Secondary metabolites, spectra characterization, and antioxidant correlation analysis of the polar and nonpolar extracts of Bryophyllum pinnatum (Lam) Oken.

Biotechnologia Pub Date : 2024-06-25 eCollection Date: 2024-01-01 DOI:10.5114/bta.2024.139752
Chinyere E Okafor, Ikechukwu K Ijoma, Chiamaka A Igboamalu, Chinaza E Ezebalu, Chukwuemeka F Eze, Jessica C Osita-Chikeze, Chisom E Uzor, Adaugo L Ekwuekwe
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Abstract

Oxidative stress-related pathologies have guided the scientific community into delving into natural product-based research on plant-based metabolites. Plant secondary metabolites serve as a valid alternative in managing oxidative stress-related pathologies. In this study, we present the secondary metabolite constituents of the polar extract (PE) and nonpolar extract (NPE) from the leaves of Bryophyllum pinnatum. These constituents were determined through qualitative and quantitative phytochemical screening. The functional groups and structures of these metabolites were determined based on FTIR and GC-MS experiments, respectively. Antioxidant and free radical scavenging (FRS) activities were determined using standard methods, including phosphomolybdenum, FRAP, DPPH, HRSA, and reducing power assays, with comparisons made to the ascorbic acid (AA) standard. Through Pearson correlation analysis, we estimated the relationship between antioxidant and FRS activities. The DPPH results revealed IC50s of 380.104 ± 0.001, 16.763 ± 0.001, and 7.684 ± 0.003 μg/ml for NPE, AA, and PE, respectively, indicating a trend of PE > AA > NPE. However, all other experiments showed a trend of AA > PE > NPE in antioxidant and FRS activities. These results showed the potential antioxidant and FRS properties of both PE and NPE. Additionally, the correlation analysis indicated a strong positive correlation between the antioxidant and FRS activities of PE and NPE. The research results suggest high antioxidant and FRS activities of PE and validate the use of B. pinnatum in managing free radical-related pathologies.

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奥肯(Bryophyllum pinnatum (Lam) Oken)极性和非极性提取物的次生代谢物、光谱特征和抗氧化相关性分析。
与氧化应激相关的病症引导科学界深入研究以天然产品为基础的植物代谢物。植物次生代谢物是控制氧化应激相关病症的有效替代品。在本研究中,我们介绍了从羽扇豆叶中提取的极性提取物(PE)和非极性提取物(NPE)中的次生代谢物成分。这些成分是通过定性和定量植物化学筛选确定的。根据傅立叶变换红外光谱(FTIR)和气相色谱-质谱(GC-MS)实验分别确定了这些代谢物的官能团和结构。抗氧化和自由基清除(FRS)活性采用标准方法测定,包括磷钼法、FRAP 法、DPPH 法、HRSA 法和还原力测定法,并与抗坏血酸(AA)标准进行比较。通过皮尔逊相关分析,我们估算了抗氧化活性与 FRS 活性之间的关系。DPPH 结果显示,NPE、AA 和 PE 的 IC50 分别为 380.104 ± 0.001、16.763 ± 0.001 和 7.684 ± 0.003 μg/ml,表明趋势是 PE > AA > NPE。然而,所有其他实验都表明,抗氧化和 FRS 活性的趋势是 AA > PE > NPE。这些结果表明 PE 和 NPE 都具有潜在的抗氧化和 FRS 特性。此外,相关分析表明 PE 和 NPE 的抗氧化和 FRS 活性之间存在很强的正相关性。研究结果表明 PE 具有较高的抗氧化和 FRS 活性,并验证了羽扇豆可用于治疗与自由基有关的病症。
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