Search results for "Bioinorganic Chemistry"
showing 10 items of 30 documents
Bioinorganic Chemistry Chapter 1
2018
Tema 1 de la part de Bioinorgànica de l'assignatura Química Inorgànica Avançada Chapter 1 of the Bioinorganic part of the course on Advanced Inorganic Chemistry
Bioinorganic Chemistry Chapter 2
2018
Tema 2 de la part de Bioinorgànica de l'assignatura Química Inorgànica Avançada Chapter 2 of the Bioinorganic part of the subject Advanced Inorganic Chemistry
Pneumococcal HxxHxH triad – Copper(II) interactions – How important is the ‘x’?
2019
Abstract PhtA, a Streptococcus pneumoniae polyhistidine triad protein, which contributes to virulence by interacting with components of the immune system, by being involved in adherence of bacteria and in Zn(II) uptake, contains five copies of the HxxHxH sequence. Since this motif is also present in numerous Cu(II) binding proteins, we decided to focus on the bioinorganic chemistry of copper(II) with three of such PhtA repeats, in order to understand which of the PhtA triads binds Cu(II) with the highest affinity and explain if Cu(II) would be able to outcompete Zn(II) from its native binding site under physiological metal concentrations.
Optical sensing of cyanide using hybrid biomolecular films
2006
The selective sensing of cyanide anions in water has been studied using a hybrid biomaterial composed of a mesoporous TiO2 film of crystalline nanoparticles and the protein hemoglobin. The mesoporous structure of the film prevents protein unfolding and also stabilizes the oxidized form of the prosthetic groups. Low-levels of cyanide anions (<0.2 ppm (0.2 mgr/L)) can be detected by monitoring the changes in the optical properties of the hybrid biomolecular films upon cyanide binding to the heme groups.
Improvement of the nitrogen uptake induced by titanium (iv) leaf supply in nitrogen‐stressed pepper seedlings
1996
Abstract The beneficial effect of titanium (Ti) on plant metabolism can result in more profitable use of fertilizer applied to a crop. A crop chamber experiment with paprika pepper (Capsicum annuum L., cv. Bunejo) seedlings under differential nitrogen (N) concentration levels in a nutrient solution (100% N, 75% N, 50% N, and 25% N) was performed. A third of the seedlings growing under each N support level remained Ti‐untreated and were used as the reference. Another third of the seedling received one and two 0.042 mM Ti(TV) ascorbate, pH 6.0, leaf spray treatments, respectively. The biomass production of the Ti‐untreated plants was only affected by the N supply of 50% or less. The Ti(IV) le…
A Co2O2 metallacycle exclusively supported by l-valine
2008
Abstract [Co2(OH)2( l -valine)4]·2.5H2O has been prepared under hydrothermal conditions and constitutes the first example of a [Co2O2] core supported exclusively by aminoacids. This synthetic dimetallic model for redox active metalloenzymes is one of the few binary aminoacid compounds of biologically relevant metal ions that has been structurally characterized, showing the possibilities of this synthetic approach for preparation of models in bioinorganic chemistry.
Solid Phases as Protective Environments for Biomimetic Catalysts
2014
Comparison of the interaction of cobalt bovine carbonic anhydrase II with acetazolamide and methazolamide and the reaction of apoenzyme with cobalt(I…
2003
The metalloenzyme carbonic anhydrase (CA) is an attractive choice for a research-based bioinorganic laboratory course. In this project the interaction of cobalt bovine carbonic anhydrase II (CoBCAII) with acetazolamide and methazolamide and the reaction of apoenzyme with cobalt(II) complexes of acetazolamide and methazolamide is studied by UV-visible spectroscopy. Prior to this spectroscopic study students are given native BCAII, and they prepare apoBCAII and CoBCAII. A major aim is to provide experience in handling metalloproteins and in the study of metal complexes-protein interactions.
Pneumococcal histidine triads – involved not only in Zn2+, but also Ni2+ binding?
2018
Polyhistidine triad proteins, which participate in Zn2+ uptake in Streptococcus pneumoniae, contain multiple copies of the HxxHxH (histidine triad motif) sequence. We focus on three such motifs from one of the most common and well-conserved polyhistidine triad proteins, PhtA, in order to understand their bioinorganic chemistry; particular focus is given to (i) understanding which of the PhtA triads binds Zn2+ with the highest affinity (and why) and (ii) explaining whether Ni2+ (also crucial for bacterial survival and virulence) could potentially outcompete Zn2+ at its native binding site. There is no significant difference in the stability of zinc(II) complexes with the three studied protei…
CH vs. HC—Promiscuous Metal Sponges in Antimicrobial Peptides and Metallophores
2023
Histidine and cysteine residues, with their imidazole and thiol moieties that deprotonate at approximately physiological pH values, are primary binding sites for Zn(II), Ni(II) and Fe(II) ions and are thus ubiquitous both in peptidic metallophores and in antimicrobial peptides that may use nutritional immunity as a way to limit pathogenicity during infection. We focus on metal complex solution equilibria of model sequences encompassing Cys–His and His–Cys motifs, showing that the position of histidine and cysteine residues in the sequence has a crucial impact on its coordination properties. CH and HC motifs occur as many as 411 times in the antimicrobial peptide database, while …