Plants as industrial chemical factories – new oils from genetically engineered soybeans

A. Kinney
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引用次数: 57

Abstract

The major uses of soybean oils world-wide are for food products such as frying oils, shortenings and margarine. Refined soybean oil is usually chemically hydrogenated to increase storage life, stability during frying, and to increase its melting point for use in solid fat applications. Hydrogenation results in the formation of monounsaturated trans fatty acids, the consumption of which has been associated with an increased risk of coronary heart disease in humans. It is nutritionally desirable, therefore, to produce trans-free soybean oils rich in monounsaturated fatty acids for cooking and trans-free oils rich in stearic and oleic acids for shortenings and margarine. Cloned genes may be introduced into soybeans to create transgenic lines with improved oil traits. The design of transgene constructs has been assisted by the use of soybean somatic embryos in suspension culture as a model system for soybean seed transformation. This system has allowed the selection of the right genes and promoters to achieve the desired phenotypes in transgenic soybeans. By manipulating the expression of fatty acid desaturase genes we have produced lines with 85% oleic acid in their seed oil and lines with up to 30% stearic acid. Commercialization of high-oleic acid transgenic soybeans has demonstrated that it is possible to drastically alter the fatty acid composition of a soybean seed without affecting the yield or environmental sensitivity of the soybean plant. We have demonstrated that high-oleic soybean oil is also useful for non-food applications such as biodegradable lubricants. We have now cloned a number of fatty acid desaturase-related genes from species which produce unusual and industrially useful fatty acids. By expressing these genes it will be possible to produce new fatty acids in soybean seeds, which could potentially replace petrochemicals as raw material for many industrial processes.
植物作为工业化工厂——从转基因大豆中提取的新油
大豆油在世界范围内的主要用途是用于食品,如煎炸油、起酥油和人造黄油。精制大豆油通常经过化学氢化处理,以延长储存寿命,在油炸过程中的稳定性,并提高其熔点,用于固体脂肪应用。氢化导致单不饱和反式脂肪酸的形成,其消耗与人类冠心病风险增加有关。因此,生产富含单不饱和脂肪酸的无反式大豆油用于烹饪,生产富含硬脂酸和油酸的无反式大豆油用于起酥油和人造黄油,这在营养上是可取的。克隆的基因可以被引入大豆中,创造出具有改良油料性状的转基因品系。利用悬浮培养的大豆体细胞胚作为大豆种子转化的模型系统,有助于转基因构建体的设计。该系统可以选择正确的基因和启动子,以实现转基因大豆所需的表型。通过控制脂肪酸去饱和酶基因的表达,我们已经生产出种子油中油酸含量为85%的品系和硬脂酸含量高达30%的品系。高油酸转基因大豆的商业化已经证明,在不影响大豆产量或环境敏感性的情况下,有可能大幅改变大豆种子的脂肪酸组成。我们已经证明,高含油大豆油也可用于非食品应用,如可生物降解的润滑剂。我们现在已经克隆了一些脂肪酸去饱和酶相关的基因,这些基因来自于产生不寻常的和工业上有用的脂肪酸的物种。通过表达这些基因,将有可能在大豆种子中产生新的脂肪酸,这可能取代石油化工产品,成为许多工业过程的原料。
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