Recent Process on the Effect of Sous Vide Cooking Technology on the Quality of Meat Product

Sous vide is a cooking technique under vacuum condition with precisely controlled temperature and time. Compared with traditional cooking methods, sous vide cooking has been widely studied and applied in meat product processing in recent years because it can effectively reduce the loss of nutrients in products, retain the original flavor of food and improve the tenderness of meat products and other advantages. This paper mainly summarizes the effects of different cooking conditions and modes in sous vide cooking technique on the eating quality of meat products. It is pointed out that the appropriate cooking temperature and time can improve the flavor and tenderness, promote nutrient retention, and long periods of heating at low temperature contribute to the safety of meat. Moreover, the significant influence of sous vide cooking combined with other technologies on tenderness and safety of meat products is also summarized. This study provides a theoretical basis for better promoting the application of sous vide cooking technology in the deep processing of meat products and realizing the industrial production of meat products

Roles of C-Repeat Binding Factors-Dependent Signaling Pathway in Jasmonates-Mediated Improvement of Chilling Tolerance of Postharvest Horticultural Commodities

C-repeat binding factor- (CBF-) dependent signaling pathway is proposed to be a key responder to low temperature stress in plant. Jasmonates (JAs), the endogenous signal molecules in plant, participate in plant defense against (a)biotic stresses; however, the mechanism has not been fully clarified so far. With the progress made in JAs biopathway, signal transduction, and their relationship with CBF-dependent signaling pathway, our knowledge of the roles of the CBF-dependent signaling pathway in JAs-mediated improvement of chilling tolerance accumulates. In this review, we firstly briefly review the chilling injury (CI) characteristics of postharvest horticultural commodities, then introduce the biopathway and signal transduction of JAs, subsequently summarize the roles of the CBF-dependent signaling pathway under low temperature stress, and finally describe the linkage between JAs signal transduction and the CBF-dependent signaling pathway

Effects of Drying Methods on Taste Components and Flavor Characterization of <i>Cordyceps militaris</i>

The influences of four drying methods (hot air drying (HAD), vacuum freeze drying (VFD), vacuum drying (VD) and intermittent microwave combined with hot air drying (MW-HAD)) on the taste profile and flavor characteristic of Cordyceps militaris were investigated. MW-HAD samples had the highest levels of umami taste 5′-nucleotides, bitter taste amino acids, and equivalent umami concentration (EUC) value. The aroma fingerprints and differences of dried Cordyceps militaris were established by GC-MS with odor activity values (OAVs) and GC-IMS with principal component analysis (PCA). GC-MS data showed that the predominant volatiles of dried samples were aldehydes, alcohols, and ketones. VFD samples had the highest amount of total aroma compounds and C8 compounds. Moreover, 21 aroma-active components (OAVs ≥ 1) were the main contributors to the flavor of dried Cordyceps militaris. The OAVs of 1-octen-3-one and 3-octanone associated with mushroom-like odor in VFD were significantly higher than other samples. Furthermore, a significant difference in flavor compounds of four dried samples was also clearly demonstrated by GC-IMS analysis with PCA. GC-IMS analysis revealed that VFD samples had the most abundant flavor compounds. Overall, MW-HAD was an effective drying method to promote umami taste, and VFD could superiorly preserve volatiles and characteristic aroma compounds in dried Cordyceps militaris

Effects of Low-Light Stress on Physiological Characteristics of Fruits of Different Muskmelon Varieties

【Objective】The study aims to explore the effects of low-light stress on the main quality characteristics of fruits of different muskmelon varieties.【Method】The content changes of carbohydrates, carotenoids and chlorophyll in different fruit positions (pedicle, areola and pulp) of three varieties (Xizhoumi No. 1, Zaohuanghou and Jiashi) of muskmelon under different light intensities (100%, 42% and 23% transmittance) at different development stages (0, 3, 7, 14, 21, 35, 40, 60 d after blooming) were investigated.【Result】Results showed that contents of fruit starch, sucrose and reducing sugar all increased continuously during fruit development and the highest contents exhibited at mature stage (35 d), and Xizhoumi No. 1 had the highest starch content (10.835%), while Jiashi had the lowest starch content (8.342%). The pulp and areola of the fruits of three varieties showed higher sucrose content than that in pedicle, but no difference in reducing sugar content. The contents of carotenoid and chlorophyll increased during fruit development but decreasedat full ripe stage (60 d after blooming). Low-light stress significantly reduced the carbohydrate content, increased carotenoid and chlorophyll contents, and most significant effect was found under transmittance 23% treatment, under which the contents of starch, sucrose and reducing sugar in Xizhoumi No. 1 muskmelon reduced by 32.3%, 29.87% and 28.02%, while contents of carotene and chlorophyll increased by 19.47% and 13.98%, respectively. The contents of starch, sucrose and reducing sugar in Zaohuanghou muskmelon reduced by 32.63%, 25.09% and 20.24%, and the contents of carotene and chlorophyll increased by 54.74% and 21.06%, respectively. The contents of starch, sucrose and reducing sugar in Jiashi muskmelon reduced by 41.08%, 32.39% and 39.1%, and the contents of carotene chlorophyll increased by 55.20% and 31.79%, respectively. Compared with Xizhoumi No. 1 and Zaohuanghou muskmelons, the Jiashi muskmelon showed the lowest starch and chlorophyll contents and the highest sucrose and reducing sugar contents, and exhibited the most significant decline of starch, sucrose and reducing sugar contents, and increase of carotenoid and chlorophyll contents, indicating that the Jiashi muskmelon was affected most significantly by low-light stress and showed poorest low-light tolerance.【Conclusion】The low-light stress reduces the commercial quality of muskmelon fruits, and the quality is worse when the light transmittance is lower. Jiashi muskmelon is most sensitive to low-light stress

Forchlorfenuron Application Induced Parthenocarpic Fruit Formation without Affecting Fruit Quality of Cucumber

The plant growth regulator forchlorfenuron is often applied to promote fruit setting and development in cucumber production. However, the effect of forchlorfenuron on the appearance and nutritional quality of cucumber is unknown. In the present study, forchlorfenuron was applied to female flowers 1 day before anthesis and at the day of anthesis. The application of forchlorfenuron successfully induced parthenocarpic fruit formation in cucumber. In addition, cytokinin-responsive genes were upregulated under forchlorfenuron treatment. Fruit treated with forchlorfenuron did not differ from pollinated fruit in shape, texture and major nutrients, such as protein, total flavonoids and vitamin C, with the exception of the lower phenolic acid content. Overall, our finding suggests that forchlorfenuron could be vital in promoting the parthenocarpic fruit set without altering the quality of cucumber

Nitric Oxide Extends the Postharvest Life of Water Bamboo Shoots Partly by Maintaining Mitochondrial Structure and Energy Metabolism

Harvested water bamboo shoots can be stored for only a few days before they lose weight and become soft. Nitrogen oxide (NO) and modified atmosphere packaging (MAP) have previously been used to prolong horticultural crop storage. In the present study, we analyzed the joint effect of these two methods on extending the postharvest quality of water bamboo shoots. Water bamboo shoots were treated with (1) 30 &mu;L L&minus;1 NO, (2) MAP, and (3) a combination of NO and MAP. The NO treatment delayed the softness and weight loss through maintaining the integrity of the mitochondrial ultrastructure and enhancing the ATP level by activating the expressions and activities of succinic dehydrogenase, malic acid dehydrogenase, and cytochrome oxidase. MAP improved the effect of NO on the mitochondrial energy metabolism. These results indicate that NO and MAP treatments are effective at suppressing the quality deterioration of water bamboo shoots, MAP improves the effect of NO in extending postharvest life, and NO may be the main effective factor in the combination of NO and MAP