Development of energy plants and their potential to withstand various extreme environments.

Recent patents on DNA & gene sequences Pub Date : 2013-04-01 DOI:10.2174/1872215611307010004

Walid Saibi, Faiçal Brini, Moez Hanin, Khaled Masmoudi

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引用次数: 3

Abstract

Biomass utilization is increasingly considered as a practical way for sustainable energy supply and long-term environment care around the world. In concerns with food security, starch or sugar-based bioethanol and edible-oilderived biodiesel are severely restricted for large scale production. Alternatively, conversion of lignocellulosic residues from food crops could be considered, but due to its recalcitrance, the current biomass process is unacceptably expensive. In this context, genetic breeding of energy crops appears as a promising solution. To fulfil the global world need as both food and biofuel sources, energy crops are expected to be produced with higher yields and especially in marginal lands. This review focus on recent progress and patents dealing with energy plants and the challenges associated with bioenergy development. We also discuss the potential use of molecular approaches including genome sequencing, molecular markers, and genetic transformation for improving specific traits or generating new cultivars of energy plants.

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能源植物的发展及其承受各种极端环境的潜力。

在世界范围内，生物质利用越来越被认为是可持续能源供应和长期环境保护的可行途径。考虑到粮食安全，淀粉或糖基生物乙醇和食用油衍生生物柴油的大规模生产受到严格限制。或者，可以考虑转化粮食作物的木质纤维素残留物，但由于其顽固性，目前的生物质过程是不可接受的昂贵。在这种情况下，能源作物的遗传育种似乎是一个有希望的解决方案。为了满足作为粮食和生物燃料来源的全球需求，能源作物预计将以更高的产量生产，特别是在边际土地上。本文综述了能源植物的最新进展和专利，以及与生物能源开发相关的挑战。我们还讨论了分子方法的潜在用途，包括基因组测序、分子标记和遗传转化，以改善特定性状或产生新的能源植物品种。

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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Recent patents on DNA & gene sequences

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