Cánovas Díaz, Manuel

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Cánovas Díaz, Manuel

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Cánovas Díaz, Manuel

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Universidad de Murcia. Departamento de Bioquímica y Biología Molecular"B" e Inmunología

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Open Access
The protein acetyltransferase PatZ from Escherichia coli is regulated by autoacetylation-induced oligomerization
(2015) Castaño Cerezo, Sara; Bernal Sanchez, Vicente; Manjón Rubio, Antonio; Fernández Espín, Vanesa; García de la Torre, José; Cánovas Díaz, Manuel; Diego Puente, Teresa de; Gallego Jara, Julia; Bioquímica y Biología Molecular B e Inmunología
Background: PatZ is the main Escherichia coli acetyltransferase and control acetyl-CoA synthetase (Acs) activity. Results: The kinetic and structural PatZ oligomer characteristics were determined. Conclusion: PatZ is a stable tetramer and forms an active octamer by autoacetylation to increase its stability. Significance: PTMs by acetylation have structural and functional roles in the cell.
Open Access
Relationship between lung function and exhaled volatile organic compounds in healthy infants
(Wiley-Blackwell, 2022-01-29) Sola‐Martínez, Rosa A.; Sánchez-Solís de Querol, Manuel; Lozano Terol, Gema; Gallego Jara, Julia; García-Marcos Álvarez, Luis Vicente; Cánovas Díaz, Manuel; Diego Puente, Teresa de; NELA Study Group; Cirugía, Pediatría y Obstetricia y Ginecología; Facultad de Medicina
Objective: The aim of this study is to assess, for the first time, the relationship between the volatilome and lung function in healthy infants, which may be of help for the early detection of certain respiratory diseases. Lung function tests are crucial in chronic respiratory diseases diagnosis. Moreover, volatile organic compounds (VOCs) analysis in exhaled breath is a noninvasive technique that enables the monitorization of oxidative stress, typical of some forms of airway inflammation. Methods: Lung function was studied in 50 healthy infants of 3–8 months of age and the following parameters were obtained: forced vital capacity (FVC), forced ex piratory volume at 0.5 s (FEV0.5), forced expiratory flow at 75% of FVC (FEF75), forced expiratory flow at 25%–75% of FVC (FEF25–75), and FEV0.5/FVC. Lung function was measured according to the raised volume rapid thoracoabdominal compression technique. In addition, a targeted analysis of six endogenous VOCs (acetone, isoprene, decane, undecane, tetradecane, and pentadecane) in the exhaled breath of the children was carried out by means of thermal desorption coupled gas chromatography‐single quadrupole mass spectrometry system. Results: A negatively significant relationship has been observed between levels of acetone, tetradecane, and pentadecane in exhaled breath and several of the lung function parameters. Levels of acetone (feature m/z = 58) were significantly nega tively associated with FVC and FVE0.5, levels of tetradecane (feature m/z = 71) with FEV0.5, and levels of pentadecane (feature m/z = 71) with FEV0.5 and FEF25–75. Conclusion: The findings of this study highlight a significant association between VOCs related to oxidative stress and lung function in healthy infants.
Open Access
Bacterial sirtuins overview: an open niche to explore
(Frontiers, 2021-10-26) Lozano Terol, Gema; Cánovas Díaz, Manuel; Diego Puente, Teresa de; Gallego Jara, Julia; Ortega Retuerta, Álvaro; Sola Martínez, Rosa Alba; Bioquímica y Biología Molecular B e Inmunología
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Engineering of microbial cell factories for production of plant-based natural products
(Elsevier, 2021) Gallego Jara, Julia; Lozano Terol, Gema; Sola Martínez, Rosa Alba; Cánovas Díaz, Manuel; Diego Puente, Teresa de; Bioquímica y Biología Molecular B e Inmunología; Facultades de la UMU::Facultad de Medicina
Biotechnology has become a promising alternative to produce highly valuable products. Production using microorganisms competes with chemical synthesis and extraction from natural sources, leading to cheaper and more sustainable production. To produce natural plant products using microorganisms, the development of molecular biology techniques that allow us to genetically and metabolically modify host microorganisms is essential. Thus many biotechnological processes have been developed to obtain terpenes, alkaloids, or polyphenols with interesting applications in the pharmaceutical, food, or cosmetic industries. The increase in our knowledge regarding the metabolism of host organisms, together with the continuous development of genetic and metabolic engineering techniques, will allow, in the coming years, biotechnology to be positioned as the main way to obtain high-value plant natural products.
Open Access
Data preprocessing workflow for exhaled breath analysis by GC/MS using open sources
(2020) Pastor Hernández, José María; Lozano-Terol, Gema; García-Marcos Álvarez, Luis Vicente; Cánovas Díaz, Manuel; Diego Puente, Teresa de; Gallego Jara, Julia; Sola Martínez, Rosa Alba; Bioquímica y Biología Molecular B e Inmunología
The noninvasive diagnosis and monitoring of high prevalence diseases such as cardiovascular diseases, cancers and chronic respiratory diseases are currently priority objectives in the area of health. In this regard, the analysis of volatile organic compounds (VOCs) has been identified as a potential noninvasive tool for the diagnosis and surveillance of several diseases. Despite the advantages of this strategy, it is not yet a routine clinical tool. The lack of reproducible protocols for each step of the biomarker discovery phase is an obstacle of the current state. Specifically, this issue is present at the data preprocessing step. Thus, an open source workflow for preprocessing the data obtained by the analysis of exhaled breath samples using gas chromatography coupled with single quadrupole mass spectrometry (GC/MS) is presented in this paper. This workflow is based on the connection of two approaches to transform raw data into a useful matrix for statistical analysis. Moreover, this workflow includes matching compounds from breath samples with a spectral library. Three free packages (xcms, cliqueMS and eRah) written in the language R are used for this purpose. Furthermore, this paper presents a suitable protocol for exhaled breath sample collection from infants under 2 years of age for GC/MS.
Open Access
Comunicaciones Orales.- Structural analysis with DSC and Fluorescence in different mutants in lysine 101 of Catabolite Regulator Protein from Escherichia coli.
(2020-05-05) Écija Conesa, Ana; Arturo, Manjón Rubio; Cánovas Díaz, Manuel; Diego Puente, Teresa de; Gallego Jara, Julia; Facultades, Departamentos, Servicios y Escuelas::Departamentos de la UMU::Bioquímica y Biología Molecular B e Inmunología
Open Access
Regulation of the pyrimidine biosynthetic pathway by lysine acetylation of E. coli OPRTase
(2022-08-22) Lozano Terol, G.; Cánovas Díaz, Manuel; Diego Puente, Teresa de; Gallego Jara, Julia; Martínez Vivancos, Adrián; Ortega Retuerta, Álvaro; Sola Martínez, Rosa Alba; Bioquímica y Biología Molecular B e Inmunología
Metadata only
Reactor anaerobio de alta velocidad para el tratamiento de aguas residuales / Manuel Cánovas Díaz ; Jose Luis Iborra Pastor, Antonio Bódalo Santoyo.
(Murcia : Universidad, Facultad de Ciencias (Químicas y Matemáticas., 2013-05-10) Cánovas Díaz, Manuel
Open Access
Bacterial sirtuins overview: an open niche to explore
(Frontiers Media, 2021-10-26) Lozano Terol, Gema; Cánovas Díaz, Manuel; Diego Puente, Teresa de; Gallego Jara, Julia; Ortega Retuerta, Álvaro; Sola Martínez, Rosa Alba; Bioquímica y Biología Molecular B e Inmunología
Sirtuins are deacetylase enzymes widely distributed in all domains of life. Although for decades they have been related only to histones deacetylation in eukaryotic organisms, today they are considered global regulators in both prokaryotes and eukaryotes. Despite the important role of sirtuins in humans, the knowledge about bacterial sirtuins is still limited. Several proteomics studies have shown that bacterial sirtuins deacetylate a large number of lysines in vivo, although the effect that this deacetylation causes in most of them remains unknown. To date, only the regulation of a few bacterial sirtuin substrates has been characterized, being their metabolic roles widely distributed: carbon and nitrogen metabolism, DNA transcription, protein translation, or virulence. One of the most current topics on acetylation and deacetylation focuses on studying stoichiometry using quantitative LC-MS/MS. The results suggest that prokaryotic sirtuins deacetylate at low stoichiometry sites, although more studies are needed to know if it is a common characteristic of bacterial sirtuins and its biological significance. Unlike eukaryotic organisms, bacteria usually have one or few sirtuins, which have been reported to have closer common ancestors with the human Sirt5 than with any other class. In this work, in addition to carrying out an in-depth review of the role of bacterial sirtuins in their physiology, a phylogenetic study has been performed that reveals the evolutionary differences between sirtuins of different bacterial species and even between homologous sirtuins.
Open Access
Engineering protein production by rationally choosing a carbon and nitrogen source using E. coli BL21 acetate metabolism knockout strains.
(Springer Nature, 2019-09-04) Lozano Terol, Gema; Cánovas Díaz, Manuel; Diego Puente, Teresa de; Gallego Jara, Julia; Sola Martínez, Rosa Alba; Bioquímica y Biología Molecular B e Inmunología
Background: Escherichia coli (E. coli) is a bacteria that is widely employed in many industries for the production of high interest bio-products such as recombinant proteins. Nevertheless, the use of E. coli for recombinant protein production may entail some disadvantages such as acetate overfow. Acetate is accumulated under some culture conditions, involves a decrease in biomass and recombinant protein production, and its metabolism is related to protein lysine acetylation. Thereby, the carbon and nitrogen sources employed are relevant factors in cell host metabolism, and the study of the central metabolism of E. coli and its regulation is essential for optimizing the production of biomass and recombinant proteins. In this study, our aim was to fnd the most favourable conditions for carrying out recombinant protein production in E. coli BL21 using two diferent approaches, namely, manipulation of the culture media composition and the deletion of genes involved in acetate metabolism and Nε-lysine acetylation. Results: We evaluated protein overexpression in E. coli BL21 wt and fve mutant strains involved in acetate metabolism (Δacs, ΔackA and Δpta) and lysine acetylation (ΔpatZ and ΔcobB) grown in minimal medium M9 (inorganic ammonium nitrogen source) and in complex TB7 medium (peptide-based nitrogen source) supplemented with glucose (PTS carbon source) or glycerol (non-PTS carbon source). We observed a dependence of recombinant protein production on acetate metabolism and the carbon and nitrogen source employed. The use of complex medium supplemented with glycerol as a carbon source entails an increase in protein production and an efcient use of resources, since is a sub-product of biodiesel synthesis. Furthermore, the deletion of the ackA gene results in a fvefold increase in protein production with respect to the wt strain and a reduction in acetate accumulation. Conclusion: The results showed that the use of diverse carbon and nitrogen sources and acetate metabolism knockout strains can redirect E. coli carbon fuxes to diferent pathways and afect the fnal yield of the recombinant protein bioprocess. Thereby, we obtained a fvefold increase in protein production and an efcient use of the resources employing the most suitable strain and culture conditions.