Anti-black pod disease activity of leaf extract of Carica papaya Linn

Journal of Natural Pesticide Research Pub Date : 2024-05-09 DOI:10.1016/j.napere.2024.100082

Tamekloe Woasiedem , Ishmael Amoako-Attah , Francis Ackah Armah , Isaac Asiamah

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引用次数: 0

Abstract

Background

Theobroma cacao (Cocoa) is a major foreign exchange earner for Ghana. Over the recent decades, there has been a consistent decline in cocoa production in the country. A major contributing factor is the cocoa black pod disease caused by Phytophthora species. Synthetic fungicides have been used to control the pathogens over the years. However, recent calls for organic cocoa devoid of residues from synthetic fungicides, which are known to pose several health challenges as well as a negative impact on the environment, have gained attention. Thus, inviting investigations into more environmentally friendly and sustainable alternatives to synthetic fungicides.

Objective

This study explored the inhibitory potential of crude extract from Carica papaya against cocoa black pod disease caused by Phytophthora spp.

Material and methods

An in-silico study was done using known phytochemicals from Carica papaya as ligands against a Phytophthora effector protein. Crude extracts were obtained from the plant materials using 70 % ethanol as the extraction solvent. The crude Green Leaf Extract (GLE), Aging Induced Chlorophyll Deficient Leaf Extract (AICDLE), and Matured Black Seed Extract (SDE) were tested in-vitro against pre-cultured P. palmivora and P. megakarya using the poison food technique. GLE was modulated with Delco, a synthetic fungicide, at different ratios which were tested in-vitro and in-vivo.

Results

A total of 16 ligands showed binding affinity higher or equal to the standard ligand, alliin, suggesting Carica papaya as a repository of anti-phytophthora agents. Assessment of crude extracts at concentrations 5–20 mg/ml showed fungistatic activity against P. palmivora and P. megakarya in-vitro. Modulation of GLE with Delco produced some combinations that made GLE fungicidal in-vitro against P. palmivora and P. megakarya with fractional inhibition concentration indices between 0.51 and 0.65, interpreted as partially synergistic. The in-vivo assessment of combination D (Delco and GLE in a 0.3 mg:3 mg per ml ratio) performed as well as Delco alone at the recommended dose of 5 mg/ml. Thus, combination D reduces the requirement for copper-based fungicide by over 90 %.

Conclusion

This study shows Carica papaya in a new light as a potential material that could be formulated into a natural product-based fungicide for combating Phytophthora-induced black pod disease.

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木瓜叶提取物的抗黑荚病活性

背景可可（可可）是加纳的主要外汇收入来源。近几十年来，加纳的可可产量持续下降。可可黑荚病是一个主要因素，由疫霉属植物引起。多年来，人们一直使用合成杀菌剂来控制病原体。然而，最近关于不使用合成杀真菌剂残留物的有机可可的呼吁引起了人们的注意，众所周知，合成杀真菌剂残留物会对健康造成一些挑战，并对环境产生负面影响。本研究探讨了木瓜粗提取物对由疫霉属植物引起的可可黑荚病的抑制潜力。使用 70% 的乙醇作为提取溶剂从植物材料中提取粗提物。利用毒食技术对粗绿叶提取物（GLE）、老化诱导叶绿素缺乏叶提取物（AICDLE）和成熟黑籽提取物（SDE）进行了体外试验，以对抗预先培养的棕榈疫霉和巨蝽。结果共有 16 种配体显示出高于或等于标准配体大蒜素的结合亲和力，这表明木瓜是抗嗜肺菌制剂的宝库。对浓度为 5-20 毫克/毫升的粗提取物进行的评估表明，木瓜对棕榈疫霉和巨型疫霉具有体外杀菌活性。GLE 与 Delco 的调节产生了一些组合，使 GLE 在体外对 P. palmivora 和 P. megakarya 具有杀真菌活性，抑制浓度分数指数介于 0.51 和 0.65 之间，可解释为部分协同作用。对组合 D（Delco 和 GLE 以每毫升 0.3 毫克：3 毫克的比例配制）的体内评估结果显示，在 5 毫克/毫升的推荐剂量下，其效果与单独使用 Delco 相同。因此，组合 D 可将铜基杀菌剂的需求量减少 90% 以上。结论这项研究从一个新的角度展示了木瓜作为一种潜在材料的潜力，可将其配制成一种基于天然产品的杀菌剂，用于防治 Phytophthora 引起的黑荚病。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Natural Pesticide Research

CiteScore

2.30

自引率

0.00%

发文量