用XF24分析仪测定古小麦(古小麦)线粒体呼吸参数的新方法

Daniel Schniertshauer, Jörg Bergemann
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引用次数: 0

摘要

了解真菌次生代谢物在侵染过程中对寄主植物线粒体的影响,对于了解真菌与植物的相互作用具有重要意义;它可以帮助在未来产生抗性植物和开发专门的植物保护产品。为此,首先必须有可能记录宿主植物的线粒体参数。截至本协议的日期,没有测量线粒体呼吸参数的小麦被执行。这里显示的方案描述了使用XF24分析仪的测量,该分析仪通过固态荧光团的荧光变化来测量样品中的耗氧量。本程序包括XF24分析仪样品的制备,以及通过添加特定的线粒体抑制剂来测量线粒体参数。它还显示了为获得可靠的、可重复的结果所必须遵循的方法和步骤。这是一个强大的协议,允许分析线粒体呼吸直接在小麦古。它展示了现有筛选的重要补充方法,也提供了测试有害真菌(例如,镰刀菌)早期感染植物对线粒体呼吸参数的影响的可能性。该方案提供了测试病原体早期感染植物对线粒体呼吸参数的影响的可能性。该协议需要一个海马XF24通量分析仪与胰岛捕获微孔板和海马捕获屏幕插入工具。图形的概述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Novel Method for Measuring Mitochondrial Respiratory Parameters in Wheat Paleae (Paleae Superior) Using the XF24 Analyzer.

A Novel Method for Measuring Mitochondrial Respiratory Parameters in Wheat Paleae (Paleae Superior) Using the XF24 Analyzer.

A Novel Method for Measuring Mitochondrial Respiratory Parameters in Wheat Paleae (Paleae Superior) Using the XF24 Analyzer.

A Novel Method for Measuring Mitochondrial Respiratory Parameters in Wheat Paleae (Paleae Superior) Using the XF24 Analyzer.

Understanding the influence of secondary metabolites from fungi on the mitochondria of the host plant during infection is of great importance for the knowledge of fungus-plant interactions in general; it could help generate resistant plants in the future and in the development of specifically acting plant protection products. For this purpose, it must first be possible to record the mitochondrial parameters in the host plant. As of the date of this protocol, no measurements of mitochondrial respiration parameters have been performed in wheat paleae. The protocol shown here describes the measurements using the XF24 analyzer, which measures the rate of oxygen consumption in the sample by changes in the fluorescence of solid-state fluorophores. This procedure covers the preparation of samples for the XF24 analyzer and the measurement of mitochondrial parameters by adding specific mitochondrial inhibitors. It also shows the necessary approach and steps to be followed to obtain reliable, reproducible results. This is a robust protocol that allows the analysis of mitochondrial respiration directly in the wheat paleae. It demonstrates an important add-on method to existing screenings and also offers the possibility to test the effects of early infection of plants by harmful fungi (e.g., Fusarium graminearum) on mitochondrial respiration parameters. Key features This protocol offers the possibility of testing the effects of early infection of plants by pathogens on mitochondrial respiration parameters. This protocol requires a Seahorse XF24 Flux Analyzer with Islet Capture Microplates and the Seahorse Capture Screen Insert Tool. Graphical overview.

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