Yunlong Mu scite author profile

Yunlong Mu

3Publications

23Citation Statements Received

79Citation Statements Given

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Chengdu University

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Characterization of umami compounds in bone meal hydrolysate

Zhang

Bai

et al. 2021

Journal of Food Science

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The objective of this research was to identify and characterize the chemical compounds that exhibited monosodium glutamate (MSG)‐like taste in the hydrolyzed bone meal produced by using flavourzyme. The free amino acids and peptides in the bone meal hydrolysate were analyzed. The results showed that the glutamic acid and the aspartic acid in the bone meal increased by 13.1 times and 14.2 times, respectively, after the flavourzyme hydrolysis. The peptides’ isolation identified six MSG‐like peptides in the hydrolysate, including APGPVGPAG, DAINWPTPGEIAH, FLGDEETVR, GVDEATIIEILTK, PAGPVGPVG, and VAPEEHPTL, which should contribute to the taste. The human sensory evaluation results indicated that the six peptides showed MSG‐like taste, and the electronic tongue analysis indicated that the six peptides showed sourness, saltiness, bitterness, and astringency. The findings of this study demonstrated that the MSG‐like taste of the bone meal hydrolysate should be attributed to the generation of MSG‐like amino acids and peptides from the flavourzyme hydrolysis. Practical Application The manuscript describes the umami compounds in the bone meal hydrolysate. The findings from this study should further confirm the feasibility of using bone meal to prepare meat‐flavor essence and provide a better understanding of preparing bio‐source flavoring peptides, which is very important to the artificial meat development and gene breeding.

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Effect of 4 °C and ice temperature on umami-enhancing nucleotides of conditioned pork

Zhang¹,

Zhang²,

Li³

et al. 2023

Food Chemistry

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Effect of Deep Dormancy Temperature Cultivation on Meat Quality of Crucian Carp (Carassius auratus)

Zhang

Wang

et al. 2023

Foods

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To extend the survival of crucian carp (Carassius auratus) during transportation, the effect of deep dormancy temperature (DDT) cultivation on the crucian carp was investigated by measuring the respiratory rate, survival time, and effect of cooling speed on the meat quality. The results of the respiratory rate and survival time indicated that the DDT of the crucian carp was 1.6 °C. The cooling speed had a significant (p < 0.05) influence on the quality of the crucian carp meat, with a faster cooling speed resulting in a lower pH, L* value, a* value, gumminess, springiness, cohesiveness, stickiness, chewiness, CMP, and UMP content for the crucian carp meat, thus resulting in a lower sensory score for the crucian carp meat. A possible reason for the decrease in the quality of the crucian carp meat is that the faster cooling speed led to a strong stress response and higher anaerobic metabolism in the crucian carp. This can be supported by the contents of the blood glucose and lactic acid in the crucian carp treated with higher cooling speed being significantly (p < 0.05) higher than that of the control. Combining all the results of the cooling speed on the eating quality of the crucian carp meat, a cooling speed of 2 °C/h followed by 1 °C/h was suggested for the survival of crucian carp in transit.

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Yunlong Mu

Characterization of umami compounds in bone meal hydrolysate

Effect of 4 °C and ice temperature on umami-enhancing nucleotides of conditioned pork

Effect of Deep Dormancy Temperature Cultivation on Meat Quality of Crucian Carp (Carassius auratus)

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