https://www.selleckchem.com/products/blu-554.html In this report, a simple and practical procedure is proposed for DNA localization on a solid matrix e.g., a collection swab. The approach is straightforward and employs spectrum decomposition using a model DNA intercalator Ethidium Bromide (EtBr). The proposed approach can detect picograms of DNA in solution and nanograms of DNA on solid surfaces (swabs) without the need for PCR amplification. The proposed technology offers the possibility for developing an inexpensive, sensitive, rapid, and practical method for localizing and recovering DNA deposited on collection swabs during routine DNA screening. Improved detection of low DNA concentrations is needed and, if feasible, will allow for better decision making in clinical medicine, biological and environmental research, and human identification in forensic investigations.Iron oxide magnets, which are composed of the common elements iron and oxygen, are called ferrite magnets. They have diverse applications because they are chemically stable and inexpensive. Epsilon-iron oxide (ε-Fe2O3) is a polymorph that shows an extremely large coercive field as a magnetic oxide. It maintains its ferromagnetic ordering even when downsized to a single nano-sized scale (i.e., less then 10 nm). Due to these characteristics, ε-Fe2O3 is highly expected to be used for high-density magnetic recording media in the big data era. Here, we describe the recent developments of magnetic films composed of metal-substituted ε-iron oxide, ε-MxFe2-xO3 (M substitution metal), toward the next-generation of magnetic media.With the increased demand for petroleum and petroleum products from all parts of the society, environmental pollution caused by petroleum development and production processes is becoming increasingly serious. Soil pollution caused by petroleum seriously affects environmental quality in addition to human lives and productivity. At present, petroleum in soil is mainly degraded by biologi