Hydroponic Systems for Arabidopsis Extended to Crop Plants

Urban Horticulture - Necessity of the Future Pub Date : 2019-09-11 DOI:10.5772/intechopen.89110

L. Griffing, Krishna Kumar

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Abstract

When using Arabidopsis grown hydroponically for gene and drug discovery, a method for translating this approach to crop (and weed) species needs articulation and investigation. In this review, we describe existing inexpensive, frequently aseptic, hydroponic systems for Arabidopsis and compare them to other hydroponic methods for gene and drug discovery in crop plants. Besides gene and drug discovery, an important use of hydroponic analysis is for understanding growth in controlled, enclosed systems, such as during spaceflight and in simulated extra-terrestrial environments. When done initially with Arabidopsis, will these results apply to the growth of other species? We highlight the strengths and weaknesses of existing translational hydroponic approaches whereby results with Arabidopsis extend to other plant species. We find that the existing or slightly modified hydroponic approaches used in Arabidopsis research extend well to crop plants that grow upright about 40 cm in height, e.g., monocots, such as rice, and dicots, such as soybean. However, other, taller species such as maize, or vining species such as tomato, require extensive modification to provide larger enclosures and root stabilization.

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拟南芥水培系统推广到作物

当利用水培拟南芥进行基因和药物发现时，将这种方法转化为作物(和杂草)物种的方法需要阐明和研究。在这篇综述中，我们描述了现有的廉价的、经常无菌的拟南芥水培系统，并将它们与其他水培方法在作物植物中进行基因和药物发现的比较。除了发现基因和药物外，水培分析的一个重要用途是了解受控封闭系统中的生长，例如在航天飞行和模拟的地外环境中。当最初用拟南芥做实验时，这些结果是否适用于其他物种的生长?我们强调了现有的平移水培方法的优点和缺点，从而将拟南芥的结果扩展到其他植物物种。我们发现，拟南芥研究中使用的现有或稍微改进的水培方法可以很好地扩展到直立生长约40厘米高的作物，例如单子叶植物，如水稻，和双子叶植物，如大豆。然而，其他较高的物种，如玉米，或葡萄品种，如西红柿，需要大量的改造，以提供更大的外壳和根系稳定。

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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Urban Horticulture - Necessity of the Future

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