Salazar Carolina, Jones Michael D, Sturtevant Drew, Horn Patrick J, Crossley Janna, Zaman Khadiza, Chapman Kent D, Wrona Mark, Isaac Giorgis, Smith Norman W, Shulaev Vladimir
Department of Biological Sciences, College of Arts and Sciences, The University of North Texas, Denton, TX, 76203, USA.
Analytical and Environmental Sciences, School of Biomedical Sciences, King's College, London, SE1 9NH, UK.
Rapid Commun Mass Spectrom. 2017 Apr 15;31(7):591-605. doi: 10.1002/rcm.7825.
Refined cottonseed oil has widespread applications in the food and chemical industries. Although the major lipids comprising cottonseed oil (triacylglycerols) are well known, there are many diverse lipid species in cotton seeds that occur at much lower levels and have important nutritional or anti-nutritional properties.
The lipid technical samples were prepared in chloroform. The biological samples were extracted using a mixture of isopropanol/chloroform/H O (2:1:0.45). The data were collected using high and low collision energy with simultaneous data collection on a time-of-flight (TOF) mass spectrometer which allowed the characterization of lipids by precursor and product ion alignment. The supercritical fluid chromatography methodology is flexible and can be altered to provide greater retention and separation. The comprehensive method was used to screen seed lipid extracts from several cotton genotypes using multivariate statistical analysis.
Method variables influencing the peak integrity and chromatographic separation for a mixture of lipids with different degrees of polarity were explored. The experiments were designed to understand the chromatographic behavior of lipids in a controlled setting using a variety of lipid extracts. Influences of acyl chain length and numbers of double bonds were investigated using single moiety standards.
The methodology parameters were examined using single moiety lipid standards and standard mixtures. The method conditions were applied to biological lipid extracts, and adjustments were investigated to manipulate the chromatography. Insights from these method variable manipulations will help to frame the development of targeted lipid profiling and screening protocols. Copyright © 2017 John Wiley & Sons, Ltd.
精炼棉籽油在食品和化工行业有着广泛应用。尽管构成棉籽油的主要脂质(三酰甘油)广为人知,但棉籽中存在许多种类各异的脂质,其含量要低得多,且具有重要的营养或抗营养特性。
脂质技术样品用氯仿制备。生物样品用异丙醇/氯仿/H₂O(2:1:0.45)的混合物提取。数据在飞行时间(TOF)质谱仪上通过高、低碰撞能量同时采集,这使得能够通过前体离子和产物离子比对来表征脂质。超临界流体色谱方法具有灵活性,可以进行改变以实现更大的保留和分离效果。采用综合方法,通过多元统计分析筛选几种棉花基因型的种子脂质提取物。
研究了影响不同极性脂质混合物峰完整性和色谱分离的方法变量。设计这些实验是为了在可控条件下,使用多种脂质提取物了解脂质的色谱行为。使用单一组分标准品研究了酰基链长度和双键数量的影响。
使用单一组分脂质标准品和标准混合物对方法参数进行了研究。将方法条件应用于生物脂质提取物,并研究了调整方法以操控色谱分离。这些方法变量操作所获得的见解将有助于制定针对性的脂质谱分析和筛选方案。版权所有© 2017约翰威立父子有限公司。
