Aspects of the binding of acyclic carotenoids to flabelliferins from palmyrah fruit pulp

Vidyodaya Journal of Science Pub Date : 2012-01-24 DOI:10.31357/VJS.V14I2.145

A. Uluwaduge, P. Jayaweera, N. Ileperuma, E. Jansz, M. Thabrew

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Abstract

The fruit pulp of palmyrah ( Borassus flabellifer) contains flabelliferins which are glycosides of β-sitosterol. Naturally bound to flabelliferins is an UV active compound, phvtofluene, which affects biological activity. This UV active compound shows intense blue fluorescence and can be dissociated from flabelliferins. The objectives of this study were to determine the main carotenoid binder to flabelliferin-II (F-II, a tetraglycoside) in a sample of PFP from Kalpitiya, Sri Lanka by HPLC and some of the chemical features of this complex (F-II+ carotenoid binder). HPLC studies showed that the major binder to F-II in a sample of PFP from Kalpitiya was phytofluene. No correlation was found between the stoichiometry of binding of phytofluene and F-II (r 2 =0.406) as well as for Fb (r 2 =0.007) indicating that the binding ratios of phytofluene with F-II or Fb are not constant in different PFP samples tested. Computational calculations(- ΔΔ H f /KJ mol -1 ) suggest that binding is less stable between F-II and phytofluene compared to the other flabelliferins tested. This was probably due to phytofluene distorting the conformation of the carbohydrate moiety of F-II. Computer modeling provided confirmatory evidence for this assumption. Key Words : Palmyrah; Borassus flabelifer ; Flabelliferins Vidyodaya Journal of Science Vol.14(2) 47-57

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棕榈果肉中无环类胡萝卜素与松脂素结合的研究

棕榈果(Borassus flabellifer)果肉含有棕榈素，它是β-谷甾醇的糖苷。自然结合的黄芪素是一种紫外线活性化合物，苯芴，影响生物活性。这种紫外线活性化合物显示出强烈的蓝色荧光，并能与黄花素解离。本研究的目的是用高效液相色谱法测定斯里兰卡Kalpitiya PFP样品中flabelliferin-II (F-II，一种四糖苷)的主要类胡萝卜素结合剂，以及该复合物(F-II+类胡萝卜素结合剂)的一些化学特征。高效液相色谱法研究表明，在Kalpitiya PFP样品中，与F-II的主要粘合剂是phytofluene。在不同的PFP样品中，phytofluene与F-II (r 2 =0.406)和Fb (r 2 =0.007)结合的化学计量学没有发现相关性，这表明phytofluene与F-II或Fb的结合比率不是恒定的。计算计算(- ΔΔ H f /KJ mol -1)表明，与测试的其他flabelliferins相比，f - ii与植物fluene之间的结合不太稳定。这可能是由于植物流感扭曲了F-II的碳水化合物部分的构象。计算机模拟为这一假设提供了确凿的证据。关键词:巴尔米拉;松果;科学学报，Vol.14(2): 47-57

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Vidyodaya Journal of Science

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