Person: Gutiérrez Fernández, Juan Carlos
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First Name
Juan Carlos
Last Name
Gutiérrez Fernández
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Ciencias Biológicas
Department
Genética, Fisiología y Microbiología
Area
Microbiología
Identifiers
3 results
Search Results
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Item Structural and Functional Diversity of Microbial Metallothionein Genes(Microbial Diversity in the Genomic Era, 2018) Gutiérrez Fernández, Juan Carlos; Francisco Martínez, Patricia de; Amaro Torres, Francisco; Díaz, Silvia; Martín González, Ana María; Das, Surajit; Dash, Hirak RanjanIn the present review, we discussed the concept of metallothionein (MT) and analyzed the structural and functional diversity of microbial MTs, grouping them into three main groups; bacteria, fungi, and protists. Structural diversity is analyzed based on the primary, secondary, and/or tertiary structure of the proteins. Their ability to bind different metals is also analyzed in each microbial group. An in silico and phylogenetic analysis of MT sequences from the main microbial groups has been carried out. The wide functional diversity of these proteins and the regulation of the MT gene expression are also discussed. The presence of several paralog genes in many microorganisms provides a coordinated and multiple response against different types of environmental stressors. Likewise, the main possible biotechnological applications of these proteins are explored, such as molecular tools to design biosensors for evaluating metal contamination and in metal bioremediation.Item Quantitative proteomic analyses of a Pb-adapted Tetrahymena thermophila strain reveal the cellular strategy to Pb(II) stress including lead biomineralization to chloropyromorphite(Science of the Total Environment, 2023) De Francisco Martínez, Patricia; Amaro Torres, Francisco; Martín González, Ana María; Aurelio Serrano; Gutiérrez Fernández, Juan CarlosA strain of the protozoan ciliate Tetrahymena thermophila adapted to increasing Pb(II) concentrations over two years has shown that one of the resistance mechanisms to this extreme metal stress is the lead biomineralization to chloropyromorphite, one of the most stable minerals in the earth's crust. Several techniques such as microanalysis coupled to transmission and scanning electron microscopy (X-Ray Energy Disperse Spectroscopy), fluorescence microscopy and X-ray power diffraction analysis have revealed the presence of chloropyromorphite as crystalline aggregates of nano-globular structure, together with the presence of other secondary lead minerals. This is the first time that the existence of this type of biomineralization in a ciliate protozoan is described. The Pb(II) bioremediation capacity of this strain has shown that it can remove >90 % of the toxic soluble lead from the medium. A quantitative proteomic analysis of this strain has revealed the main molecular-physiological elements involved in adaptation to Pb(II) stress: increased activity of proteolytic systems against lead proteotoxicity, occurrence of metallothioneins to immobilize Pb(II) ions, antioxidant enzymes to mitigate oxidative stress, and an intense vesicular trafficking presumably involved in the formation of vacuoles where pyromorphite accumulates and is subsequently excreted, together with an enhanced energy metabolism. As a conclusion, all these results have been compiled into an integrated model that could explain the eukaryotic cellular response to extreme lead stress.Item AP-1 (bZIP) Transcription Factors as Potential Regulators of Metallothionein Gene Expression in Tetrahymena thermophila(Frontiers in Genetics, 2018) Francisco Martínez, Patricia de; Amaro Torres, Francisco; Martín González, Ana María; Gutiérrez Fernández, Juan CarlosMetallothioneins (MT) are multi-stress proteins mainly involved in metal detoxification. MT gene expression is normally induced by a broad variety of stimulus and its gene expression regulation mainly occurs at a transcriptional level. Conserved motifs in the Tetrahymena thermophila MT promoters have been described. These motifs show a consensus sequence very similar to AP-1 sites, and bZIP type transcription factors might participate in the MT gene expression regulation. In this research work, we characterize four AP-1 transcription factors in each of four different analyzed Tetrahymena species, detecting a high conservation among them. Each AP-1 molecule has its counterpart in the other three Tetrahymena species. A comparative qRT-PCR analysis of these AP-1 genes have been carried out in different T. thermophila strains (including metal-adapted, knockout and/or knockdown strains among others), and under different metal-stress conditions (1 or 24 h Cd2+, Cu2+, or Pb2+ treatments). The possible interaction of these transcription factors with the conserved AP-1 motifs present in MT promoters has been corroborated by protein-DNA interaction experiments. Certain connection between the expression patterns of the bZIP and MT genes seems to exist. For the first time, and based on our findings, a possible gene expression regulation model including both AP-1 transcription factors and MT genes from the ciliate T. thermophila has been elaborated.