紫外线光降解次生地衣物质parietin:天体生物学视角下的多光谱分析

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-22 DOI:10.1016/j.lssr.2024.03.004
Christian Lorenz , Elisabetta Bianchi , Andrew Alberini , Giovanni Poggiali , Renato Benesperi , Alessio Papini , John Robert Brucato
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引用次数: 0

摘要

皮层蒽醌黄橙色色素parietin是一种地衣次生物质,具有屏蔽紫外线的特性,由多个地衣物种产生。在我们的研究中,这种次生代谢物是从风干的副叶黄龙(Xanthoria parietina)毛鳞茎中提取的。这项研究的目的是通过紫外-可见分光光度法和红外光谱法鉴定叶绿素的吸光度,并通过原位反射红外光谱法评估其在紫外线辐射下的光降解性,以了解这种物质在多大程度上可能具有光保护作用。这样,我们就能将地衣在自然陆地栖息地和火星等与天体生物学相关的极端环境中的光降解性与地衣对紫外线的耐受性联系起来。提取的晶体在氮气通量下接受紫外线照射 5.59 小时。紫外线照射后,我们评估了 1614、1227、1202、1160 和 755 cm-1 波段的相关降解情况。然而,鉴于副叶黄素在极端条件(如太空和火星模拟条件)下的生存能力,我们强调了副叶黄素的抗紫外线能力及其作为光保护物质和可能的生物提示对天体生物学的意义。
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UV photo-degradation of the secondary lichen substance parietin: A multi-spectroscopic analysis in astrobiology perspective

The cortical anthraquinone yellow-orange pigment parietin is a secondary lichen substance providing UV-shielding properties that is produced by several lichen species. In our work, the secondary metabolite has been extracted from air-dried thalli of Xanthoria parietina. The aims of this study were to characterize parietin absorbance through UV–VIS spectrophotometry and with IR spectroscopy and to evaluate its photodegradability under UV radiation through in situ reflectance IR spectroscopy to understand to what extent the substance may have a photoprotective role. This allows us to relate parietin photo-degradability to the lichen UV tolerance in its natural terrestrial habitat and in extreme environments relevant for astrobiology such as Mars. Extracted crystals were UV irradiated for 5.59 h under N2 flux. After the UV irradiation, we assessed relevant degradations in the 1614, 1227, 1202, 1160 and 755 cm−1 bands. However, in light of Xanthoria parietina survivability in extreme conditions such as space- and Mars-simulated ones, we highlight parietin UV photo-resistance and its relevance for astrobiology as photo-protective substance and possible bio-hint.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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