Samuel Zatta, Andrea Calcinoni, Alessandro Agostini, Silvia Leccese, Thomas Onfroy, Claude Jolivalt, Alberto Mezzetti, Marco Bortolus, Donatella Carbonera
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We adopt SBA-15, a silica matrix with well-ordered hexagonal structure with pores of 70 Å of diameter. The triplet formed upon illumination in these systems is studied by time-resolved EPR spectroscopy. Analysis of the EPR spectra shows that the triplet state is very sensitive to the inclusion in the pores of SBA-15 modifying its spin polarization. Chl <i>a</i> in SBA-15 loses its central metal ion, while its structure remains unchanged if the mesoporous silica is previously soaked into a basic solution before Chl<i> a</i> adsorption, as revealed by its zero-field splitting parameters of the triplet state. 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Chl <i>a</i> in SBA-15 loses its central metal ion, while its structure remains unchanged if the mesoporous silica is previously soaked into a basic solution before Chl<i> a</i> adsorption, as revealed by its zero-field splitting parameters of the triplet state. 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引用次数: 0
摘要
叶绿素是光合作用中的关键分子,因为它能够吸收太阳光并启动光化学过程。叶绿素的三重态很容易通过系统间交叉(ISC)从光诱导的单线态激发态填充出来,并能与氧气反应生成单线态氧,这对叶绿素的稳定性构成了威胁,但也为光动力疗法提供了机会。在此,我们重点研究了吸附在介孔二氧化硅基质中的叶绿素 a 和 WSCP(水溶性叶绿素蛋白,一种结合色素的蛋白质)的光物理性质。我们采用的二氧化硅基质是 SBA-15,它具有有序的六边形结构,孔径为 70 Å。我们通过时间分辨 EPR 光谱法研究了这些系统在光照下形成的三重子。对 EPR 光谱的分析表明,三重态对 SBA-15 孔隙中的物质改变其自旋极化非常敏感。如果在吸附 Chl a 之前将介孔二氧化硅浸泡在碱性溶液中,SBA-15 中的 Chl a 会失去其中心金属离子,而其结构则保持不变,这一点可以从其三重态的零场分裂参数中看出。WSCP 很容易被包含在二氧化硅基质中,但其嵌入的色素不再受到蛋白质核心的保护。
Exploring the Triplet State of Chlorophyll a in Mesoporous Silica Matrices by Time-Resolved EPR
Chlorophyll is a pivotal molecule in photosynthesis due to its ability to absorb solar light and start the photochemical process. The chlorophyll triplet state is easily populated from the light-induced singlet excited state via Intersystem Crossing (ISC) and can react with oxygen generating singlet oxygen, posing a threat to the stability of chlorophyll, but also an opportunity for photodynamic therapy. Here, we focus on the study of the photo-physical properties of chlorophyll a and WSCP (Water-Soluble Chlorophyll Protein, a protein binding the pigment), which have been adsorbed in mesoporous silica matrices. We adopt SBA-15, a silica matrix with well-ordered hexagonal structure with pores of 70 Å of diameter. The triplet formed upon illumination in these systems is studied by time-resolved EPR spectroscopy. Analysis of the EPR spectra shows that the triplet state is very sensitive to the inclusion in the pores of SBA-15 modifying its spin polarization. Chl a in SBA-15 loses its central metal ion, while its structure remains unchanged if the mesoporous silica is previously soaked into a basic solution before Chl a adsorption, as revealed by its zero-field splitting parameters of the triplet state. WSCP is readily included in the silica matrix, but its embedded pigments are no longer protected by the protein core.
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Applied Magnetic Resonance provides an international forum for the application of magnetic resonance in physics, chemistry, biology, medicine, geochemistry, ecology, engineering, and related fields.
The contents include articles with a strong emphasis on new applications, and on new experimental methods. Additional features include book reviews and Letters to the Editor.
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