M. Moreno scite author profile

This article reviews the microscopic origin of properties due to transition-metal (TM) impurities, M, in insulator materials. Particular attention is paid to the influence of pressure upon impurity properties. Basic concepts such as the electronic localization in an MX(N) complex, the electrostatic potential, V(R), arising from the rest of the lattice ions or the elastic coupling of the complex to the host lattice are initially exposed. The dependence of optical and magnetic parameters on the impurity-ligand distance, R, in cubic lattices is discussed in a first step. Emphasis is put on the actual origin of the R dependence of 10Dq. Examples revealing that laws for strict cubic symmetry cannot in general be transferred to lower symmetries are later given. This relevant fact is shown to come from allowed hybridizations like nd-(n+1)s as well as the influence of V(R). As a salient feature the different colour in ruby and emerald is stressed to arise from distinct V(R) potentials in Al(2)O(3) and Be(3)Si(6)Al(2)O(18). The last part of this review deals with electronic instabilities. The phenomena associated with the Jahn-Teller (JT) effect in cubic lattices, the origin of the energy barrier among equivalent minima and the existence of coherent tunnelling in systems like MgO:Cu(2+) are discussed. An increase of elastic coupling is pointed out to favour a transition from an elongated to a compressed equilibrium conformation. Interestingly the equilibrium geometry of JT ions in non-cubic lattices is shown to be controlled by mechanisms different to those in cubic systems, V(R) playing again a key role. The relevance of first principles calculations for clarifying the subtle mechanisms behind off-centre instabilities is also pointed out. Examples concern monovalent and divalent TM impurities in lattices with the CaF(2) structure. The instability due to the transition from the ground to an excited state is finally considered. For complexes with significant elastic coupling vibrational frequencies and the Stokes shift are expected to undergo bigger changes through a chemical rather than a hydrostatic pressure. The reduction of Huang-Rhys factors upon increasing the pressure is discussed as well.

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Molecular characterization of the phenylacetic acid catabolic pathway in Pseudomonas putida U: The phenylacetyl-CoA catabolon

Olivera

Miñambres

García

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

202

227

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Fourteen different genes included in a DNA fragment of 18 kb are involved in the aerobic degradation of phenylacetic acid by Pseudomonas putida U. This catabolic pathway appears to be organized in three contiguous operons that contain the following functional units: (i) a transport system, (ii) a phenylacetic acid activating enzyme, (iii) a ring-hydroxylation complex, (iv) a ring-opening protein, (v) a ␤-oxidation-like system, and (vi) two regulatory genes. This pathway constitutes the common part (core) of a complex functional unit (catabolon) integrated by several routes that catalyze the transformation of structurally related molecules into a common intermediate (phenylacetyl-CoA).

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The regulation of zinc homeostasis by the ZafA transcriptional activator is essential for Aspergillus fumigatus virulence

Moreno

Ibrahim-Granet

Vicentefranqueira

et al. 2007

Molecular Microbiology

118

133

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SummaryWe have previously shown that Aspergillus fumigatus is able to grow in zinc-limiting media and that this ability is regulated at transcriptional level by both the availability of zinc and pH. When A. fumigatus grows as a pathogen, it must necessarily obtain zinc from the zinc-limiting environment provided by host tissue. Accordingly, the regulation of zinc homeostasis by some zinc-responsive transcriptional regulator in A. fumigatus must be essential for fungal growth within tissues of an immunocompromised host and, in turn, for pathogenicity. Here we provide evidence of the role of the zafA gene in regulating zinc homeostasis and its relevance in the virulence of A. fumigatus. Thus, we observed that (i) zafA can functionally replace the ZAP1 gene from Saccharomyces cerevisiae that encodes the zinc-responsive transcriptional activator Zap1 protein; (ii) the expression of zafA itself is induced in zinc-limiting media and repressed by zinc; (iii) deletion of zafA impairs the germination and growth capacity of A. fumigatus in zinc-limiting media; and (iv) the deletion of zafA abrogates A. fumigatus virulence in a murine model of invasive aspergillosis. In light of these observations, we concluded that ZafA is a zinc-responsive transcriptional activator that represents an essential attribute for A. fumigatus pathogenicity. Consequently, ZafA may constitute a new target for the development of chemotherapeutic agents against Aspergillus, because no zafA orthologues have been found in mammals.

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M. Moreno

Microscopic insight into properties and electronic instabilities of impurities in cubic and lower symmetry insulators: the influence of pressure

Molecular characterization of the phenylacetic acid catabolic pathway in Pseudomonas putida U: The phenylacetyl-CoA catabolon

The regulation of zinc homeostasis by the ZafA transcriptional activator is essential for Aspergillus fumigatus virulence

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