“Lipid Nutrition Guidelines: A Comprehensive Analysis” by Harumi Okuyama, Sheriff Sultan, Naoki Ohara, Tomohito Hamazaki, Peter H. Langsjoen, Rokuro Hama, Yoichi Ogushi, Tetsuyuki Kobayashi, Shunji Natori, Hajime Uchino, Yoko Hashimoto, Shiro Watanabe, Kenjiro Tatematsu, Daisuke Miyazawa, Mikio Nakamura and Kentaro Oh-hashi

This book, “Lipid Nutrition Guidelines: A Comprehensive Analysis” by Professor Harumi Okuyama et al [...]

Lipid nutrition of sheep

The analysis of literature and personal research data on the role of lipids and their individual fatty acids in the nutrition of sheep has been presented. Experimental data indicate a positive effect of lipids on the body of sheep. However, the question of lipid nutrition is poorly studied, which explains the lack of scientifically based standards for the content of raw fat in sheep diets in general and of individual saturated and unsaturated fatty acids, in particular, which leads to an overrun of the most expensive and deficient component of the diet — protein, as well as negatively affects the productivity of animals and the quality of wool, meat and dairy products. A significant amount of data is devoted to the characterization of lipids and their individual fatty acids in various feeds. In particular, it has been shown that plant seeds (wheat, barley, oats, peas) mostly contain structural lipids (phospholipids, glycolipids) in which linoleic (C18:2) acid, which is the parent of acid family ω-6, predominates quantitatively (from 45 to 61%). The amount of linoleic (C18:2) acid does not exceed 7%, and it is a representative of acid family ω-3. This acid and ω-9 are precursors of various biologically active substances, in particular prostaglandins, leukotrienes, platelets and others. It is emphasized that with the increase in the ω-3 fatty acids in the diets of animals, the spectrum of fatty acids of lipids in tissues and organs changes in the direction of increasing their unsaturation, and therefore, the ratio of ω-6/ω-3 acids in the diets should be taken into account for the normal provision of the body with polyunsaturated fatty acids. It is known that the body of sheep is characterized by high requirements for mineral nutrition, which is associated with their products, in particular wool, and among the whole spectrum of mineral elements a special role belongs to Sulfur, whose content in wool is 3–5%. Therefore, the synthesis of keratin is inextricably linked to the intensive use of sulfur-containing compounds, mainly cystine. Our studies have shown that the increase in productivity under the influence of feeding sheep with sulfo-containing compounds is closely related to lipid metabolism, in particular phospholipids, since in sulfate sulfur experiments in vitro particularly the sulfolipid fraction is intensively incorporated into polar skin-lipids. Sulfur-containing compounds stimulate the synthesis of lipids and fatty acids in the body and this is due to the fact that Sulfur is a part of proteins, lipids, vitamins and other biologically active substances.

Effects of superheated steam processing on common buckwheat grains: Lipase inactivation and its association with lipidomics profile during storage

Background: Buckwheat deteriorates easily during storage, resulting loss of nutrients, rancidity flavor and poor consumer acceptability. Superheated steam (SS) was used to inactivate lipase of common buckwheat grains in this study, in order to retard lipid hydrolytic rancidity and maintain lipid nutrition of common buckwheat.Methods: Buckwheat grains were treated with SS at 110-200°C, for 0-7 min and SS treatment parameters were optimized by moisture content and lipase activity. The changes in free fatty acid (FFA) and lipase activity of SS-treated and untreated buckwheat during 12 weeks storage at 4°C, 25°C and 50°C were determined. Meanwhile, the effects of SS treatment on fatty acid compositions and lipidomics profile of buckwheat before and after storage were also evaluated. Moreover, the associations of hydrolytic rancidity with lipase activity and lipidomics profile were analyzed.Results: SS processing at 170 °C for 5 min was proved to be an effective method for buckwheat stabilization. Better stabilities based on lower FFA accumulation and lipase activity were observed in SS-treated buckwheat samples during storage. Meanwhile, SS could suppress oxidation of unsaturated fatty acids (UFA) in buckwheat, significantly retard the increase of saturated fatty acids (SFA) and the decrease of polyunsaturated fatty acids (PUFA) during storage. Moreover, the lipidomics profile results indicated that SS processing could retard the increased hydrolysis and oxidation of sulfoquinovosyl diacylglycerol (SQDG), phosphatidylethanolamine (PE), phosphatidylserine (PS) and lysophosphatidic acid (LPA) during storage.Conclusion: Thus, SS processing could effectively inactivate lipase, suppress UFA oxidation, change glycerolipids (GLs) and glycerophospholipids (GPs) subclass metabolism, and consequently retard hydrolytic rancidity and lipid nutrition loss of buckwheat during storage. This work was first time to demonstrate the application of SS processing for the effective quality control of buckwheat during storage.