans CH34 to spaceflight in the international space station

Leys

Baatout

Rosier

et al. 2009

Antonie van Leeuwenhoek

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The survival and behavior of Cupriavidus metallidurans strain CH34 were tested in space. In three spaceflight experiments, during three separate visits to the 'International Space Station' (ISS), strain CH34 was grown for 10-12 days at ambient temperature on mineral agar medium. Space- and earth-grown cells were compared post-flight by flow cytometry and using 2D-gel protein analysis. Pre-, in- and post-flight incubation conditions and experiment design had a significant impact on the survival and growth of CH34 in space. In the CH34 cells returning from spaceflight, 16 proteins were identified which were present in higher concentration in cells developed in spaceflight conditions. These proteins were involved in a specific response of CH34 to carbon limitation and oxidative stress, and included an acetone carboxylase subunit, fructose biphosphate aldolase, a DNA protection during starvation protein, chaperone protein, universal stress protein, and alkyl hydroperoxide reductase. The reproducible observation of the over-expression of these same proteins in multiple flight experiments, indicated that the CH34 cells could experience a substrate limitation and oxidative stress in spaceflight where cells and substrates are exposed to lower levels of gravity and higher doses of ionizing radiation. Bacterium C. metallidurans CH34 was able to grow normally under spaceflight conditions with very minor to no effects on cell physiology, but nevertheless specifically altered the expression of a few proteins in response to the environmental changes.

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Purification and Characterization of the Acetone Carboxylase of Cupriavidus metallidurans Strain CH34

Rosier

Leys

Henoumont

et al. 2012

Appl Environ Microbiol

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ABSTRACTAcetone carboxylase (Acx) is a key enzyme involved in the biodegradation of acetone by bacteria. Except for theHelicobacteraceaefamily, genome analyses revealed that bacteria that possess an Acx, such asCupriavidus metalliduransstrain CH34, are associated with soil. The Acx of CH34 forms the heterohexameric complex α2β2γ2and can carboxylate only acetone and 2-butanone in an ATP-dependent reaction to acetoacetate and 3-keto-2-methylbutyrate, respectively.

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Caroline Rosier

Differential proteomic analysis using isotope‐coded protein‐labeling strategies: Comparison, improvements and application to simulated microgravity effect on Cupriavidus metallidurans CH34

The response of Cupriavidus metallidurans CH34 to spaceflight in the international space station

Purification and Characterization of the Acetone Carboxylase of Cupriavidus metallidurans Strain CH34

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