Effects of micro/nanoplastics on oxidative damage and serum biochemical parameters in rats and mice: a meta-analysis.

Micro/nanoplastics (MNPs) are emerging as environmental pollutants with potential threats to human health. The accumulation of MNPs in the body can cause oxidative stress and increase the risk of cardiovascular disease (CVD). With the aim to systematically evaluate the extent of MNPs-induced oxidative damage and serum biochemical parameters in rats and mice, a total of 36 eligible articles were included in this meta-analysis study.

Investigation of the binding interactions mechanism between zein with chrysin by multispectroscopic techniques.

As a natural carrier protein, zein was intensively studied for the construction of a flavonoid delivery system. Chrysin has presented superior tumor-resistant, anti-inflammatory, and anti-oxidation potentials among the flavonoid candidates in clinical practice. However, due to inadequate research, the binding mechanism and structural affinity of zein to chrysin are still indeterminate.

Consolidated plasmid Design for Stabilized Heterologous Production of the complex natural product Siderophore Yersiniabactin.

Yersiniabactin (Ybt) is a hybrid polyketide-nonribosomal complex natural product also known as a siderophore for its iron chelation properties. The native producer of Ybt, Yersinia pestis, is a priority pathogen responsible for the plague in which the siderophore properties of Ybt are used to sequester iron and other metal species upon host infection. Alternatively, the high metal binding properties of Ybt enable a plethora of potentially valuable applications benefiting from metal remediation and/or recovery.

A Hybrid Biological-Biomaterial Vector for Antigen Delivery.

A hybrid biological-biomaterial vector composed of a biocompatible polymeric biomaterial coating and an Escherichia coli core was designed and developed for antigen delivery. It provides a unique and efficient mechanism to transport antigens (protein or genetic) via different mechanisms of vector design that include antigen cellular localization (cytoplasm, periplasm, cellular surface) and nonnative functionalities that assist in antigen delivery. Based on a variety of E.

Loading and Releasing Ciprofloxacin in Photoactivatable Liposomes.

We demonstrate that ciprofloxacin can be actively loaded into liposomes that contain small amounts of porphyrin-phospholipid (PoP). PoP renders the liposomes photoactivatable, so that the antibiotic is released from the carrier under red light irradiation (665 nm). The use of 2 molar % PoP in the liposomes accommodated active loading of ciprofloxacin.

Engineering Heterologous Production of Salicylate Glucoside and Glycosylated Variants.

Salicylate 2-O-β-D-glucoside (SAG) is a plant-derived natural product with potential utility as both an anti-inflammatory and as a plant protectant compound. Heterologous biosynthesis of SAG has been established in through metabolic engineering of the shikimate pathways and introduction of a heterologous biosynthetic step to allow a more directed route to the salicylate precursor. The final SAG compound resulted from the separate introduction of an glucosyltransferase enzyme.

Increased production of yersiniabactin and an anthranilate analog through media optimization.

Yersiniabactin (Ybt) is a mixed nonribosomal peptide-polyketide natural product that binds a wide range of metals with the potential to impact processes requiring metal retrieval and removal. In this work, we substantially improved upon the heterologous production of Ybt and an associated anthranilate analog through systematic screening and optimization of culture medium components. Specifically, a Plackett-Burman design-of-experiments methodology was used to screen 22 components and to determine those contributing most to siderophore production.