Out of the Dark, into the Light: Metabolic Fluorescent Labeling of Nucleic Acids.

This review outlines recent advances in live-cell imaging techniques for nucleic acids. We describe the evolution of these methods, particularly highlighting the development of metabolic labeling approaches compatible with living systems using fluorescence-based labeling.

Contact-Biocide TiO Surfaces by Surface-Initiated Atom Transfer Radical Polymerization with Chemically Stable Phosphonate Initiators.

Surface-initiated atom transfer radical polymerization (SI-ATRP) is a powerful tool for grafting functional polymers from metal surfaces. It depends on the immobilization of suitable initiators on the surface before radical polymerization. Herein, we report a set of bifunctional initiators bearing a phosphonic acid group for surface binding and a bromoisobutyramide moiety for SI-ATRP.

A TriPPPro-Nucleotide Reporter with Optimized Cell-Permeable Dyes for Metabolic Labeling of Cellular and Viral DNA in Living Cells.

The metabolic labeling of nucleic acids in living cells is highly desirable to track the dynamics of nucleic acid metabolism in real-time and has the potential to provide novel insights into cellular biology as well as pathogen-host interactions. Catalyst-free inverse electron demand Diels-Alder reactions (iEDDA) with nucleosides carrying highly reactive moieties such as axial 2-trans-cyclooctene (2TCOa) would be an ideal tool to allow intracellular labeling of DNA. However, cellular kinase phosphorylation of the modified nucleosides is needed after cellular uptake as triphosphates are not membrane permeable.

A Method for Diagnosing Organophosphate Pesticide Exposure in Humans using Liquid Chromatography Coupled Tandem Mass Spectrometry.

Organophosphate (OP) pesticides are commonly utilized worldwide for agricultural purposes and pose a health threat through air, ground, and water contamination. Here, we present a convenient method for diagnosing exposure to OP pesticides in humans. This immunoprecipitation method relies on extraction of butyrylcholinesterase (BChE), a biomarker of OP poisoning that adducts OP compounds, from human serum using agarose beads conjugated to anti-BChE antibodies.

Multiplexed ELISA screening assay for nine paralytic shellfish toxins in human plasma.

Paralytic shellfish poisoning is a lethal syndrome that can develop in humans who consume shellfish contaminated with paralytic shellfish toxins. These toxins have a short half-life in the human body, so a rapid diagnostic assessment of the poisoning is necessary. In this paper, we have developed and validated a rapid ELISA screening assay using anti-saxitoxin antibodies to screen nine toxins: saxitoxin; decarbamoyl saxitoxin; gonyautoxin 2,3; decarbamoyl GTX 2,3; neosaxitoxin; and gonyautoxin 1,4, in human plasma with lower limits of detection of 0.