A system for the controlled expression of a foreign gene in cultured tobacco cells (Nicotiana tabacum, BY2) by temperature shift was constructed. A 925-base-pair (bp) DNA fragment containing the 5'-flanking region of a low-molecular-mass heat-shock protein gene (HSP18.2) of Arabidopsis thaliana was inserted upstream of the beta-glucuronidase reporter gene (GUS). The resulting HSP18.2-GUS construct was introduced into BY2 cells by electroporation or Agrobacterium-mediated transformation. Transient expression of the HSP18.2 promoter in protoplasts was very low regardless of the heat shock. Although expression of the HSP18.2-GUS chimeric gene in the stable transformants of BY2 was hardly detected in culture at 25 degrees C, the expression increased rapidly on the transcriptional level when the incubation temperature was shifted to 35-37 degrees C. The optimal temperature for heat-shock induction was 37 degrees C. After a 2-h incubation at 37 degrees C, GUS activity was about 1000-fold greater than that before heat shock. The amount of GUS mRNA was maximum 2 h after heat shock, and then decreased gradually.
Methods for regulating peptide conformation by non-harmful light stimuli can be useful for remotely controlling cellular functions in vitro. Here, we synthesized a series of p-heteroatom-substituted azobenzenes and studied their photoisomerization properties. The trans-isomer of p-sulfur-substituted azobenzene was effectively isomerized by visible light irradiation and the cis-isomer was thermally stable at physiological temperature. We developed a novel visible light sensitive amino acid (AZO), via p-sulfur-substituted azobenzene, and utilized it as a photosensitive modulator of the SV40 nuclear localization signal (NLS). The cellular uptake of the AZO-NLS conjugate was controlled by visible light irradiation. Our technology can be utilized for regulating not only the cellular uptake, but also the function of peptides within cells by non-harmful visible light irradiation.
We have developed a soft actuator using an ionic polymer-metal composite (IPMC) composed of gold electrodes deposited using vacuum evaporation. In comparison with the conventional plating deposition, the vacuum evaporation both is a simple fabrication process and is environmentally friendly. We observe how the gold electrodes adhere to the ionic polymer using a cross-sectional scanning electron microscope and confirm the working as a soft actuator by applying voltage. Although the displacement characteristic is not comparable to that of the conventional IPMC, this work is worthwhile because many researchers become able to easily enter into the research field of soft actuators.Index Terms-Gold electrode, ionic polymer-metal composite (IPMC), soft actuator, vacuum evaporation.
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