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strains.Although several studies have investigated genetic diversity of Leishmania infantum in North Africa, genome-wide analyses are lacking. Here, we conducted comparative analyses of nuclear and mitochondrial genomes of seven L. infantum isolates from Tunisia with the aim to gain insight into factors that drive genomic and phenotypic adaptation. Isolates were from cured (n=4) and recurrent (n=3) visceral leishmaniasis (VL) cases, originating from northern (n=2) and central (n=5) Tunisia, where respectively stable and emerging VL foci are observed. All isolates from relapsed patients were from Kairouan governorate (Centre); one showing resistance to the anti-leishmanial drug Meglumine antimoniate. Nuclear genome diversity of the isolates was analysed by comparison to the L. infantum JPCM5 reference genome. Kinetoplast maxi and minicircle sequences (1 and 59, respectively) were extracted from unmapped reads and identified by blast analysis against public data sets. The genome variation analysis grouped together isolates from the same geographical origins. Strains from the North were very different from the reference showing more than 34 587 specific single nucleotide variants, with one isolate representing a full genetic hybrid as judged by variant frequency. Composition of minicircle classes within isolates corroborated this geographical population structure. Read depth analysis revealed several significant gene copy number variations correlating with either geographical origin (amastin and Hsp33 genes) or relapse (CLN3 gene). However, no specific gene copy number variation was found in the drug-resistant isolate. In contrast, resistance was associated with a specific minicircle pattern suggesting Leishmania mitochondrial DNA as a potential novel source for biomarker discovery.The transcription factor PdhR has been recognized as the master regulator of the pyruvate catabolism pathway in Escherichia coli, including both NAD-linked oxidative decarboxylation of pyruvate to acetyl-CoA by PDHc (pyruvate dehydrogenase complex) and respiratory electron transport of NADH to oxygen by Ndh-CyoABCD enzymes. To identify the whole set of regulatory targets under the control of pyruvate-sensing PdhR, we performed genomic SELEX (gSELEX) screening in vitro. A total of 35 PdhR-binding sites were identified along the E. coli K-12 genome, including previously identified targets. Possible involvement of PdhR in regulation of the newly identified target genes was analysed in detail by gel shift assay, RT-qPCR and Northern blot analysis. The results indicated the participation of PdhR in positive regulation of fatty acid degradation genes and negative regulation of cell mobility genes. In fact, GC analysis indicated an increase in free fatty acids in the mutant lacking PdhR. We propose that PdhR is a bifunctional global regulator for control of a total of 16-23 targets, including not only the genes involved in central carbon metabolism but also some genes for the surrounding pyruvate-sensing cellular pathways such as fatty acid degradation and flagella formation. The activity of PdhR is controlled by pyruvate, the key node between a wide variety of metabolic pathways, including generation of metabolic energy and cell building blocks.To investigate firefighters' multidimensional attitude toward death and psychological distress, 60 firefighters completed the Death Attitude Profile-Revised and the General Health Questionnaire-28. As predicted, fear of death and escape acceptance were positively related to severe depression and anxiety/insomnia. However, contrary to predictions, neutral acceptance and death avoidance were not associated with psychological distress. Our results indicate that it would be advisable to examine the effectiveness of preventive and therapeutic interventions for firefighters aimed at reducing the fear of death and escape acceptance.Adverse childhood experiences (ACEs) have been linked to mental and physical health problems, leading to ACEs being viewed as a public health concern. Yet, less research has focused on the prevalence and impact of ACEs among diverse racial and ethnic groups. https://www.selleckchem.com/products/d-luciferin.html Given the increasing diversity in the USA, coupled with research that has found certain racial and ethnic groups to experience larger-scale adversity such as poverty or discrimination more frequently than White individuals, it is important to understand how ACEs are experienced by people of color. The current study examined the prevalence of ACEs among diverse racial and ethnic groups, and associations between ACE score and mental and physical health. Even after adjusting for sociodemographic factors, ACE scores of 3 or higher were linked to more physical and mental health problems. Furthermore, there was a significant interaction effect between ACE score and race on physical health, while none of the interaction terms were significant between ACE score and race on mental health. This suggests that higher ACE scores have a more detrimental impact on physical health for people of color. Implications for social work include implementing community-level ACE-informed responses, especially in communities that serve traditionally marginalized populations.Intranasal administration of drugs is gaining popularity in medicine, and several animal models have been used to test the safety and efficacy of this delivery route. Nevertheless, the nasal anatomy of animals is different from humans, which can lead to pathological changes that stem from the delivery device and not the drug itself. Here, we report on nasal inflammation and ulceration in rabbits, secondary to the repeated trauma caused by the intranasal device. Similar changes were noted in the animals treated with the vehicle and with the tested drug, and therefore, these changes were not attributed to the drug itself. In some animals, superficial ulcer and stromal inflammation were noted in the eyes, secondary to nasal duct obstruction from the nasal inflammation. These observations emphasize the importance of proper interpretation of histopathological changes, attributed to trauma-induced pathological changes related to the handling of the animal and not to the tested product, which is the drug itself and the device that is optimized for clinical (human) use.