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3. Book of Abstracts: 2022 Poster Sessions. 9th Annual Conference of the Marie Curie Alumni Association, March 25-27, 2022, Lisbon, Portugal

Author

Greco, Gian Maria, Gledson, Emidio, Tomatis, Pablo E., and Avasthi, Ashish

Subjects
Chemistry, Engineering, Sustainable Research Practices, Economics, Physics, Humanities and Arts, Life Sciences, Social Sciences, Environmental Sustainability, Career Development
Abstract

This book collects the posters and their abstracts presented at the Annual Conference of the Marie Curie Alumni Association which took place in Lisbon (Portugal) and online on 26-27 March 2022. Proposals that passed selection were categorised and divided into different areas approximately corresponding to the MSCA panels, which were integrated by two topics of great relevance for the MCAA. Since the conference was organised as a hybrid event, authors had the possibility to either present in person or online. The presential panel included posters from all the areas. As for the online panels, some topics were merged into a single panel or spread over two panels for better organisation. The final distribution was the following: Presential Engineering Chemistry & Physics Social Sciences & Humanities Life Sciences Environmental Sustainability, Economics, Sustainable Research Practice Humanities and Arts, Career Development, Sustainable Research Practice Each panel corresponds to a macro-section of this book. Within each macro-section, a poster page includes an abstract, an image of the poster, and information about the author(s) and their organisation(s). Cite as: G. M. Greco, G. Emidio, P. E. Tomatis, A. Avasthi (Eds). (2022). Book of Abstracts: 2022 Poster Sessions. 9th Annual Conference of the Marie Curie Alumni Association, March 25-27, 2022, Lisbon, Portugal. Brussels: Marie Curie Alumni Association. ISBN 978-94-6433-602-3. http://dx.doi.org/10.5281/zenodo.6608826

Published
2022
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4. Longitudinal Evolution of the Pseudomonas-Derived Cephalosporinase (PDC) Structure and Activity in a Cystic Fibrosis Patient Treated with β-Lactams

Author

Colque, Claudia A., primary, albarracín Orio, Andrea G., additional, Tomatis, Pablo E., additional, Dotta, Gina, additional, Moreno, Diego M., additional, Hedemann, Laura G., additional, Hickman, Rachel A., additional, Sommer, Lea M., additional, Feliziani, Sofía, additional, Moyano, Alejandro J., additional, Bonomo, Robert A., additional, K. Johansen, Helle, additional, Molin, Søren, additional, Vila, Alejandro J., additional, and Smania, Andrea M., additional

Published
2022
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Author

Colque, Claudia A., albarracín Orio, Andrea G., Tomatis, Pablo E., Dotta, Gina, Moreno, Diego M., Hedemann, Laura G., Hickman, Rachel A., Sommer, Lea M., Feliziani, Sofía, Moyano, Alejandro J., Bonomo, Robert A., Johansen, Helle K., Molin, Søren, Vila, Alejandro J., Smania, Andrea M., Colque, Claudia A., albarracín Orio, Andrea G., Tomatis, Pablo E., Dotta, Gina, Moreno, Diego M., Hedemann, Laura G., Hickman, Rachel A., Sommer, Lea M., Feliziani, Sofía, Moyano, Alejandro J., Bonomo, Robert A., Johansen, Helle K., Molin, Søren, Vila, Alejandro J., and Smania, Andrea M.

Published
2022

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Author

Colque, Claudia A., albarracín Orio, Andrea G., Tomatis, Pablo E., Dotta, Gina, Moreno, Diego M., Hedemann, Laura G., Hickman, Rachel A., Sommer, Lea M., Feliziani, Sofía, Moyano, Alejandro J., Bonomo, Robert A., Johansen, Helle K., Molin, Søren, Vila, Alejandro J., Smania, Andrea M., Colque, Claudia A., albarracín Orio, Andrea G., Tomatis, Pablo E., Dotta, Gina, Moreno, Diego M., Hedemann, Laura G., Hickman, Rachel A., Sommer, Lea M., Feliziani, Sofía, Moyano, Alejandro J., Bonomo, Robert A., Johansen, Helle K., Molin, Søren, Vila, Alejandro J., and Smania, Andrea M.

Published
2022

9. Development of antibiotic resistance reveals diverse evolutionary pathways to face the complex and dynamic environment of a long-term treated patient

Author

Colque, Claudia A., primary, Tomatis, Pablo E., additional, Albarracín Orio, Andrea G., additional, Dotta, Gina, additional, Moreno, Diego M., additional, Hedemann, Laura G., additional, Hickman, Rachel A., additional, Sommer, Lea M., additional, Feliziani, Sofía, additional, Moyano, Alejandro J., additional, Bonomo, Robert A., additional, Johansen, Helle K., additional, Molin, Søren, additional, Vila, Alejandro J., additional, and Smania, Andrea M., additional

Published
2021
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10. Mimicking natural evolution in metallo-[beta]-lactamases through second-shell ligand mutations

Author

Tomatis, Pablo E., Rasia, Rodolfo M., Segovia, Lorenzo, and Vila, Alejandro J.

Subjects
Enzymes -- Research, Drug resistance in microorganisms -- Research, Science and technology
Abstract

Metallo-[beta]-lactamases (MBLs) represent the latest generation of [beta]-lactamases. The structural diversity and broad substrate profile of MBLs allow them to confer resistance to most [beta]-lactam antibiotics. To explore the evolutionary potential of these enzymes, we have subjected the Bacillus cereus MBL (BcII) to a directed evolution scheme, which resulted in an increased hydrolytic efficiency toward cephalexin. A systematic study of the hydrolytic profile, substrate binding, and active-site features of the evolved lactamase reveal that directed evolution has shaped the active site by means of remote mutations to better hydrolyze cephalosporins with small, uncharged C-3 substituents. One of these mutations is found in related enzymes from pathogenic bacteria and is responsible for the increase in that enzyme's hydrolytic profile. The mutations lowered the activation energy of the rate-limiting step rather than improved the affinity of the enzyme toward these substrates. The following conclusions can be made: (i) MBLs are able to expand their substrate spectrum without sacrificing their inherent hydrolytic capabilities; (ii) directed evolution is able to mimic mutations that occur in nature; (iii) the metal-ligand strength is tuned by second-shell mutations, thereby influencing the catalytic efficiency; and (iv) changes in the position of the second Zn(II) ion in MBLs affect the substrate positioning in the active site. Overall, these results show that the evolution of enzymatic catalysis can take place by remote mutations controlling reactivity. Co(II)-substitution | directed evolution | zinc enzymes | antibiotic resistance

Published
2005

11. Engineered mononuclear variants in Bacillus cereus metallo-[beta]-lactamase BcII are inactive

Author

Abriata, Luciano A., Gonzalez, Lisandro J., Llarrull, Leticia I., Tomatis, Pablo E., Myers, William K., Costello, Alison L., Tierney, David L., and Vila, Alejandro J.

Subjects
Bacillus cereus -- Genetic aspects, Mutation (Biology) -- Analysis, Spectrum analysis -- Usage, Biological sciences, Chemistry
Abstract

Two mutant proteins, 3H-BcII and DCH-BcII, with the metal bound to the 3H and DCH site were constructed to identify and characterize the active mononuclear metallo-[beta]-lactamase (BcII) species from Bacillus cereus. The results from the spectroscopic and kinetic characterization of these two mononuclear enzymes showed that neither site isolated in the M[beta]L scaffold is sufficient to render a fully active B1 M[beta]L.

Published
2008

15. Optimization of Conformational Dynamics in an Epistatic Evolutionary Trajectory.

Author

Gonzá, Mariano M., Abriata, Luciano A., Tomatis, Pablo E., and Vila, Alejandro J.

Abstract

The understanding of protein evolution depends on the ability to relate the impact of mutations on molecular traits to organismal fitness. Biological activity and robustness have been regarded as important features in shaping protein evolutionary landscapes. Conformational dynamics, which is essential for protein function, has received little attention in the context of evolutionary analyses. Here we employ NMR spectroscopy, the chief experimental tool to describe protein dynamics at atomic level in solution at room temperature, to study the intrinsic dynamic features of ametallo-β-lactamase enzyme and three variants identified during a directed evolution experiment that led to an expanded substrate profile. We show that conformational dynamics in the catalytically relevant microsecond to millisecond timescale is optimized along the favored evolutionary trajectory. In addition, we observe that the effects of mutations on dynamics are epistatic. Mutation Gly262Ser introduces slow dynamics on several residues that surround the active site when introduced in the wild-type enzyme. Mutation Asn70Ser removes the slow dynamics observed for few residues of the wild-type enzyme, but increases the number of residues that undergo slow dynamics when introduced in the Gly262Ser mutant. These effects on dynamics correlate with the epistatic interaction between these two mutations on the bacterial phenotype. These findings indicate that conformational dynamics is an evolvable trait, and that proteins endowed with more dynamic active sites also display a larger potential for promoting evolution. [ABSTRACT FROM AUTHOR]

Published
2016
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21. Metallo-?-lactamases withstand low Zn(II) conditions by tuning metal-ligand interactions.

Author

González, Javier M, Meini, María-Rocío, Tomatis, Pablo E, Martín, Francisco J Medrano, Cricco, Julia A, and Vila, Alejandro J

Subjects
BETA lactamases, ZINC, METAL ions, ANTIBIOTICS, CHEMICAL kinetics, ENZYME activation, CHEMICAL affinity, LIGAND binding (Biochemistry)
Abstract

A number of multiresistant bacterial pathogens inactivate antibiotics by producing Zn(II)-dependent ?-lactamases. We show that metal uptake leading to an active dinuclear enzyme in the periplasmic space of Gram-negative bacteria is ensured by a cysteine residue, an unusual metal ligand in oxidizing environments. Kinetic, structural and affinity data show that such Zn(II)-cysteine interaction is an adaptive trait that tunes the metal binding affinity, thus enabling antibiotic resistance at restrictive Zn(II) concentrations. [ABSTRACT FROM AUTHOR]

Published
2012
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22. Biochemical Characterization of Metallo-β-Lactamase VIM-11 from a Pseudomonas aeruginosaClinical Strain

Author

Marchiaro, Patricia, Tomatis, Pablo E., Mussi, María A., Pasteran, Fernando, Viale, Alejandro M., Limansky, Adriana S., and Vila, Alejandro J.

Abstract

ABSTRACTA detailed biochemical characterization of the Pseudomonas aeruginosaVIM-11 metallo-β-lactamase (MβL) is reported. The only substitution differentiating VIM-11 from VIM-2 (N165S) promoted a slightly improved catalytic efficiency of the former on 3 out of 12 substrates, notably the bulky cephalosporins. Thus, MβL-mediated resistance also may be modulated by remote mutations.

Published
2008
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23. Biochemical characterization of metallo-beta-lactamase VIM-11 from a Pseudomonas aeruginosa clinical strain.

Author

Marchiaro P, Tomatis PE, Mussi MA, Pasteran F, Viale AM, Limansky AS, and Vila AJ

Subjects
Binding Sites, Escherichia coli drug effects, Humans, Kinetics, Microbial Sensitivity Tests, Models, Molecular, Plasmids, Pseudomonas Infections microbiology, Pseudomonas aeruginosa isolation & purification, beta-Lactams metabolism, Escherichia coli enzymology, Escherichia coli genetics, Pseudomonas aeruginosa drug effects, Pseudomonas aeruginosa enzymology, beta-Lactam Resistance, beta-Lactamases chemistry, beta-Lactamases genetics, beta-Lactamases metabolism, beta-Lactams pharmacology
Abstract

A detailed biochemical characterization of the Pseudomonas aeruginosa VIM-11 metallo-beta-lactamase (MbetaL) is reported. The only substitution differentiating VIM-11 from VIM-2 (N165S) promoted a slightly improved catalytic efficiency of the former on 3 out of 12 substrates, notably the bulky cephalosporins. Thus, MbetaL-mediated resistance also may be modulated by remote mutations.

Published
2008
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