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各种天然的咖啡酸衍生物在防止饲料收获后蛋白质损失中的功效。

Efficacy of various naturally occurring caffeic acid derivatives in preventing post-harvest protein losses in forages.

机构信息

US Dairy Forage Research Center, ARS, USDA, Madison, WI 53706, USA.

出版信息

J Sci Food Agric. 2013 Jan;93(2):219-26. doi: 10.1002/jsfa.5781. Epub 2012 Jul 6.

DOI:10.1002/jsfa.5781
PMID:22777944
Abstract

BACKGROUND

In red clover, oxidation of endogenous o-diphenols by polyphenol oxidase (PPO) inhibits post-harvest proteolyis. This system is transferable to alfalfa by providing PPO (via a transgene) and o-diphenol PPO substrates (via exogenous application). To exploit the PPO system for protein protection, it would be advantageous to produce PPO substrates in alfalfa, which lacks them. We assessed the extent of PPO-mediated proteolytic inhibition by phenolic compounds, especially those whose biosynthesis could be engineered into alfalfa.

RESULTS

Tested compounds included o-diphenols (caffeic acid, phaselic acid, chlorogenic acid, clovamide) and monophenols (p-coumaric acid, p-coumaroyl-malic acid). In the presence of PPO, 2 mmol o-diphenol g⁻¹ protein reduced 24 h proteolysis 68-87% (P < 0.001) and as little as 0.25 mmol g⁻¹ protein still decreased 24 h proteolysis 43-60% (P < 0.001). At high concentrations, clovamide inhibited 24 h proteolysis 50% (P < 0.001) in the absence of PPO, likely due to non-PPO oxidation. Monophenol p-coumaric acid did not inhibit 24 h proteolyis, although high levels of its malate ester did exhibit PPO- and oxygen-independent inhibition (37%, P < 0.001).

CONCLUSIONS

For PPO-mediated proteolytic inhibition, pathways for both phaselic acid and chlorogenic acid may be good targets for engineering into alfalfa. Clovamide may be useful for inhibiting proteolysis without PPO.

摘要

背景

在红三叶草中,多酚氧化酶(PPO)氧化内源性邻二酚会抑制收获后的蛋白水解。通过提供 PPO(通过转基因)和邻二酚 PPO 底物(通过外源应用),该系统可转移到紫花苜蓿。为了利用 PPO 系统保护蛋白质,在缺乏 PPO 底物的紫花苜蓿中生产 PPO 底物将是有利的。我们评估了酚类化合物,特别是那些可以通过工程设计到紫花苜蓿中的酚类化合物,对 PPO 介导的蛋白水解抑制的程度。

结果

测试的化合物包括邻二酚(咖啡酸、phaselic 酸、绿原酸、氯酰胺)和单酚(对香豆酸、对香豆酰基苹果酸)。在 PPO 的存在下,2mmol 邻二酚 g ⁻¹ 蛋白减少 24 小时蛋白水解 68-87%(P < 0.001),而低至 0.25mmol g ⁻¹ 蛋白仍减少 24 小时蛋白水解 43-60%(P < 0.001)。在高浓度下,氯酰胺在没有 PPO 的情况下抑制 24 小时蛋白水解 50%(P < 0.001),可能是由于非 PPO 氧化。单酚对香豆酸并没有抑制 24 小时蛋白水解,尽管其苹果酸酯的高水平表现出 PPO 和氧气独立的抑制作用(37%,P < 0.001)。

结论

对于 PPO 介导的蛋白水解抑制,phaselic 酸和绿原酸的途径可能是工程设计到紫花苜蓿的良好目标。氯酰胺可能在没有 PPO 的情况下用于抑制蛋白水解。

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