期刊,European Journal of Lipid Science and Technology 2022年124卷7期_国家学术搜索

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European Journal of Lipid Science and Technology

Wiley- VCH Verlag GmbH

主办单位：Wiley- VCH Verlag GmbH

国际刊号：1438-7697

European Journal of Lipid Science and Technology/Journal European Journal of Lipid Science and TechnologyISTPSCI

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Physicochemical Properties of Mealworm (Tenebrio molitor Larva) Oil and its Hypolipidemic Effect as a Replacement for Dietary Saturated Fat in Mice

Lee, JinLee, Hae-InLee, Mi-Kyung

7页

查看更多>>摘要：This study analyzes the physicochemical properties of pressed mealworm (Tenebrio molitor larva) oil (PMO) and evaluates the beneficial effects as a replacement for dietary saturated fat. PMO has high contents of unsaturated fatty acids, such as oleic acid and linoleic acid. PMO has a higher gamma-tocopherol content, brighter yellow color, lower rho-anisidine value, and total oxidation value than that of lard or olive oil. The cholesterol content of PMO is lower than that of lard. The quality and stability of PMO are better than those of olive oil and lard. After feeding the mice for 12 weeks a high-fat diet (45% kcal from fat) by replacing the lard with PMO, the serum lipids (free fatty acid and triglyceride), LDL-cholesterol, nonHDL-cholesterol, atherogenic index, and insulin levels are significantly lower than those of the control group. PMO replacement reduces the hepatic lipid contents and lipid droplets compared to the control group, which is mediated by down-regulating the gene expression of the fatty acid uptake (CD36), lipogenesis transcription factors (PPAR gamma and ChREBP), and lipid biosynthesis-related enzymes (SCD1 and FAS). These results suggest that PMO is a good quality oil source with potential as a substitute lipid for saturated animal fat. Practical applications: Although some people are anxious about consuming insects, edible insects are one of the rising alternative food sources. The study suggests that pressed mealworm oil suppresses hyperlipidemia and hepatic steatosis not only by plentiful unsaturated fatty acids but also by affecting the expression of genes related to free fatty acid (FFA) uptake and lipid biosynthesis. The pressed mealworm oil can be successfully used as new edible lipid food ingredients.

原文链接:

NSTL
Wiley

Evaluation of Oxidative Stability of Cupcake Oil: Comparison of Antioxidant Properties of Dracocephalum kotschyi Essential Oil versus TBHQ

Sourki, Abdollah HematianPasalar, HaniehGhani, Askar

10页

查看更多>>摘要：Given the phytochemical properties of Dracocephalum kotschyi, this research considers the effects of adding its essential oil to cupcakes and investigation of the its oil oxidative stability. At first D. kotschyi's essential oil (DKEO) is identified and measured by GC/MS. The results show that the most important components of DKEO are alpha-pinene (25.50%), geranial (14.01%), limonene (12.39%), and neral (11.07%). Chemical analyses on pH, acidity, peroxide value, p-Anisidine value, and total oxidation value (TOTOX) show that increasing the concentration of DKEO reduces the oxidation rate and increases the oxidative stability of the cupcake's oil during storage. Sensory evaluation shows that DKEO used concentration does not have favorable effects on some organoleptic properties of cupcakes. Despite the positive effects of DKEO on maintaining the oxidative stability of cupcake's oil during baking and storage, lower concentrations of it are recommended, along with combinatory usages of this essential oil with other commonly used essential oils in the confectionery industry (such as cinnamon, ginger, and cardamom essential oils), whereby consumers can be gradually accustomed to new flavors. Practical applications: The present study introduces the Dracocephalum kotschyi as a rich source of antioxidants. In the present study, valuable data are presented to compare the application of natural antioxidants of D. kotschyi versus a synthetic antioxidant like tert-butylhydroquinone (TBHQ) in a popular product. In addition, D. kotschyi is introduced as a natural antioxidant potential to the oil industry and oil-dependent food industries, which can not only reduce the nutritional risks of synthetic antioxidants, but also increase the marketability of oil-rich food products.

原文链接:

NSTL
Wiley

Supercritical CO2 Extraction of Carotenoids (Astaxanthin, Adonirubin, and Adonixanthin) from Paracoccus carotinifaciens: Improved Z-Isomer Ratio and Recovery of Carotenoids via High-Temperature Extraction

Honda, MasakiMurakami, KazuyaOsawa, YukikoKawashima, Yuki...

9页

查看更多>>摘要：The effects of high-temperature supercritical CO2 (SC-CO2) extraction on Z-isomerization and recovery of carotenoids (astaxanthin, adonirubin, and adonixanthin) from Paracoccus carotinifaciens are investigated. The high-temperature extraction, especially at >100 degrees C, not only increases the total Z-isomer ratio of carotenoids in the resulting extracts but also improves carotenoid recovery. For example, when the SC-CO2 extraction is performed at 60 degrees C and 30 MPa with an entrainer (ethanol), the total Z-isomer ratio and the recovery of astaxanthin are 11.1% and 28.4%, respectively, whereas at 120 degrees C, the values increase to 54.2 and 56.4%, respectively. The significant improvement in the extraction efficiency of carotenoids at high temperatures can be attributed to the increase in the ratio of carotenoid Z-isomers with high solubility in SC-CO2. Moreover, the effects of extraction pressure and entrainer content on Z-isomerization and recovery of carotenoids are also investigated. The results show that higher pressure and ethanol content resulted in lower Z-isomer ratios and higher recoveries of carotenoids. As the Z-isomers of carotenoids have greater bioavailability and potentially exhibit superior biological activities than the all-E-isomers, high value-added carotenoids, and higher yield can be simultaneously achieved with high-temperature extraction. Practical applications: As carotenoid extraction is usually performed using toxic organic solvents, residual solvents are a serious concern. In addition, naturally occurring carotenoids (mainly the all-E-isomers) have low bioavailability. These are important issues that need to be overcome for the industrial use of carotenoids. The Z-isomer-rich carotenoids obtained by SC-CO2 extraction under high-temperature conditions have great potential to solve these issues simultaneously.

原文链接:

NSTL
Wiley

Sphingosine 1-Phosphate Prevents Human Embryonic Stem Cell Death Following Ischemic Injury

de Assis, Juliane L.Fernandes, Aline M.Pompeu, PedroBanchio, Claudia...

13页

查看更多>>摘要：Cell therapy based on humanembryonic stem cells (hESCs) is a potential treatment for several human diseases caused by ischemic processes. Efficiency and feasibility of these therapies rely on understanding stem cell biology and the interaction and survival of these cells within the injured tissue. hESCs are an important source of diffusible bioactive paracrine modulators and the targets for different signaling molecules that prime cellular tissue repair. Notably, sphingosine 1-phosphate (S1P) is an emerging bioactive lipid that activates G protein-coupled receptors, known as S1P receptors (S1PR1-5), promoting cell survival, differentiation, and migration. It is shown that S1P increases cell viability and prevents death in about 50% after the ischemic insult. S1P-mediated protectiveeffect is attributed to the modulation of S1PR3 and S1PR4 expression, which have been associated with the reperfusion injury salvage kinase/survivoractivating factor enhancement (RISK/SAFE) pathway. Involvement of the SAFE pathway is further verified by applying Janus Kinase (JAK2) and signal transducer and activation of transcription 3 pathway inhibitors, which prevents the S1P protective effect. An increase in sphingosine kinase (SphK) activity is also observed after S1P pretreatment. These results provide evidence for an S1P-dependent, SphK positive feedback that stimulates hESCs to deliver large amounts of S1P. Thus, S1P protects hESC under ischemic conditions through the different receptors. Practical Applications: It is considered that S1P can be used as an adjuvant to pretreat hESCs prior to the administration in cell therapy-based protocols for different diseases.

原文链接:

NSTL
Wiley

Influence of Minor Oil Components on Sunflower, Rice Bran, Candelilla, and Beeswax Oleogels

Scharfe, MariaNiksch, JonasFloeter, Eckhard

19页

查看更多>>摘要：The impact of the solvent composition on wax oleogels is addressed by (1) increasing polar components (PC) in sunflower and canola oil through thermal treatment and (2) removing minor components from untreated oils by column chromatography. Subsequently, oleogels are produced at 0.05 and 10 degrees C min(-1) using 4% or 10% w/w of either sunflower, rice bran, candelilla, or beeswax. Oleogels firmness, break-up behavior during amplitude sweeps, and gelation and dissolution are studied using penetration tests, rheology, and differential scanning calorimetry (DSC), respectively. Moreover, the crystal morphology of 4% w/w samples, gelled at 10 and 0.05 degrees C min(-1), is studied using bright field microscopy. Distinct effects caused by the presence or absence of PCs on the characteristics mentioned above are observed, depending on the wax type. The formation of highly ordered wax crystal structures is favored in oils without PCs and low cooling rates. Data on gel formation and dissolution reveal a decrease in wax solubility in the absence of PCs. In contrast, the critical gelation concentration (CGC) decreases when PCs are present, independent of their concentration, indicating that PCs aid network formation. Moreover, the break-up behavior during oscillatory stress is significantly different, leading to more network fragments and higher energy dissipation with increasing strain. Practical applications: It is found that the oil composition, in particular, the fatty acid composition of TAGs and dissolved minor polar oil components, profoundly affect wax oleogel properties. Although not all mechanisms leading to these changes can be unraveled within this study, a fundamental understanding of solvent composition's role on oleogel formation, dissolution, and network properties is vital in the light of product applications. Moreover, trustworthy and comparable oleogel research can only be achieved if the impact of solvent composition is considered in experiments. That way, the capability of oleogels for industrial applications might be maximized. For that, a detailed characterization of oil quality, particularly the fatty acid composition and presence of minor polar components, is required to conduct reliable scientific work in oleogel research.

原文链接:

NSTL
Wiley

Role of Maillard Reaction Products as Antioxidants in Washed Cod and Washed Turkey Muscle Oxidized by Added Hemoglobin

Liu, LingYin, JieRichards, Mark P.

7页

查看更多>>摘要：The ability of Maillard reaction products (MRPs) to inhibit hemoglobin (Hb)-mediated lipid oxidation is examined in washed cod muscle (WCM) and washed turkey breast muscle (WTM). Lipid peroxides and thiobarbituric acid reactive substances (TBARS) are used as markers of primary and secondary lipid oxidation products, respectively. MRPs inhibits Hb-mediated lipid oxidation in WCM (p < 0.01) but are weakly inhibitory in WTM. alpha-tocopherol concentration is 24-fold greater in WCM compared to WTM. The elevated alpha-tocopherol content of WCM may partly explain the enhanced antioxidant effectiveness of MRPs in WCM, noting that MRPs and alpha-tocopherol act synergistically in the scavenging of free radicals. MRPs are more effective in inhibiting lipid oxidation in WCM at pH 6.6 compared to lower pH values. Antioxidant effectiveness of MRPs diminishes when stored refrigerated but not with frozen storage. MRPs obtained by 3 h heating contains more Maillard reaction intermediates than 2 h heating, which better inhibits LOOH formation (p < 0.01). These intermediates decrease faster during refrigerated compared to frozen storage. These studies suggest elevated pH and sufficient endogenous tocopherols are required for low concentrations of MRPs to protect highly unsaturated lipid in washed muscle from oxidation by hemoglobin. Practical Applications: This study shows that the maillard reaction products (MRPs) can be used to inhibit the oxidation of tocopherol-rich meat products, and the MRPs stored in the frozen condition for a certain period also have antioxidant activity.

原文链接:

NSTL
Wiley

Oxidative Stability of Oil Obtained from a Low-Erucic Acid Pennycress (Thlaspi arvense L.) Mutant with Potential for Food Use

Buck, Sabrina P.Pegg, Ronald B.Tyl, Catrin

6页

查看更多>>摘要：The oilseed cover crop field pennycress (Thlaspi arvense L.) can be grown during the off-season for summer crops such as corn and soybeans. However, high erucic acid contents make oil from wild-types unsuitable for human consumption. Recent breeding efforts now offer a mutant strain (fae1-rod1 pennycress) with an altered fatty acid composition. In this study, fae1-rod1 pennycress oil is assessed for its fatty acid profile and tocopherol contents using gas chromatography and normal phase high-performance lipid chromatography, respectively. Oils are incubated at 30, 40, and 50 degrees C, and changes in the peroxide value (PV), para-anisidine value (pAV), and free fatty acid (FFA) content are monitored. FFA contents of all samples remained pAVs rapidly increase in oils stored at 50 degrees C. The pAVs of oils stored at 40 degrees C only differ to those of fresh oil after day 15 and are significantly lower than of oil stored at 50 degrees C throughout storage. PVs remain <15 when stored at 30 degrees C up to day 54. Pseudo-first order rate constants to model PV increase are used to generate an Arrhenius plot. The activation energy is estimated as 68 kJ mol(-1), comparable to other culinary oils. Practical applications: There is interest in cultivating oil from pennycress seeds for use in foods. Its cultivation could have environmental benefits, e.g., reduce soil erosion, improve nitrogen sequestration, and provide nutrients for pollinators in the spring. However, the wild-type strain is high in erucic acid, which potentially elicits toxic effects when ingested. Fae1-rod1 mutant strains contain only traces of erucic acid, but little is known about pennycress oils in general and characteristics related to food use of fae1-rod1 oils in particular. To the best of the authors' knowledge, this is the first study predicting fae1-rod1 storage stability. The data reported here can be used by processors and consumers to estimate the time interval during which cold-pressed fae1-rod1 pennycress oil can be expected to maintain its quality attributes at ambient temperature, provided it is stored appropriately, e.g., protected from light.

原文链接:

NSTL
Wiley

Ammonium Sulfate and Repeated Freeze-Thawing Recover Oil from Emulsion Separated from Salmon Skin Hydrolysate

Nilsuwan, KrisanaChantakun, KasidateZhang, BinMa, Lukai...

9页

查看更多>>摘要：Emulsion separated by a disk stack centrifugal separator is the leftover from salmon skin hydrolyzed collagen production, in which oil can be recovered for further uses. Impacts of ammonium sulfate (AS) at different levels (0-10%, w/w) and freeze-thawing with various cycles (0-7) on destabilization of emulsion separated from salmon skin (Oncorhynchus nerka) hydrolysate and quality of recovered oil are investigated. Emulsion added with AS shows larger oil droplet size (p < 0.05) with lower negative charge (p< 0.05). Oil yield and recovery are increased (p < 0.05) with augmenting concentrations of AS and freeze-thawing cycles. Highest yield (4.01%) and recovery (87.36%) (p < 0.05) are obtained for oil recovered from emulsion added with 10% AS in conjunction with freeze-thawing for three cycles. Oils recovered from emulsion added with AS (0-10%) and freeze-thawed for 0 and 3 cycles show no differences in hydrolysis, oxidation, and astaxanthin content (5.19-5.62 mg kg(-1) oil). Furthermore, no marked differences in fatty acid composition and FTIR spectra are observed. Therefore, the use of 10% AS in conjunction with freeze-thawing (3 cycles) is a promising means for recovery of oil from emulsion, which can be an alternative source of nutraceutical.

原文链接:

NSTL
Wiley

Catalytic Synthesis of Methyl 9,10-dihydroxystearate from Technical Feedstocks in Continuous Flow via Epoxidation and Hydrolysis

Vondran, JohannaBenninghoff, TobiasEmminghaus, Anahita IreneSeidensticker, Thomas...

7页

查看更多>>摘要：The sequence of the homogeneously Ru-catalyzed epoxidation of methyl oleate and acid-catalyzed hydrolysis of the corresponding epoxide methyl 9,10-epoxy stearate is successfully transferred from batch into flow mode, allowing for the continuous production of methyl 9,10-dihydroxystearate. Thereby, methyl oleate is first converted up to 97% within 14 min at excellent selectivity in the epoxidation using aqueous hydrogen peroxide as the sole oxidant. In the subsequent hydrolysis, a residence time of 10 min is sufficient for quantitative conversion of the epoxide. The desired, pure vicinal diol is isolated upon crystallization from the crude reaction mixture in an integrated process starting from technical grade (91.5%) substrate. The isolated yield is increased upon the addition of water as a green antisolvent from 75% up to 97%. Finally, the concept is transferred to methyl oleate of even lower purity (76%), still obtaining an isolated yield of 66% of the vicinal diol. Thus, the integration of sequential epoxidation and hydrolysis into continuous flow and subsequent crystallization allows for high conversion and selectivities within a total residence time of 27 min, corresponding to a space-time yield of 190 g h(-1) L-1 in the epoxidation and 164 g h(-1) L-1 in the hydrolysis, respectively. Practical applications: The modular flow setup enables the targeted functionalization toward the epoxide intermediate or the vicinal diol. Both offer versatile applications for the production of polymers, surfactants, or toward further conversion as in oxidative cleavage starting from methyl oleate. The application of flow chemistry offers advantages for the safe handling of hydrogen peroxide even at high temperatures. With fats and oils being natural substances, oleochemicals such as fatty acid methyl esters are typically available in technical purity so that efficient strategies for the isolation of pure products are of need. Crystallization of the product is promising, as additional organic solvents are not required. Thus, using the difference in melting point and solubility behavior of the desired product compared to other compounds is a promising method for the applicability of renewable resource-based substrate mixtures.

原文链接:

NSTL
Wiley

Compositional Differences between Preterm Milk of Different Gestational Ages with the Term Milk: A Comparative Lipidomic Study by LC-MS/MS

Zhao, Ying-chunZhang, YingYan, Dong-yongDong, Ping...

11页

查看更多>>摘要：Human milk lipids have important biological effects on recipient infants. The objective of this study is to comprehensively describe lipidomic differences between preterm milk of different gestational ages and term milk over the course of lactation. Colostrum (<5 d postpartum, n = 20 for very preterm [VPT], n = 20 for moderately preterm [MPT] and n = 30 for full-term [FT]) and mature milk (at four weeks postpartum, n = 11 for extremely preterm [EPT], n = 23 for VPT, n = 21 for MPT, and n = 25 for FT) are collected from 88 mothers who had delivered premature babies and 39 who had delivered term infants. It is found that the relative abundance of 10 out of 43 lipid subclasses are persistently higher in preterm milk than in term milk over the course of lactation. Diacylglycerol and fatty acid ester of hydroxyl fatty acid (FAHFA) lipid classes contribute most to the differences. The ten individual lipid species differing most significantly between VPT and FT colostrum are mainly part of the phosphatidylethanolamine and diacylglycerol groups. Levels of lipid species from the FAHFA class are significantly higher in both EPT and VPT mature milk than in their FT counterpart. The lipids in preterm and term milk show substantial differences, which may be critical for postnatal growth.

原文链接:

NSTL
Wiley