FTIR-ATR based fingerprinting and chemometrics analysis of metabolites profile of Phyllanthus niruri L. affected by fertilization with NPK-chitosan nanopolymer and harvesting age

Q3 Medicine Herba Polonica Pub Date : 2022-06-01 DOI:10.2478/hepo-2022-0012
S. Shiyan, Jessica Nathasia Lt, Indah Nur Safitri, Tri Wahyudatama, Ramadhan, Eva Qurniasi
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引用次数: 2

Abstract

Summary Introduction: Phyllanthus niruri L. (PnL) is a herbaceous plant containing flavonoid quercetin and can be used as an immunomodulator to prevent Covid-19. However, the flavonoid content and yield of herbs extract were not maximized. Therefore, PnL herbs were planted in various harvest periods and application of NPK-chitosan nanopolymer fertilizer to estimate these parameters. Objectives: Determine the effect of NPK-chitosan nanopolymer fertilizer and harvesting age on herb extracts also determine the grouping pattern and correlation between responses based on FTIR-ATR spectral pattern using a chemometric approach. Methods: Each group consisted of 50 plants. The formulation of NPK-chitosan nanopolymer fertilizer based on the dose of NPK consisting of the first dose is 15.5 grams/group, the second dose is 31 grams/group, and the third dose is 7.5 grams/group. Grouping of differences in harvesting age for plants consisted of 4, 6, and 8 weeks after the plant (WAP). Extraction used ultrasound-assisted extraction, and data were analyzed using a chemometric approach. Results: Extract with the highest yield was found in second harvest time and third doses of fertilizer (W2D3) which is 9.73 %, and the highest TFC obtained in an extract with second harvest time and first doses of fertilizer (W2D1) is 17.34 mg QE/g. Total flavonoid content and extract yield were influenced by functional groups at wavenumbers 3486.77–3157.12 cm−1 (1); 1740.96–1670.34 cm-1 (3); 1425.02–1272.62 cm-1 (5); 1257,753–1138,81 cm−1 (6); 1131.38–945.53 cm-1 (7); 711.36–529.23 cm-1 (8). Conclusions: The results showed that harvest time and fertilizer dose affected the growth parameters of PnL, total flavonoid content, and yield of extract. Functional groups in IR spectra also have positive and negative correlations with total flavonoid and yield extract responses.
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基于FTIR-ATR的指纹图谱和化学计学分析NPK-壳聚糖纳米聚合物对下珠代谢产物谱和收获年龄的影响
简介:叶下珠是一种草本植物,含有黄酮类槲皮素,可作为免疫调节剂预防新冠肺炎。然而,黄酮类化合物的含量和草药提取物的产量并没有达到最大。因此,在不同收获期种植PnL草本植物,并施用NPK壳聚糖纳米聚合物肥料来估计这些参数。目的:确定NPK壳聚糖纳米聚合物肥料和收获年龄对草药提取物的影响,并使用化学计量方法基于FTIR-ATR光谱模式确定反应的分组模式和相互关系。方法:每组50株。基于NPK剂量的NPK壳聚糖纳米聚合物肥料的配方包括第一剂量为15.5克/组,第二剂量为31克/组和第三剂量为7.5克/组。植物收获年龄差异的分组包括植物收获后4、6和8周(WAP)。提取使用超声波辅助提取,并使用化学计量方法分析数据。结果:在第二次收获时间和第三次施肥剂量(W2D3)中发现产量最高的提取物,为9.73%,在第二个收获时间和第一次施肥剂量的提取物(W2D1)中获得的最高TFC为17.34mg QE/g。在3486.77–3157.12 cm−1的波数范围内,总黄酮含量和提取物产量受到官能团的影响(1);1740.96–1670.34 cm-1(3);1425.02–1272.62 cm-1(5);1257753–1138,81厘米−1(6);1131.38–945.53 cm-1(7);711.36–529.23 cm-1(8)。结论:收获时间和施肥量对PnL生长参数、总黄酮含量和提取物产量均有影响。红外光谱中的官能团也与总黄酮和产量提取物反应呈正相关和负相关。
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来源期刊
Herba Polonica
Herba Polonica Medicine-Complementary and Alternative Medicine
CiteScore
1.70
自引率
0.00%
发文量
5
审稿时长
14 weeks
期刊最新文献
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