RNA transcript response by an Acidithiobacillus spp. mixed culture reveals adaptations to growth on arsenopyrite.

Biooxidation of gold-bearing refractory mineral ores such as arsenopyrite (FeAsS) in stirred tanks produces solutions containing highly toxic arsenic concentrations. In this study, ferrous iron and inorganic sulfur-oxidizing Acidithiobacillus strain IBUN Ppt12 most similar to Acidithiobacillus ferrianus and inorganic sulfur compound oxidizing Acidithiobacillus sp. IBUNS3 were grown in co-culture during biooxidation of refractory FeAsS. Total RNA was extracted and sequenced from the planktonic cells to reveal genes with different transcript counts involved in the response to FeAsS containing medium. The co-culture's response to arsenic release during biooxidation included the ars operon genes that were independently regulated according to the arsenopyrite concentration. Additionally, increased mRNA transcript counts were identified for transmembrane ion transport proteins, stress response mechanisms, accumulation of inorganic polyphosphates, urea catabolic processes, and tryptophan biosynthesis. Acidithiobacillus spp. RNA transcripts also included those encoding the Rus and PetI proteins involved in ferrous iron oxidation and gene clusters annotated as encoding inorganic sulfur compound metabolism enzymes. Finally, mRNA counts of genes related to DNA methylation, management of oxidative stress, chemotaxis, and motility during biooxidation were decreased compared to cells growing without mineral. The results provide insights into the adaptation of Acidithiobacillus spp. to growth during biooxidation of arsenic-bearing sulfides.

Use of Nasoil® via intranasal to control the harmful effects of Covid-19.

In the absence of vaccines and antiviral drugs available to prevent and treat COVID-19, it becomes imperative to find or use all those products with the potential to fight this virus. This article is an attempt to propose ways to prevent, treat and control the COVID-19 virus, using a product based on plant extracts with the potential to reduce the symptoms caused by the SARS-CoV-2 virus. Nasoil® counts as one of its main components, Asclepias curassavica extracts, and in the present study it has been shown that it is an effective adjuvant in the treatment of Covid-19, increasing the respiratory capacity of the patients (SpO2> 90%) and reducing the symptoms from the first application, improving the patients around the fifth to the eighth application. At a preventive level, the individuals in this study who have applied it (400 individuals) only a 3.15% of these presented symptoms, disappearing when increasing the weekly applications.

Computational analysis of 1,3-propanediol operon transcriptional regulators: insights into Clostridium sp. glycerol metabolism regulation / Análisis computacional de los reguladores transcripcionales del operón 1,3-propanodiol: indicios sobre la regulación del metabolismo del glicerol en Clostridium sp / Análise computacional dos reguladores transcricionais do operon do 1,3-Propanodiol: Panorama da regulacáo do metabolismo do glicerol no Clostridium sp

We designed a strategy for the sequencing and bioinformatical characterization of the 1,3-propanediol operon regulator genes from the Colombian Clostridium sp. strain IBUN13A, which is taxonomically related to Clostridium butyricum. Three genes are proposed to be involved in the operon's transcriptional activity, the dhaS and dhaA genes through a two-component system and the third gene named dhaY, which encodes a putative transcriptional regulator similar to the domains of the dhaS/A system. Phylogenetic analyses indicated that the predicted proteins had a modular structure consisting of domains homologous to different signal transduction systems, but had significant differences concerning their conserved residues, pointing to the possibility that they constitute ancestral domains. In accordance with the prediction of functions, we propose a mechanism of regulation of the proteins studied of the 1,3-propanediol operon of the native strain, as a response to the presence of glycerol in the medium, which provides valuable information on the overall regulation of the glycerol metabolism in Clostridium sp.

Se diseñó una estrategia de amplificación, secuenciación y caracterización bioinformática de los genes reguladores del operón 1,3-propanediol (1,3-PD) de la cepa nativa colombiana Clostridium sp. IBUN 13A, relacionada taxonómicamente con Clostridium butyricum. Se identificaron tres genes que pueden estar involucrados en la regulación transcripcional de dicho operón: los genes dhaS y dhaA -a través de un sistema de transducción de señales de dos componentes-y un tercer gen que se denominó dhaY, que codifica para un regulador transcripcional putativo, similar a los dominios presentes en las proteínas del sistema DhaS/A. Los análisis filogenéticos indican que las proteínas predichas presentan una estructura modular con dominios homólogos a diferentes sistemas de transducción de señales, pero muestran diferencias importantes en los residuos conservados, lo que sugiere que podrían ser estos los dominios ancestrales. La predicción de funciones postula un mecanismo de regulación de las proteínas estudiadas sobre el promotor del operón 1,3-PD de la cepa nativa como respuesta a la presencia de glicerol en el medio, lo cual aporta información importante sobre la regulación global del metabolismo del glicerol en Clostridium sp.

Nesta pesquisa foi feita uma estratégia para a amplificacäo, sequenciamento e caracterizacäo bioinformática dos genes reguladores do operon 1,3 propanodiol (1,3-PD) da cepa colombiana Clostridium sp. IBUN 13A, relacionada taxonomicamente com o Clostridium butyricum. Tèm sido identificados tres genes que podem estar envolvidos na regulacáo transcricional do operon. Os genes dhaS e dhaA por meio de um sistema de dois componentes e o terceiro gene nomeado de dhaY, que codifica para um regulador transcridonal putativo, parecido com os dominios presentes nas proteínas do sistema DhaS/A. A análise filogenètica mostra que estas proteínas apresentam uma estrutura modular com dominios homólogos a diferentes sistemas de traducáo de sinais, mas pressupöem diferencas importantes nos residuos conservados, indicando provavelmente que possam constituir os dominios ancestrais. De acordo com a predicáo de funcöes, é postulado um mecanismo de regulacáo do sistema DhaS/A, DhaY sobre o promotor do operon 1,3-DP da cepa nativa, como resposta à presenca de glicerol no meio, aportando informacöes importantes da regulacáo global do metabolismo do glicerol no Clostridium sp.