Spirulina-templated metal microcoils with controlled helical structures for THz electromagnetic responses.

Microstructures in nature are ultrafine and ordered in biological roles, which have attracted material scientists. Spirulina forms three-dimensional helical microstructure, one of remarkable features in nature beyond our current processing technology such as lithography in terms of mass-productivity and structural multiplicity. Spirulina varies its diameter, helical pitch, and/or length against growing environment. This unique helix is suggestive of a tiny electromagnetic coil, if composed of electro-conductive metal, which brought us main concept of this work. Here, we describe the biotemplating process onto Spirulina surface to fabricate metal microcoils. Structural parameters of the microcoil can be controlled by the cultivation conditions of Spirulina template and also purely one-handed microcoil can be fabricated. A microcoil dispersion sheet exhibited optically active response attributed to structural resonance in terahertz-wave region.

High GC contents of primer 5'-end increases reaction efficiency in polymerase chain reaction.

Many studies have suggested that regulation of the polymerase chain reaction (PCR) is influenced by several factors. However, the understanding of reaction efficiency factors is not sufficient. Here we propose that high GC contents of primer 5'-end increases reaction efficiency in PCR. Using 71 primers (45 pairs), we analyzed factors that affect reaction efficiency, and statistically tested the correlation between the amplification signals and several factors. As a result, there were significant correlations between the amplification signals and the GC contents in the first 1 approximately 3 bps of primer 5'-end.