摘要
Chlorophyll α and β-carotene play an important role in harvesting light energy, which is used to drive photosynthesis in plants. In this study, terahertz(THz) and visible range spectra of chlorophyll α and β-carotene and their changes under light treatment were investigated. The results show that the all THz transmission and absorption spectra of chlorophyll α and β-carotene changed upon light treatment, with the maximum changes at 15 min of illumination indicating the greatest changes of the collective vibrational mode of chlorophyll α and β-carotene. The absorption spectra of chlorophyll α in the visible light region decreased upon light treatment, signifying the degradation of chlorophyll a molecules. It can be inferred from these results that the THz spectra are very sensitive in monitoring the changes of the collective vibrational mode, despite the absence of changes in molecular configuration. The THz spectra can therefore be used to monitor the decomposing process of biological macromolecules; however, visible absorption spectra can only be used to monitor the breakdown extent of biological macromolecules.
Chlorophyll α and β-carotene play an important role in harvesting light energy, which is used to drive photosynthesis in plants. In this study, terahertz(THz) and visible range spectra of chlorophyll α and β-carotene and their changes under light treatment were investigated. The results show that the all THz transmission and absorption spectra of chlorophyll α and β-carotene changed upon light treatment, with the maximum changes at 15 min of illumination indicating the greatest changes of the collective vibrational mode of chlorophyll α and β-carotene. The absorption spectra of chlorophyll α in the visible light region decreased upon light treatment, signifying the degradation of chlorophyll a molecules. It can be inferred from these results that the THz spectra are very sensitive in monitoring the changes of the collective vibrational mode, despite the absence of changes in molecular configuration. The THz spectra can therefore be used to monitor the decomposing process of biological macromolecules; however, visible absorption spectra can only be used to monitor the breakdown extent of biological macromolecules.
基金
supported by the Shandong Provincial Natural Science Foundation, China (ZR2012CM020)
the National Training Programs of Innovation and Entrepreneurship for Undergraduates (201410452012)