Promoting biomass electrooxidation via modulating proton and oxygen anion deintercalation in hydroxide.

The redox center of transition metal oxides and hydroxides is generally considered to be the metal site. Interestingly, proton and oxygen in the lattice recently are found to be actively involved in the catalytic reactions, and critically determine the reactivity. Herein, taking glycerol electrooxidation reaction as the model reaction, we reveal systematically the impact of proton and oxygen anion (de)intercalation processes on the elementary steps.

Multiplex quantitative analysis of microRNA expression via exponential isothermal amplification and conformation-sensitive DNA separation.

Expression profiling of multiple microRNAs (miRNAs) generally provides valuable information for understanding various biological processes. Thus, it is necessary to develop a sensitive and accurate miRNA assay suitable for multiplexing. Isothermal exponential amplification reaction (EXPAR) has received significant interest as an miRNA analysis method because of high amplification efficiency.

A robust and simple-to-design multiplex DNA methylation assay based on MS-MLPA-CE-SSCP.

Aberrant DNA methylation is a potential diagnostic marker for complex diseases, such as cancer. With the increase in the number of genes known to exhibit disease-associated aberrant methylation, the need for accurate multiplex assays for quantifying DNA methylation has increased. Methylation-specific multiplex ligation-dependent probe amplification (MS-MLPA) is one method that has been highlighted in this context.