A cross-sectional study to examine the association of giardiasis with protein-energy malnutrition, vitamin A deficiency and iron deficiency anaemia was conducted among Orang Asli children in Selangor, Malaysia. A total of 281 children aged 2-15 years were studied. The data were collected using structured questionnaires, anthropometric measurements and laboratory analysis of blood and faecal samples. The results showed that 24.9% of the children were infected with Giardia duodenalis, while 56.5, 61.3 and 15.1% had significant underweight, stunting and wasting, respectively. Giardiasis was statistically identified as a strong predictor of significant wasting in this study population.
Vitamin A deficiency and malnutrition are still considered public health problems in rural areas of developing countries, including Malaysia. A cross-sectional exploration study was carried out on 281 Orang Asli (Aborigine) children aged between 2 and 15 years in Selangor, Malaysia. The overall prevalence of low serum retinol (<70 micromol/l) and hypoalbuminaemia (<35 g/l) were 25.2 and 7.8%, respectively. Univariate analysis showed that severe ascariasis, significant stunting and giardiasis were significantly associated with low concentration of serum retinol. As well as intestinal parasitic infections, low socio-economic status was a significant predictor of hypoalbuminaemia. Logistic regression analysis identified severe ascariasis and significant stunting as predictors of low serum retinol, while mixed intestinal parasitic infection and low household income were predictors of hypoalbuminaemia. In conclusion, control measures for intestinal parasitic infections should be included as one of the strategies for the prevention and control of malnutrition and vitamin A deficiency in this population.
The functional inference of UniProtKB nitrate reductase enzyme (UniProtKB - P0AF33) through structural modeling is of interest in plant
biology. Therefore, a homology model for UniProtKB variant of the enzyme was constructed using available data with the MODELER
software tool. The model was further docked with five natural flavonoid structures such as hesperetin, naringenin, leucocyanidin,
quercetin and hesperetin triacetate using the AUTODOCK (version 4.2) software tool. The structure aided molecular interactions of these
flavonoids with nitrate reductase is documented in this study. The binding features (binding energy (ΔG) value, H bonds and docking
score) hesperetin to the enzyme model is relatively high, satisfactory and notable. This data provides valuable insights to the relative
binding of several naturally occurring flavonoids to nitrate reductase enzyme and its relevance in plant biology.
Genetic and environmental factors concurrently shape the aging process. The nematode Caenorhabditis elegans has been instrumental in the past 30 years to identify most factors and pathways nowadays known to modulate aging. The aryl-hydrocarbon-receptor (AhR) is a transcription factor originally discovered as a dioxin-binding protein and involved in the metabolism of different environmental toxicants and xenobiotics. Since its discovery, the variety of pathophysiological processes regulated by the AhR has grown and previously we disclosed it promotes aging phenotypes across species. Here, we followed up on our previous study and show that lack of C. elegans AHR-1 differentially affects health and lifespan in a context-dependent manner. Notably, we identified a critical role for AhRbacterial diet interaction in animal lifespan, stress resistance, and age-associated pathologies, and narrowed down the dietary factor involved in the observed AhR-dependent features to a bacteria extruded product, likely derived from tryptophan metabolism.
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