Role of Pv-aCO2 gradient and Pv-aCO2/Ca-vO2 ratio during cardiac surgery: a retrospective observational study

Abstract Introduction: Arterial lactate, mixed venous O2 saturation, venous minus arterial CO2 partial pressure (Pv-aCO2) and the ratio between this gradient and the arterial minus venous oxygen content (Pv-aCO2/Ca-vO2) were proposed as markers of tissue hypoperfusion and oxygenation. The main goals were to characterize the determinants of Pv-aCO2 and Pv-aCO2/Ca-vO2, and the interchangeability of the variables calculated from mixed and central venous samples. Methods: 35 cardiac surgery patients were included. Variables were measured or calculated: after anesthesia induction (T1), end of surgery (T2), and at 6-8 hours intervals after ICU admission (T3 and T4). Results: Macrohemodynamics was characterized by increased cardiac index and low systemic vascular resistances after surgery (p < 0.05). Hemoglobin, arterial-pH, lactate, and systemic O2 metabolism showed significant changes during the study (p < 0.05). Pv-aCO2 remained high and without changes, Pv-aCO2/Ca-vO2 was also high and decreased at T4 (p < 0.05). A significant correlation was observed globally and at each time interval, between Pv-aCO2 or Pv-aCO2/Ca-vO2 with factors that may affect the CO2 hemoglobin dissociation. A multilevel linear regression model with Pv-aCO2 and Pv-aCO2/Ca-vO2 as outcome variables showed a significant association for Pv-aCO2 with SvO2, and BE (p < 0.05), while Pv-aCO2/Ca-vO2 was significantly associated with Hb, SvO2, and BE (p < 0.05) but not with cardiac output. Measurements and calculations from mixed and central venous blood were not interchangeable. Conclusions: Pv-aCO2 and Pv-aCO2/Ca-vO2 could be influenced by different factors that affect the CO2 dissociation curve, these variables should be considered with caution in cardiac surgery patients. Finally, central venous and mixed values were not interchangeable.

Hiperwarburgismo: la "hipoglucemia feliz" de los pacientes oncológicos: Revisión narrativa / Hyperwarburgism: the "Happy hypoglycemia" of cancer patients: Case report and review of literature

Introducción: La glucosa es el combustible energético cerebral, esta relación es establecida de manera integral en la inmensa mayoría de revisiones, debido al ávido consumo -y casi exclusivo - glucósico por parte del tejido neuronal. En esta esfera, la hipoglucemia se traduce por defecto en un conjunto de síntomas neurológicos, resultado del estado neuroglucopénico. Cuando la caída de estos niveles glicémicos es pronunciada desencadena alteraciones del estado sensorial, pudiendo llegar al coma con daños irreversibles de sostenerse en el tiempo. Propósito de la revisión: El objetivo de la revisión es presentar un caso de hipoglucemia severa sin sintomatología neuroglucopénica. Recientes hallazgos: Al ausencia de sintomatología neurológica se da debido al consumo del lactato ­ tradicionalmente producto anaerobiótico ­ como una vía metabólica energética alternativa al consumo de glucosa. La hipoglucemia puede ser compensada a nivel neurológico con sistemas lanzadores de lactato en el tejido neuronal, este puede sustituir a la glucosa como sustrato energético del cerebro. Conclusiones: La hipoglicemia sin síntomas adrenérgicos o neuroglucopénicos es un tema vinculado a pacientes oncológicos, y propone al lactato como combustible del tejido nervioso adicional a la glucosa. Por otra parte, la asociación lactato = hipoperfusión, es otra entidad que debe ser revisada y reanalizada por todo lo que implica el lactato dentro de la vía fisiopatológica metabólica corporal.

Introduction: Glucose is the cerebral energy fuel; this relationship is fully established in most re-views due to neuronal tissue's avid and almost exclusive glucose consumption. In this sphere, hypoglycemia is translated by default into a set of neurological symptoms resulting from the neuroglycopenic state. When the drop in these glycemic levels is pronounced, it triggers alterations in the sensory state, being able to reach a coma with irreversible damage if sustained over time. Purpose of the review: The objective is to present a case of severe hypoglycemia without neu-roglycopenic symptoms. Recent findings: The absence of neurological symptoms is due to the consumption of lactate ­ traditionally an anaerobic product ­ as an alternative energy metabolic pathway to glucosa consumption. Hypoglycemia can be compensated at the neurological level with lactate launching systems in neuronal tissue, replacing glucose as the brain's energy substrate. Conclusions: Hypoglycemia without adrenergic or neuroglycopenic symptoms is an issue linked to cancer patients, and lactate is proposed as fuel for nervous tissue in addition to glucose. On the other hand, the lactate-hypoperfusion association is another entity that must be reviewed and reanalyzed for everything that lactate implies within the body's metabolic pathophysiological pathway.

Anaerobic digestion pathways in biochemistry: a teaching practice / 生物工程学报

Anaerobic digestion is another important anaerobic catabolism pathway besides lactic acid and ethanol fermentation, which is of great significance for recycling resources, maintaining the ecological balance, optimizing the energy structure, alleviating the energy crisis, and promoting the implementation of the "Carbon Peaking and Carbon Neutrality" strategy. However, such an important metabolic process has not been involved in the current textbooks and teaching of biochemistry courses, making the teaching system incomplete. The anaerobic digestion process involves many reactions and complex metabolic pathways. In order to improve the students' understanding to this process, we created a full chart of the whole anaerobic digestion process based on systemic literature review and integrated it into the classroom teaching through the BOPPPS teaching mode. It was found that the classroom teaching assisted by this metabolic chart could help students establish the structural framework of the anaerobic digestion process and enrich the knowledge system of metabolism, achieving a good teaching effect. This paper introduces the content of the metabolic pathways of anaerobic digestion and the design of the teaching process, which would facilitate the teaching reforms and perfection of textbooks for related courses, such as Biochemistry, Environmental Engineering Microbiology and New Energy Engineering.

Anaerobic RSH-dependent tellurite reduction contributes to Escherichia coli tolerance against tellurite

BACKGROUND: Tellurium is a rare metalloid that exerts high toxicity on cells, especially on bacteria, partly due to reactive oxygen species (ROS) generation. Moreover, it has also been observed that tellurite can target free cell thiols groups (RSH) (i.e. reduced glutathione (GSH)), enhancing the cellular redox imbalance. Additionally, in vitro experiments have suggested that several enzymes can reduce tellurite (IV) to its elemental form (0); where RSH present on their active sites may be responsible for the process. Nevertheless, the mechanisms implemented by bacteria for tellurite reduction and its role in resistance have not been evaluated in vivo. RESULTS: This work shows that tellurite reduction to elemental tellurium is increased under anaerobic conditions in E. coli cells. The in vivo tellurite reduction is related to the intracellular concentration of total RSH, in the presence and absence of oxygen. This metabolization of tellurite directly contributes to the resistance of the bacteria to the oxyanion. CONCLUSIONS: We demonstrated that in vivo tellurite reduction is related to the intracellular thiol concentration, i.e. large availability of cellular RSH groups, results in a more significant reduction of tellurite. Furthermore, we observed that, when the bacterium exhibits less resistance to the oxyanion, a decreased tellurite reduction was seen, affecting the growth fitness. Together, these results let us propose that tellurite reduction and the intracellular RSH content are related to the oxyanion bacterial resistance, this tripartite mechanism in an oxygen independent anaerobic process.

The relationship between methane production metabolic flux and microorganisms in a microbial electrolytic cell coupled anaerobic digestion / 生物工程学报

In this study, voltage was used as a disturbance factor to investigate the relationship between microbial community and methane (CH4) production flux in a microbial electrolytic cell coupled anaerobic digestion (MEC-AD). Metabolic flux analysis (MFA) was used to explore the relationship between the CH4 metabolic flux produced and the microbes. The results showed that both methane production flux and hydrogen production flux changed significantly upon voltage disturbance, while the voltage disturbance had little effect on acetic acid production flux. The maximum CH4 production flux under 0.6 V disturbance was 0.522±0.051, which increased by 77% and 32%, respectively, compared with that of the control group under 1.0 V (0.295±0.013) and under 1.4 V (0.395±0.029). In addition, an average of 15.7%±2.9% of H2 (flux) was used to reduce CO2 to produce CH4 and acetic acid, and an average of 27.7%±6.9% of acetic acid (flux) was converted to CH4. Moreover, the abundance of Lachnospiraceae significantly affected the flux of acetic acid. The flux of CH4 production is positively correlated with the abundances of Petrimonas, Syntrophomonas, Blvii28, and Acinetobacter, and negatively correlated with the abundances of Tuzzerella and Sphaerochaeta. The species that affected the flux of H2 and CH4 were similar, mostly belonging to Bacteroides, Clostridium, Pseudomonas and Firmicutes. Furthermore, the interspecies interaction is also an important factor affecting the MEC-AD methanogenesis flux.

Research progress of combined anaerobic ammonium oxidation (ANAMMOX) process for nitrogen removal / 生物工程学报

Anaerobic ammonia oxidation (ANAMMOX) process is an efficient and low-cost biological nitrogen removal process. However, it still faces some challenges in mainstream applications due to the limitation of substrate types and nitrate accumulation. In recent years, the combined process of anammox has been widely studied to solve the above problems. In this paper, the combined processes of anammox developed in recent years are reviewed, and discussed from the process principle, advantages and disadvantages, influencing factors, process extensibility and the key bottlenecks existing in the promotion and application, as well as the relevant work of the subject group. Finally, we take an outlook on the development of the combined anaerobic ammonia oxidation process in municipal domestic wastewater treatment.

Enhanced heterologous expression of the cytochrome c from uncultured anaerobic methanotrophic archaea / 生物工程学报

Cytochrome c is a type of heme proteins that are widely distributed in living organisms. It consists of heme and apocytochrome c, and has potential applications in bioelectronics, biomedicine and pollutant degradation. However, heterologous overexpression of cytochrome c is still challenging. To date, expression of the cytochrome c from uncultured anaerobic methanotrophic archaea has not been reported, and nothing is known about the function of this cytochrome c. A his tagged cytochrome c was successfully expressed in E. coli by introducing a thrombin at the N-terminus of CytC4 and co-expressing CcmABCDEFGH, which is responsible for the maturation of cytochrome c. Shewanella oneidensis, which naturally has enzymes for cytochrome c maturation, was then used as a host to further increase the expression of CytC4. Indeed, a significantly higher expression of CytC4 was achieved in S. oneidensis when compared with in E. coli. The successful heterologous overexpression of CytC4 will facilitate the exploitation of its physiological functions and biotechnological applications.

Metabolismo intermediario de Blastocystis spp / Intermediate metabolism of Blastocystis spp

Blastocystis es un stramenopile o cromista, pleomórfico no móvil. Se han identificado diecinue-ve subtipos de este organismo (ST1-ST19). Tiene una presencia a nivel mundial. Este microor-ganismo tiene un metabolismo intermediario anaeróbico. Un aspecto interesante de la bioquími-ca de este stramenopile está dado por la presencia de organelas similares a mitocondrias con un conjunto de rutas: cadena de fosforilación oxidativa incompleta, ciclo de Krebs parcial, metabo-lismo de ácidos grasos (anabolismo y catabolismo), metabolismo de aminoácidos y ensamblaje de proteínas con centros hierro/azufre. El tratamiento se ha basado tradicionalmente en metroni-dazol y otros imidazoles. Sin embargo, hay un número creciente de cepas resistentes a esos medicamentos. La reciente obtención del genoma nuclear y los estudios bioquímicos, proteómi-cos, metabolómicos, interactómicos permitirán el desarrollo racional de nuevos fármacos curati-vos. El objetivo de esta revisión es describir el metabolismo de Blastocystis spp

Blastocystis is a stramenopile or chromist, nonmobile pleomorphic. Nineteen subtypes of this organism (ST1-ST19) have been identified worldwide. This microorganism has an intermediate anaerobic metabolism. An interesting aspect of the biochemistry of this stramenopile is given by the presence of mitochondrial-like organelles with a set of pathways: incomplete oxidative phos-phorylation chain, partial Krebs cycle, fatty acid metabolism (anabolism and catabolism), amino acid metabolism and protein assembly with iron / sulfur centers. Treatment has traditionally been based on metronidazole and other imidazoles. However, there are a growing number of strains resistant to these drugs. The recent obtaining of the nuclear genome and the biochemical, proteomic, metabolomic and interactomic studies will allow the rational development of new curative drugs. The objective of this review is to describe the metabolism of Blastocystis spp.

Changes in freshwater sediment microbial populations during fermentation of crude glycerol

BACKGROUND: This work studied how the exposure to an unusual substrate forced a change in microbial populations during anaerobic fermentation of crude glycerol, a by-product of biodiesel production, with freshwater sediment used as an inoculum. RESULTS: The microbial associations almost completely (99.9%) utilized the glycerol contained in crude glycerol 6 g L 1 within four days, releasing gases, organic acids (acetic, butyric) and alcohols (ethanol, n-butanol) under anaerobic conditions. In comparison with control medium without glycerol, adding crude glycerol to the medium increased the amount of ethanol and n-butanol production and it was not significantly affected by incubation temperature (28 C or 37 C), nor incubation time (4 or 8 d), but it resulted in reduced amount of butyric acid. Higher volume of gas was produced at 37 C despite the fact that the overall bacterial count was smaller than the one measured at 20 C. Main microbial phyla of the inoculum were Actinobacteria, Proteobacteria and Firmicutes. During fermentation, significant changes were observed and Firmicutes, especially Clostridium spp., began to dominate, and the number of Actinobacteria and Gammaproteobacteria decreased accordingly. Concentration of Archaea decreased, especially in medium with crude glycerol. These changes were confirmed both by culturing and culture-independent (concentration of 16S rDNA) methods. CONCLUSIONS: Crude glycerol led to the adaptation of freshwater sediment microbial populations to this substrate. Changes of microbial community were a result of a community adaptation to a new source of carbon.

A review on polyhydroxyalkanoates synthesis in activated sludge system: the effects of dissolved organic compounds by using anaerobic fermentation liquid from waste activated sludge / 生物工程学报

Polyhydroxyalkanoates (PHA) synthesis by activated sludge using volatile fatty acids (VFAs) in fermentation liquid of excess sludge as carbon source is a hotspot in the field of environmental biotechnology. However, there is no unified conclusion on the effects of non-VFAs, mainly dissolved organic matter (DOM), on PHA production. Thus, this critical review mainly introduces the main characteristics and common analysis methods of DOM in anaerobic fermentation liquid. The effects of DOM on PHA production are analyzed from the aspects of microbiology, metabolic regulation and sludge properties. The results of different studies showed that high concentration of DOM is bad for PHA production, but an appropriate amount of DOM is conducive to the stability of sludge properties, reducing the final PHA purification cost. Finally, suitable strategies were proposed to regulate the PHA synthesis by activated sludge with DOM for PHA production by anaerobic fermentation liquid.

Advances of using Dehalogenimonas in anaerobic degradation of chlorinated compounds and bioremediation of contaminated sites / 生物工程学报

The genus Dehalogenimonas (Dhgm) is a recently discovered taxonomic group within the class Dehalococcoidia of the phylum Chloroflexi. To date, Dhgm consists of three formally described species including Dehalogenimonas lykanthroporepellens, Dehalogenimonas alkenigignens and Dehalogenimonas formicexedens. All isolates of these three Dhgm species are obligate organohalide-respiring bacteria. They use hydrogen and formate as electron donors and chlorinated ethanes (e.g., 1,2,3-trichloropropane, 1,2-dichloropropane, 1,2-dichloroethane) as electron acceptors in energy-conserving reductive dechlorination reaction. Chlorinated ethanes are common groundwater contaminants in China. The unique metabolic capacities of Dhgm strains implicate it may play important roles in site remediation. The recently reported Dhgm sp. strain WBC-2 and 'Candidatus Dehalogenimonas etheniformans' strain GP are capable of dechlorinating certain chlorinated ethenes. More importantly, strain GP can completely detoxify the carcinogenic vinyl chloride (VC) to ethene. These findings expand the diversity of microorganisms involved in the respiratory VC reductive dechlorination and improve the understanding of Dhgm's ecological functions. Here, we summarize the advances in physiological and biochemical characteristics, ecological functions and genomic features of Dhgm, with the aim to develop effective and sustainable strategies to facilitate the bioremediation of chlorinated compounds contaminated sites.

Microorganisms in the typical anaerobic digestion system of organic solid wastes: a review / 生物工程学报

The facultative anaerobic and strict anaerobic microorganisms enriched and acclimated during the anaerobic digestion process are crucial for the efficiency of the anaerobic digestion system. Most of the problems encountered during running anaerobic digestion processes could be effectively improved via stimulation of microbial metabolic activity. Benefited from the rapid development of microbiome techniques, deeper insights into the microbial diversity in anaerobic digestion systems, e.g. the microbe-microbe interactions and microbe-environment interactions, have been gained. A complex and intricate metabolic network exists in the anaerobic digestion system of solid organic wastes. However, little is known about these interactions and the underlying mechanisms. This review briefly summarized the representative interactions between microbial communities during anaerobic digestion process discovered to date. In addition, typical issues encountered during the anaerobic digestion of solid organic wastes and how microbes can tackle and alleviate these issues were discussed. Finally, future priorities on microbiome research were proposed based on present contribution of microbiome analysis in anaerobic digestion system.

Co-fermentation of kitchen waste and excess sludge for organic acid production: a review / 生物工程学报

Resource utilization is an effective way to cope with the rapid increase of kitchen waste and excess sludge, and volatile fatty acids produced by anaerobic fermentation is an important way of recycling organic waste. However, the single substrate limits the efficient production of volatile fatty acids. In recent years, volatile fatty acids produced by anaerobic co-fermentation using different substrates has been widely studied and applied. In this paper, we analyze the characteristics of fermentation to produce acid using kitchen waste and excess sludge alone or mixture. Influences of environmental factors and microbial community structure on the type and yield of volatile fatty acids in the anaerobic fermentation system are discussed in detail. Moreover, we propose future research directions, to provide a reference for recycling kitchen waste and excess sludge.

Evaluation of a Combined System Based on an Upflow Anaerobic Sludge Blanket Reactor (UASB) and Shallow Polishing Pond (SPP) for Textile Effluent Treatment

Abstract Color removal from textile effluents was evaluated using a laboratory-combined process based on an upflow anaerobic sludge blanket (UASB) reactor followed by a shallow polishing pond (SPP). The anaerobic reactor was fed with a real textile effluent, diluted 10-times in a 350 mg/L solution of pre-treated residual yeast extract from a brewery industry as nutrient source. The parameters color, COD, N-NH3 and toxicity were monitored throughout 45 days of operation. According to the results, decolorization and COD removal were highest in the anaerobic step, whereas the effluent was polished in the SPP unit. The overall efficiency of the complete UASB-SPP system for COD and color were 88 and 62%, respectively. Moreover, the N-NH3 generated by the residual yeast extract ammonification was below 5 mg/L for the final effluent. Finally, no toxicity was detected after the treatment steps, as shown by the Vibrio fischeri microscale assay.

Expressão e atividade de sistemas de dois componentes (TCS) de Salmonella enterica sorovar Typhimurium no contexto do metaboloma intestinal humano / Expression and activity of two-component systems of Salmonella enterica sorovar Typhimurium in the context of the human intestinal metabolome

A interação entre membros do microbioma intestinal humano, células hospedeiras e patógenos invasores pode ocorrer de diversas formas, sendo uma delas através de pequenas moléculas chamadas metabólitos. A percepção e resposta efetiva de um microrganismo às diferentes condições encontradas em seu ambiente, incluindo metabólitos produzidos por outros microrganismos, são fatores importantes para sua adaptação, sobrevivência e disseminação. Os sistemas de dois componentes (TCS) permitem a percepção e resposta a mudanças ambientais, regulando a expressão de genes específicos. Nosso grupo mostrou anteriormente que um extrato orgânico de fezes humanas (EF), bem como o ácido 3,4-dimetilbenzoico (3,4-DMB), encontrado no EF, inibe a capacidade de Salmonella enterica sorovar Typhimurium de invadir células hospedeiras. O presente trabalho propôs investigar o impacto do microbioma intestinal humano, bem como de pequenas moléculas produzidas por Clostridium citroniae (membro deste microbioma) na expressão e atividade dos genes de TCS de Salmonella. Os metabólitos de EF e de culturas puras de C. citroniae foram extraídos com acetato de etila e adicionados a meio de cultura. O pH do meio foi ajustado (~ 7,4) e a solução foi esterilizada por filtragem. Salmonella foi cultivada na presença ou ausência do EF e do extrato de C. citroniae, bem como do ácido 3,4-DMB, em condições aeróbias e anaeróbias, até alcançar o meio da fase logarítmica de crescimento. O RNA foi extraído para a realização de PCR em Tempo Real utilizando iniciadores direcionados a quase todos os TCS de Salmonella. Nossos resultados mostraram que vários genes de TCS envolvidos na virulência de Salmonella (SsrAB, EnvZ-OmpR, QseCB, PhoQP, TorSR, TtrRS) foram regulados diferencialmente por esses metabólitos, tanto em condições aeróbias quanto anaeróbias. EnvZ-OmpR, PhoPQ e SsrAB estão diretamente envolvidos na regulação das Ilhas de Patogenicidade 1 e 2 de Salmonella. QseCB é crucial para a detecção de quorum em Salmonella, de hormônios hospedeiros e para a regulação da motilidade (swimming). Vários outros TCS também foram regulados, incluindo TorSR e TtrRS, envolvidos na regulação da respiração anaeróbica de N-óxido de trimetilamina (TMAO) e tetrationato, respectivamente. Esses compostos são importantes para a sobrevivência de Salmonella no ambiente anaeróbico do intestino humano. Nossos resultados de avaliação de expressão gênica global de Salmonella cultivada na presença de ácido 3,4-DMB (aerobiose e anaerobiose) bem como na presença do EF em anaerobiose, mostraram que genes condificados em SPI-1 e SPI-2, SPI-4 e alguns genes do TCS foram reprimidos, enquanto genes marR, marB e marA foram ativadas nessas condições. Adicionalmente, comparamos nossos resultados de RNAseq, de Salmonella cultivada na presença do ácido 3,4-DMB em aerobiose, com resultados disponíveis da base de dados Salmonella Compendium. Ainda, a capacidade de Salmonella de adentrar e sobreviver dentro de células fagocíticas (macrófagos RAW 264.7) parece ser afetada pelas três condições testadas neste trabalho. Nossos resultados mostram que importantes vias de sinalização da virulência de Salmonella podem ser moduladas pelos metabólitos presentes no microbioma intestinal humano e abrem caminhos para novas pesquisas sobre a sinalização intercelular microbioma-patógeno no ambiente intestinal.

The interaction between members of the human gut microbiome, host cells and invading pathogens often occurs through small molecules, also called metabolites. The perception and effective response of a microorganism to the different conditions found in its environment, including metabolites produced by other microbes, is important for its adaptation, survival and dissemination. Two-component systems (TCS) allow the perception and response to environmental changes by regulating the expression of specific genes. Our group previously showed that organic extracts of human feces (EF) as well as the specific metabolite 3,4-dimethylbenzoic acid (3,4-DMB) found within the EF, inhibit the ability of Salmonella enterica sorovar Typhimurium to invade host cells. In the present work, we investigated the impact of the human gut microbiome as well as small molecules produced by Clostridium citroniae (a member of this microbiome) on the expression and activity of Salmonella TCS genes. Metabolites (from feces or C. citroniae cultures) were extracted using ethyl acetate and added to culture medium. The pH of the medium was adjusted (~7.4), and the solution was filter sterilized. Salmonella was grown in the presence or absence of the organic extracts as well as 3,4-DMB acid under aerobic and anaerobic conditions until it reached mid-log growth. RNA was then extracted for Real-time PCR using primers targeting almost all Salmonella TCS. Our results showed that several TCS involved in Salmonella virulence (SsrAB, EnvZ-OmpR, QseCB, PhoQP, TorSR, TtrRS) were differentially regulated by these metabolites both in aerobic and anaerobic conditions. EnvZ-OmpR, PhoPQ, and SsrAB are directly involved in the regulation of Salmonella Pathogenicity Islands 1 and 2. QseCB is crucial for Salmonella =quorum sensing, sensing of host hormones and regulation of swimming motility. Several other TCS were also regulated, including TorSR and TtrRS, which are involved in the anaerobic respiration of trimethylamine N-oxide (TMAO) and tetrathionate, respectively. These compounds are important for Salmonella survival in the anaerobic environment of the human gut. Our results of the evaluation of global Salmonella gene expression grown in the presence of 3,4-DMB acid (aerobiosis and anaerobiosis) as well as in the presence of EF in anaerobiosis, showed that genes encoded in SPI-1 and SPI-2, SPI-4 and some TCS genes have been repressed, while multiple drug resistance genes, as well marR, marB and marA genes have been activated under these conditions. Besides, we compared our results of RNAseq, Salmonella was grown in the presence of 3,4-DMB acid in aerobiosis, with results available from the Salmonella Compendium database. Also, Salmonella's ability to enter and survive within phagocytic cells (macrophages RAW 264.7) appears to be affected by the three conditions tested in this work. Our results show that important Salmonella virulence signalling pathways can be modulated by the metabolites present in the human intestinal microbiome and open the way for further research on the microbiome-pathogen intercellular signalling in the intestinal environment.

Effect of microbial community structure of activated sludge in an Anaerobic-anoxic-oxic process with Actinic reaction enzyme system start-up / 生物工程学报

In order to explore the microbial communities and functions of activated sludge in an Anaerobic-anoxic-oxic (A²/O) process under the start-up of Actinic reaction enzyme system (ARES) system and to understand the impact of the ARES system in domestic sewage treatment process, the activated sludge microbial community structure in the A²/O process system before and after ARES system start-up was analyzed by Illumina-HiSeq 2000 high-throughput sequencing platform. By combining with the main parameters related to the effect of sewage treatment, we analyzed the environmental functions of the microbial communities. The microbial community structure of activated sludge was significantly different before and after the ARES system start-up. There were 9 main bacterial phyla in the system (average relative abundance ≥1%), accounting for 96%-98% of the total bacteria sequenced. After the ARES system was started, the relative abundance of Betaproteobacteria and Chlorobi increased by 3.45%-3.85% and 0.45%-2.61%, respectively. In the anaerobic unit, the relative abundance of Bacteroidetes increased by 12.97%, while the Actinobacteria and Firmicutes decreased by 9.60% and 1.45%, respectively. At the genus level of bacteria, the relative abundance of Denitratisoma increased by 0.80%-3.27%, while the Haliangium and Arcobacter decreased by 3.36%-4.52% and 1.48%-3.45%, respectively. The relative abundance of bacteria was significantly different before and after the ARES system start-up. There were 7 abundant fungi phyla (average relative abundance ≥1%) in the system. After the ARES system was started, the relative abundance of Rozellomycota decreased by 42.71%-46.77%. In the anaerobic unit, the relative abundance of Ascomycota decreased by 13.39%, while the relative abundance of Glomeromycota increased by 13.86%. At the genus level of fungi. The relative abundance of Entomophthoraceae sp. and Glomcromycota sp. increased by 31.35%-36.50% and 6.27%-13.84%, respectively, while the Rozellomycota sp. and Xylochrysis lucida decreased by 42.71%-46.77% and 3.67%-5.54%, respectively. Our results showed that the application of ARES system caused the response of the microbial community to environmental changes, especially for the fungi communities, in the meanwhile, improved the effluent quality, especially the removal rate of total nitrogen.

The effect of introduction of chicken manure on the biodiversity and performance of an anaerobic digester

Background: Ammonium stress is a prime limiting phenomenon that occurs during methane formation from poultry manure. It is caused by elevated ammonium nitrogen concentrations that result from substrate decomposition. The amounts of methane formed depend on the activity of methanogenic microbes. Results: During the research reported in this paper, the response of a mesophilic consortium inhabiting a biogas reactor to rising load of poultry manure was investigated. The taxonomic composition of bacterial population was mostly typical, however syntrophic bacteria were not detected. This absence resulted in limitation of succession of some methanogenic microorganisms, especially obligate hydrogenotrophs. The methanogenic activity of the consortium was totally dependent on the activity of Methanosaeta. Inhibition of methanoganesis was noticed at ammonium nitrogen concentration of 3.68 g/L, total cessation occurred at 5.45 g/L. Significant amounts of acetic acid in the fermentation pulp accompanied the inhibition. Conclusions: The effectiveness of the consortium was totally dependent on the metabolic activity of the acetoclastic Methanoseata genus and lack of SAOB did not allow hydrogenotrophic methanogens to propagate and lead to cessation of biogas production at an elevated ammonium concentration at which acetoclastic methanogens were inhibited.

Evaluation of triclosan toxic effects on the methanogenic activity

BACKGROUND: Triclosan (TCS) is an antimicrobial agent widely used in health care and consumer products. This compound is present in sludge of wastewater treatment plants (WWTPs), and because of its bactericidal characteristics, it can inhibit the methanogenic activity in anaerobic digestion (AD) technology. The aim of this study was to evaluate the toxic effects of TCS on the methanogenic activity. RESULTS: Batch anaerobic reactors were used with TCS concentrations of 7.8, 15.7, 23.5, and 31.4 mg/L. These assays consisted in three successive feedings (I, II, and III), wherein the sludge was exposed to each TCS concentration and volatile fatty acid (VFA) substrate. For evaluation of the residual sludge activity during feeding III, only VFA was used. The results showed that the increase in TCS concentrations correlated with the reduction in methane (CH4) production. In this case, the minimum values were achieved for TCS concentration of 31.4 mg/L with CH4 levels between 101.9 and 245.3 during feedings I, II, and III. Regarding the effect of TCS on VFA consumption, an inhibitory effect was detected for TCS concentrations of 23.5 and 31.4 mg/L, with concentrations of acetic, butyric, and propionic acids at the end of the assay (37 d) between 153.6 and 206.8, 62.5 and 60.1, and 93.4 and 110 mg/L, respectively. Regarding the removal of TCS during AD, these values were above 47%. Conclusion: TCS is an inhibitor of methanogenic activity with a decrease between 63 and 70% during the different feedings. The CH4 production was not recovered during feeding III, with inhibition percentages of 21­72%.

Insights into the microbial community structure of anaerobic digestion of municipal solid waste landfill leachate for methane production by adaptive thermophilic granular sludge

BACKGROUND: The amount of municipal solid waste (MSW) gradually increased along with the rapid development of modern cities. A large amount of landfill leachate are generated with excessive chemical oxygen demand (COD), which create a great deal of pressure on the environment-friendly treatment process. Anaerobic digestion is an ideal technique to solve the above problem. RESULTS: A thermophilic granular sludge was successfully adapted for anaerobic digestion of MSW leachate (from an aging large-scale landfill) for methane production. The COD degradation efficiency improved by 81.8%, while the methane production rate reached 117.3 mL CH4/(g VS d), which was 2.34-fold more than the control condition. The bacterial and archaeal communities involved in the process were revealed by 16S rRNA gene high-throughput pyrosequencing. The richness of the bacterial community decreased in the process of thermophilic granular sludge, while the archaeal community structure presented a reverse phenomenon. The bacterial genus, Methanosaeta was the most abundant during the mesophilic process, while Methanobacterium, Methanoculleus, Methanosaeta and Methanosarcina were more evenly distributed. The more balanced community distribution between hydrogenotrophic and acetotrophic methanogens implied a closer interaction between the microbes, which further contributed to higher methane productivity. The detailed relationship between the key functional communities and anaerobic digestion performances were demonstrated via the multivariate canonical correspondence analysis. Conclusions: With the assistance of adaptive thermophilic granular sludge, microbial community structure was more evenly distributed, while both of COD degradation rate and methane production was improved during anaerobic digestion of MSW landfill leachate.

Factores asociados a la potencia anaeróbica y capacidad cardiorrespiratoria en escolares de Medellín-Colombia / Associated factors with anaerobic power and cardiorespiratory fitness in schoolchildren in Medellín-Colombia / Fatores associados à potência anaeróbia e capacidade cardiorrespiratória em escolares de Medellín-Colombia

Objetivo: determinar factores asociados a la potencia anaeróbica y capacidad cardiorrespiratoria en escolares de 12 a 17 años de Medellín-Colombia. Método: estudio transversal con escolares, a quienes se les realizaron mediciones sociodemográficas (sexo, edad, grado de escolaridad), antropométricas (peso, talla, circunferencia de cintura y de cadera, sobrepeso, obesidad abdominal), y de condición física (potencia anaeróbica, índice de fatiga y capacidad cardiorrespiratoria). Resultados: las variables antropométricas y sociodemográficas influyen en la condición física. Padecer sobrepeso, obesidad abdominal y ser mujer, fueron factores que se asociaron con un menor desarrollo en las pruebas de potencia anaeróbica y con la capacidad cardiorrespiratoria. La mediana de generación de watts de potencia por kilogramo en una persona con obesidad abdominal fue de 4, comparado con 6,9 en alguien sin esta condición. La potencia anaeróbica se correlaciona con la capacidad cardiorrespiratoria. Conclusiones: se logró identificar que sí hay asociación entre la potencia anaeróbica y algunas variables antropométricas y sociodemográficas.

Objective: To determine associated factors with anaerobic power and cardiorespiratory fitness in schoolchildren aged 12 to 17 years old in Medellín, Colombia. Methods: Cross-sectional study with schoolchildren, who underwent to sociodemographic (sex, age, level of education), anthropometric (weight, height, waist and hip circumference, overweight, abdominal obesity), and physical condition (anaerobic power, fatigue and cardiorespiratory fitness) measurements. Results: Anthropometric and sociodemographic variables influence the physical fitness. Being overweight, abdominal obesity and being a woman were factors associated with lesser development in anaerobic power tests and cardiorespiratory fitness. Median of watts of power per kilogram in a person with abdominal obesity was 4, compared to 6.9 in someone without this condition. Anaerobic power correlates with cardiorespiratory fitness. Conclusions: It was possible to identify that there is an association between anaerobic power and some anthropometric and sociodemographic variables.

Objetivo: determinar os fatores associados à potência anaeróbia e à capacidade cardiorrespiratória em escolares de 12 a 17 anos de Medellín-Colômbia. Métodos: estudo transversal em escolares em que foram desenvolvidas medições sociodemográficas (sexo, idade, grau de escolaridade), antropométricas (peso, estatura, circunferência da cintura e quadril, sobrepeso, obesidade abdominal) e de condição física (Potência anaeróbia, taxa de fadiga e capacidade cardiorrespiratória). Resultados: as variáveis antropométricas e sociodemográficas influenciam a condição física. O sobrepeso, a obesidade abdominal e ser mulher foram fatores que se associaram com menor desenvolvimento nos testes de potência anaeróbia e com a capacidade cardiorrespiratória. A geração mediana de watts de poder por quilograma em uma pessoa com obesidade abdominal era 4, comparada com o 6,9 em alguém sem esta circunstância. O poder anaeróbio se correlaciona com a capacidade cardiorrespiratória. Conclusões: identificou-se que se existe ligação entre potência anaeróbia e algumas variáveis antropométricas e sociodemográficas.