He–Ne laser influenced actin filaments alleviate the damage of UV-B in wheat

This work investigated the use of a He?Ne laser in alleviating the damaging effects of ultraviolet-B (UV-B) radiation on wheat seedlings by influenced actin filaments. Triticum aestivum seedlings were irradiated with either enhanced UV-B (10.08?KJ?m?2?d?1) or a combination of UV-B light and the He?Ne laser. Plants were also exposed to the He?Ne laser alone. In order to compare the effect of the He?Ne laser, red light (same power and wavelength as the He?Ne laser) treatment and the combined UV-B and red light treatment were added. Moreover, wheat seedlings were treated with actin special drugs, including cytochalasin B (CB) and jasplakinolide (JAS). We analyzed the growth of the seedlings, the distribution of actin filaments (AFs), DNA laddering and ACTIN expression in the different groups. The results showed that enhanced UV-B produced negative effects on the growth of wheat seedlings while implementing the He?Ne laser partially alleviated the injury. With the red light treatment, there are no positive effects. The ACTIN expression stayed the same in the different treatments, while the distribution and the protein content are different. The Fourier transform infrared (FTIR) microspectroscopic results further established significant changes in the chemical composition of the wall material. These results suggested that the He?Ne laser alleviated the damaging effects of UV-B radiation in wheat seedlings by changing the characteristics of the AFs.