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1.
World J Microbiol Biotechnol ; 40(1): 36, 2023 Dec 07.
Artículo en Inglés | MEDLINE | ID: mdl-38057648

RESUMEN

Microorganisms can play a significant role in material corrosion, with bacterial biofilms as major participants in microbially influenced corrosion (MIC). The exact mechanisms by which this takes place are poorly understood, resulting in a scarcity of information regarding MIC detection and prevention. In this work, a consortium of moderately thermophilic bacteria isolated from a biofilm growing over aluminum alloy 7075 was characterized. Its effect over the alloy was evaluated on a 40-day period using Electron Microscopy, demonstrating acceleration of corrosion in comparison to the abiotic control. The bacterial consortium was biochemically and microbiologically characterized as an attempt to elucidate factors contributing to corrosion. Molecular analysis revealed that the consortium consisted mainly of members of the Bacillus genus, with lower abundance of other genera such as Thermoanaerobacterium, Anoxybacillus and Paenibacillus. The EPS polysaccharide presented mainly mannose, galactose, rhamnose and ribose. Our observations suggest that the acidification of the culture media resulting from bacterial metabolism acted as the main contributor to corrosion, hinting at an unspecific mechanism. The consortium was not sulfate-reducing, but it was found to produce hydrogen, which could also be a compounding factor for corrosion.


Asunto(s)
Aleaciones , Aluminio , Humanos , Aleaciones/química , Aluminio/química , Aluminio/metabolismo , Aluminio/farmacología , Corrosión , Bacterias/metabolismo , Biopelículas , Acero/química
2.
Biomicrofluidics ; 9(3): 031301, 2015 May.
Artículo en Inglés | MEDLINE | ID: mdl-26045728

RESUMEN

Non-invasive and accurate access of biomarkers remains a holy grail of the biomedical community. Human eccrine sweat is a surprisingly biomarker-rich fluid which is gaining increasing attention. This is especially true in applications of continuous bio-monitoring where other biofluids prove more challenging, if not impossible. However, much confusion on the topic exists as the microfluidics of the eccrine sweat gland has never been comprehensively presented and models of biomarker partitioning into sweat are either underdeveloped and/or highly scattered across literature. Reported here are microfluidic models for eccrine sweat generation and flow which are coupled with review of blood-to-sweat biomarker partition pathways, therefore providing insights such as how biomarker concentration changes with sweat flow rate. Additionally, it is shown that both flow rate and biomarker diffusion determine the effective sampling rate of biomarkers at the skin surface (chronological resolution). The discussion covers a broad class of biomarkers including ions (Na(+), Cl(-), K(+), NH4 (+)), small molecules (ethanol, cortisol, urea, and lactate), and even peptides or small proteins (neuropeptides and cytokines). The models are not meant to be exhaustive for all biomarkers, yet collectively serve as a foundational guide for further development of sweat-based diagnostics and for those beginning exploration of new biomarker opportunities in sweat.

3.
J Hepatol ; 35(6): 781-9, 2001 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-11738106

RESUMEN

BACKGROUND/AIMS: Plasminogen directs matrix proteolysis during liver repair. Based on the role of hepatic stellate cells (HSCs) on matrix production, we investigated whether plasminogen-driven matrix proteolysis modulates the phenotype of HSCs. METHODS: Carbon tetrachloride was injected intraperitoneally into mice deficient in plasminogen, fibrinogen, or both, and to normal littermates, followed by determination of the phenotype of HSCs, matrix deposition, and apoptosis. RESULTS: Activation of HSCs was restricted to the zone of injury and increased >ten-fold above baseline regardless of the plasminogen status 2 days after toxin. Thereafter, the number of activated HSCs decreased to baseline levels between 7 and 14 days in normal mice, but remained elevated in plasminogen-deficient livers approximately ten-fold above non-targeted littermates. Despite the zonal increase in activated HSCs, the total number of desmin-stained HSCs was similar along the lobule in both genotypes. No appreciable difference in apoptosis of perisinusoidal cells was found between genotypes; however, fibrillary material was present in the subsinusoidal space of Plg(0) livers. This fibrillary material was not fibrin, as demonstrated by similar findings in Plg(0)/Fib(0) mice, which accumulated fibronectin in injured areas. CONCLUSIONS: Proteolytic clearance of non-fibrin matrix components by plasminogen must occur for HSCs to restore the quiescent phenotype during liver repair.


Asunto(s)
Matriz Extracelular/metabolismo , Hepatopatías/fisiopatología , Hígado/fisiopatología , Plasminógeno/deficiencia , Animales , Apoptosis/fisiología , Tetracloruro de Carbono , Enfermedad Hepática Inducida por Sustancias y Drogas , Fibrina/metabolismo , Sustancias de Crecimiento/metabolismo , Hígado/patología , Hepatopatías/patología , Ratones , Ratones Noqueados/genética , Péptido Hidrolasas/metabolismo , Fenotipo , Plasminógeno/genética
4.
Proteins ; 44(3): 255-61, 2001 Aug 15.
Artículo en Inglés | MEDLINE | ID: mdl-11455598

RESUMEN

To study the allosteric transition in pig kidney fructose 1,6-bisphosphatase (FBPase), we constructed hybrids in which subunits have either their active or regulatory sites rendered nonfunctional by specific mutations. This was accomplished by the coexpression of the enzyme from a plasmid that contained two slightly different copies of the cDNA. To resolve and purify each of the hybrid enzymes, six aspartic acid codons were added before the termination codon of one of the cDNAs. The addition of these Asp residues to the protein did not alter the kinetic or allosteric properties of the resulting FBPase. Expression of the enzyme from a dual-gene plasmid resulted in the production of a set of five different enzymes (two homotetramers and three hybrid tetramers) that could be purified by a combination of affinity and anion-exchange chromatography because of the differential charge on each of these species. The hybrid with one subunit that only had a functional regulatory site (R) and three subunits that only had a functional active site (A) exhibited biphasic AMP inhibition. Analysis of these data suggest that the binding of AMP to the R subunit is able to globally alter the activity of the other three A subunits. The hybrid composed of two R and two A subunits is completely inhibited at an AMP concentration of approximately 0.5 mM, 100-fold less than the concentration required to fully inhibit the A(4) enzyme. The monophasic nature of this cooperative inhibition suggests that the AMP binding to the two R subunits is sufficient to completely inhibit the enzyme and suggests that the binding of AMP to only two of the four subunits of the enzyme induces the global allosteric transition from the R to the T state.


Asunto(s)
Adenosina Monofosfato/química , Fructosa-Bifosfatasa/química , Riñón/enzimología , Regulación Alostérica , Animales , Ácido Aspártico , Sitios de Unión , Fructosa-Bifosfatasa/genética , Cinética , Mutagénesis Sitio-Dirigida , Proteínas Recombinantes de Fusión/química , Porcinos
5.
Biochim Biophys Acta ; 1548(1): 66-71, 2001 Jul 09.
Artículo en Inglés | MEDLINE | ID: mdl-11451439

RESUMEN

Lys-112 and Tyr-113 in pig kidney fructose-1,6-bisphosphatase (FBPase) make direct interactions with AMP in the allosteric binding site. Both residues interact with the phosphate moiety of AMP while Tyr-113 also interacts with the 3'-hydroxyl of the ribose ring. The role of these two residues in AMP binding and allosteric inhibition was investigated. Site-specific mutagenesis was used to convert Lys-112 to glutamine (K112Q) and Tyr-113 to phenylalanine (Y113F). These amino acid substitutions result in small alterations in k(cat) and increases in K(m). However, both the K112Q and Y113F enzymes show alterations in Mg(2+) affinity and dramatic reductions in AMP affinity. For both mutant enzymes, the AMP concentration required to reduced the enzyme activity by one-half, [AMP](0.5), was increased more than a 1000-fold as compared to the wild-type enzyme. The K112Q enzyme also showed a 10-fold reduction in affinity for Mg(2+). Although the allosteric site is approximately 28 A from the metal binding sites, which comprise part of the active site, these site-specific mutations in the AMP site influence metal binding and suggest a direct connection between the allosteric and the active sites.


Asunto(s)
Adenosina Monofosfato/farmacología , Fructosa-Bifosfatasa/antagonistas & inhibidores , Riñón/efectos de los fármacos , Adenosina Monofosfato/química , Sitio Alostérico , Animales , Sitios de Unión , Cationes Bivalentes , Fructosa-Bifosfatasa/química , Fructosa-Bifosfatasa/genética , Riñón/enzimología , Cinética , Magnesio/química , Modelos Moleculares , Mutagénesis Sitio-Dirigida , Mutación , Unión Proteica , Porcinos
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