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Your search keyword '"Ovomucin"' showing total 338 results
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338 results on '"Ovomucin"'

1. Crucial effect of ovomucin on alkali-induced egg white gel formation: Properties, structure and facilitation mechanism.

Author

Zhang Z, Zhao Y, Han Y, Teng H, and Xu Q

Subjects
Water chemistry, Solubility, Animals, Chickens, Rheology, Egg White chemistry, Ovomucin chemistry, Gels chemistry, Alkalies chemistry
Abstract

Alkali-induced preserved egg gel formation is a dynamic process that involves complex protein changes. Ovomucin (OVM) is closely associated with the gel properties of egg white. In this study, the effect of OVM in alkali-induced egg white gel (AEWG) formation was investigated. The results suggested that OVM reduced the gel formation time by 15 %. The mechanical properties of the fully formed gel were also improved by OVM. Specifically, OVM increased the storage modulus (G') of the gel by 1.5-fold, while the hardness significantly increased from 78.90 ± 4.24 g to 99.80 ± 9.23 g. Low-field nuclear magnetic resonance (LF-NMR) demonstrated that OVM significantly shortened T 23 relaxation time and reduced the water mobility, thus increasing the water holding capacity (WHC). Meanwhile, the presence of OVM resulted in a more homogeneous and denser microscopic morphology of the gel. Selective solubility experiments revealed that disulfide bonds are the primary force in gel formation. OVM promoted the formation of more disulfide bonds, which increased the strength and stability of the gel network. Overall, this research proved OVM plays a critical role in the performance improvement of AEWG, which provides a new insight into the quality control of preserved egg and protein gel foods., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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2. Chicken egg white precipitates induced by water dilution.

Author

Zhao B, Pu J, Hu G, Liu X, Li S, Wang J, and Geng F

Subjects
Animals, Proteomics, Ovomucin, Allergens, Egg White, Chickens
Abstract

Chicken egg whites (whole egg white, EW; thick egg white, TKEW; thin egg white, TNEW) become turbid and are accompanied by the formation of precipitates after being diluted with an equal mass of deionized water. The precipitates of TKEW induced by water dilution (Thick Egg White Precipitates, TKEWP) account for 14.47 % of TKEW total dry matter, much higher than that of thin egg white precipitates (TNEWP) (1.51 %) and whole egg white precipitates (EWP) (5.53 %). Quantitative proteomic analysis identified 27 differentially abundant proteins (p < 0.05) among EW, EWP, TNEWP, and TKEWP. Lysozyme was found to be a key protein in the formation of EW precipitates induced by water dilution, as its abundance was significantly higher in TNEWP and TKEWP. Mucin-5B (α-ovomucin) had the highest abundance in TKEWP, suggesting that its insolubility is one of the important factors contributing to the large formation of TKEWP. This paper systematically studies the formation, characteristics, and composition of egg white precipitation caused by water dilution, and puts forward a new understanding of the processing characteristics of egg white liquid, thus laying a theoretical foundation for further research methods to reduce egg white precipitation by water dilution., Competing Interests: Declaration of competing interest The authors state no conflict of interest., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2024
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3. Underlying mechanisms of egg white thinning in hot spring eggs during storage: Weak gel properties and quantitative proteome analysis.

Author

Chen R, Jin H, Pan J, Zeng Q, Lv X, Xia J, Ma J, Shi M, and Jin Y

Subjects
Proteome, Eggs, Ovomucin, Gels, Egg White, Hot Springs
Abstract

As a weakly gelling protein, hot spring egg white underwent thinning during storage. This study explored the mechanism of thinning in hot spring egg white from the perspective of "gel structure and protein composition" using quantitative proteomics, SEM, SDS-PAGE, and other techniques. Quantitative proteomics analysis showed that there were 81 (44 up-regulated and 21 down-regulated) key proteins related to thinning of hot spring egg white. The changes in the relative abundance of proteins such as ovalbumin-related Y, mucin-6, lysozyme, ovomucoid, and ovotransferrin might be important reasons for thinning in hot spring egg white. SEM results indicated that the gel network gradually became regular and uniform, with large pores appearing on the cross-section and being pierced. Along with the decrease in intermolecular electrostatic repulsion, protein molecules gradually aggregated. The particle size gradually increased from 139.1 nm to 422.5 nm. Meanwhile, the surface hydrophobicity, and disulfide bond content gradually increased. These changes might be the reasons for thinning in hot spring egg white during storage. It can provide a new perspective for studying the thinning mechanism of weakly gelling egg whites., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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4. Quantitative proteomic analysis of chicken egg white and its components.

Author

Pu J, Zhao B, Liu X, Li S, Wang B, Wu D, Wang J, and Geng F

Subjects
Animals, Ovalbumin, Chickens, Mucin-5B, Mucin-6, Proteomics, Egg White, Ovomucin
Abstract

The protein profiles and properties of chicken egg white and its three components (thick egg white, TKEW; thin egg white, TNEW; and chalaza, CLZ) were comprehensively compared. The proteomes of TNEW and TKEW are relatively similar, but the abundance of mucin-5B and mucin-6 (the two subunits of ovomucin) is significantly higher in TKEW than in TNEW (42.97% and 870.04%, respectively), while the lysozymes in TKEW are 32.57% higher (p < 0.05) than those in TNEW. Meanwhile, the properties (including the spectroscopy, viscosity, and turbidity) of TKEW and TNEW are significantly different. Comprehensively, it is speculated that the electrostatic interactions between lysozyme and ovomucin are the main reason for the high viscosity and turbidity of TKEW. Compared with egg white sample (EW), CLZ has a higher abundance of insoluble proteins (mucin-5B, 4.23-fold; mucin-6, 6.89-fold) and a lower abundance of soluble proteins (ovalbumin-related protein X, 89.35% lower than EW; ovalbumin-related protein Y, 78.51% lower; ovoinhibitor, 62.08% lower; riboflavin-binding protein, 93.67% lower). These compositional differences should explain the insolubility of CLZ. These findings are important references for deepening the research and development of egg white in the future, such as the thinning of egg white, the molecular basis of changes in egg white properties, and the differential application of TKEW and TNEW., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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5. Quantitative proteomics provides a new perspective on the mechanism of network structure depolymerization during egg white thinning.

Author

Liu L, Wang J, Wang G, Song H, Geng F, Zeng Q, and Huang Q

Subjects
Egg Proteins, Ovomucin, Sulfhydryl Compounds analysis, Egg White chemistry, Proteomics
Abstract

As a typical colloidal solution system, egg white (EW) will naturally thin during storage. This paper discussed mechanism of EW thinning and protein depolymerization from the perspective of "protein composition and molecular structure". The results of rheology showed that viscoelasticity of EW declined substantially. Analysis of EW protein in gel system demonstrated that arrangement of EW thermal gel gradually tightened with dissociation of skeleton protein during storage. Molecular characteristics of EW protein in solution showed that particle size and free sulfhydryl content decreased. The increase of disulfide bonds enhanced intermolecular electrostatic force and hindered molecular aggregation, which improved solubility of molecules and reduced surface hydrophobicity. Quantitative proteomic analysis indicated the reduced abundance of β-ovomucin (OVO) might be the direct cause of EW thinning. Notably, some proteins extensively involved in the aggregation of proteins during later storage. The results can provide scientific basis for depolymerization and aggregation of EW during storage., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2022
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6. An easy and rapid separation method for five major proteins from egg white: Successive extraction and MALDI-TOF-MS identification.

Author

Ji S, Ahn DU, Zhao Y, Li K, Li S, and Huang X

Subjects
Ammonium Sulfate chemistry, Animals, Chemical Precipitation, Conalbumin analysis, Conalbumin isolation & purification, Egg Proteins chemistry, Egg White analysis, Ethanol chemistry, Muramidase analysis, Muramidase isolation & purification, Ovalbumin analysis, Ovalbumin isolation & purification, Ovomucin analysis, Ovomucin isolation & purification, Protein Structure, Secondary, Chemical Fractionation methods, Egg Proteins analysis, Egg Proteins isolation & purification, Egg White chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods
Abstract

Five major proteins from egg white were separated using a successive extraction/precipitation protocol. The yield and purity of the separated proteins were measured. The separated proteins were confirmed by MALDI-TOF-MS, and their structures were characterized by CD spectrum. Lysozyme was first separated using FPC 3500 resin and then ovomucin from the lysozyme-free egg white. Ammonium sulfate and citric acid were added to the resulting lysozyme- and ovomucin-free egg white solution to precipitate ovotransferrin. Ovomucoid and ovalbumin were separated from the resulting supernatant using ethanol. The separated proteins were further purified and the optimal conditions for the further purifications were suggested. The purity and yield of lysozyme, ovotransferrin, ovalbumin, and ovomucoid were higher than 90% and 77%, while those of ovomucin were about 72% and 75%, respectively. This study separated five major proteins in egg white successively using resin adsorption, pH adjustment, salt/ethanol precipitation, and ultrafiltration., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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7. Formation and characterization of peptides in egg white during storage at ambient temperature.

Author

Liu M, Yu W, Ren F, and Wu J

Subjects
Animals, Chickens, Conalbumin chemistry, Conalbumin metabolism, Mass Spectrometry, Ovomucin chemistry, Ovomucin metabolism, Peptides metabolism, Tandem Mass Spectrometry, Temperature, Egg White chemistry, Food Storage methods, Peptides chemistry
Abstract

Egg white thinning during ambient storage is a well-known phenomenon. The objective of the study was to characterize the formation of peptides <10 kDa in egg white during storage at room temperature. The results indicated that the content of peptides in the egg white fraction of <10 kDa increased gradually. Similar but a faster trend was observed for the fraction of <3 kDa. Gallin, also called ovodefensin (∼7 kDa), was the main component in 10-3 kDa egg white fraction, which rapidly degraded and disappeared at 28 d of storage. Mass spectrometry analysis of <3 kDa fraction identified 6 peptide fragments from ovotransferrin and 11 peptides from ovomucin. Ovodefensin, ovotransferrin and ovomucin are the major innate components of egg defense; thus the degradation of these proteins during storage contributes to egg white thinning and increased susceptibility to bacterial contamination. This study provides the insights on the molecular mechanism of egg deterioration during prolonged ambient storage., (Copyright © 2018. Published by Elsevier Ltd.)

Published
2018
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8. Evaluation of egg white ovomucin-based porous scaffold as an implantable biomaterial for tissue engineering.

Author

Carpena NT, Abueva CDG, Padalhin AR, and Lee BT

Subjects
Animals, Bone Marrow Cells cytology, Cell Adhesion, Cell Line, Cell Proliferation, Chickens, Mesenchymal Stem Cells cytology, Mice, Rats, Bone Marrow Cells metabolism, Egg White chemistry, Implants, Experimental, Materials Testing, Mesenchymal Stem Cells metabolism, Ovomucin chemistry, Tissue Engineering, Tissue Scaffolds chemistry
Abstract

Studies have shown the technological and functional properties of ovomucin (OVN) in the food-agricultural industry. But research has yet to explore its potential as an implantable biomaterial for tissue engineering and regenerative medicine. In this study we isolated OVN from egg white by isoelectric precipitation and fabricated scaffolds with tunable porosity by utilizing its foaming property. Gelatin a known biocompatible material was introduced to stabilize the foams, wherein different ratios of OVN and gelatin had a significant effect on the degree of porosity, pore size and stability of the formed hydrogels. The porous scaffolds were crosslinked with EDC resulting in stable scaffolds with prolonged degradation. Improved cell proliferation and adhesion of rat bone marrow-derived mesenchymal stem cells were observed for OVN containing scaffolds. Although, scaffolds with 75% OVN showed decrease in cell proliferation for L929 fibroblast type of cells. Further biocompatibility assessment as implant material was determined by subcutaneous implantation in rats of selected scaffold. H&E staining showed reasonable vascularization over time and little evidence of severe fibrosis at the implant site. Persistent polarization of classically activated macrophage was not observed, potentially reducing inflammatory response, and showed increased expression of alternatively activated macrophage cells that is favorable for tissue repair. Analysis of IgE levels in rat serum after implantation indicated minimal and resolvable allergic response to the OVN implants. The results demonstrate OVN as an acceptable implant scaffold that could provide new opportunities as an alternative natural biocompatible and functional biomaterial in various biomedical applications. © 2016 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 105B: 2107-2117, 2017., (© 2016 Wiley Periodicals, Inc.)

Published
2017
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9. In vitro peptic digestion of ovomucin-depleted egg white affected by pH, temperature and pulsed electric fields.

Author

Liu YF, Oey I, Bremer P, Silcock P, and Carne A

Subjects
Conalbumin, Hot Temperature, Hydrogen-Ion Concentration, Temperature, Egg White, Ovomucin
Abstract

The effect of pH (4, 5, 7, and 9) combined with either heat (60, 80°C for 10min) or pulsed electric fields (PEF) (1.4-1.8kV/cm, 260-690kJ/kg) treatments on the in vitro peptic digestion of ovomucin-depleted egg white was investigated. Protein digestibility, unaffected by 60°C heating, was increased by heating at 80°C, which caused protein aggregation and solution turbidity. Compared to ovalbumin and lysozyme, ovotransferrin was more susceptible to pepsinolysis. Susceptibility to pepsinolysis of ovalbumin and lysozyme was markedly enhanced by heating at 80°C, compared to either 60°C heating or PEF processing. MALDI-MS identified proteolytic fragments from ovalbumin and lysozyme, exhibiting varied resistance to pepsinolysis. PEF processing at ∼690kJ/kg and pH 4 increased protein digestibility to a similar level to that obtained after heating at 80°C, with negligible solution turbidity, showing potential for the production of digestible protein drinks with good consumer visual appeal owing to their clarity., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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10. Immunomodulatory effects of heated ovomucoid-depleted egg white in a BALB/c mouse model of egg allergy.

Author

Jiménez-Saiz R, Rupa P, and Mine Y

Subjects
Administration, Oral, Animals, Cells, Cultured, Cytokines metabolism, Digestion, Disease Models, Animal, Feces chemistry, Female, Histamine blood, Immunoglobulin A analysis, Immunoglobulin E blood, Immunoglobulin G blood, Mice, Mice, Inbred BALB C, Spleen immunology, Th1 Cells immunology, Th2 Cells immunology, Egg Hypersensitivity therapy, Egg White chemistry, Hot Temperature, Immunologic Factors administration & dosage, Immunotherapy methods, Ovomucin
Abstract

Oral immunotherapy (OIT) is a promising therapeutic approach for treating food allergy. The treatment with heated ovomucoid-depleted egg white (HOMEW) in egg-allergic patients is noteworthy; however, OIT protocols are still experimental, and a better knowledge of the underlying mechanism is required. The objective of this work was to investigate the immunomodulatory effects of HOMEW and characterize the underlying mechanism in a BALB/c mouse model of egg allergy. Mice were sensitized with EW and treated with HOMEW. Post treatment, mice were challenged with EW and euthanized for collecting blood and spleen. Markers of allergic clinical outcomes were measured as histamine concentration, serum antibody activity, and cytokine production from cultured splenocytes. Digestibility of HOMEW was assessed mimicking physiological conditions in vitro. The HOMEW demonstrated high digestibility. The treatment induced a marked increase of the Th1/Th2 ratio in the high-dose treatment group. Treated mice had significantly less histamine, EW-specific IgE, and IL-4 and more IFN-γ and IL-10. This study confirms the mechanisms involved in successful tolerance induction with OIT using HOMEW and allows understanding of the vital role of surrogate allergy markers involved in immune modulation.

Published
2011
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36. [REACTION OF OVOMUCOID WITH HYDROXYLAMINE].

Author

KAVERZNEVA ED and LAPUK VKh

Subjects
Animals, Chick Embryo, Chromatography, Egg White, Glycoproteins, Hydroxylamine, Hydroxylamines, Mucus, Ovomucin, Polysaccharides, Research
Published
1964

47. [STUDY ON BONDS BETWEEN SUGARS AND AMINO ACIDS IN GLYCOPROTEINS BY MEANS OF HYDROXYLAMINOLYSIS. II. ACTION OF HYDROXYLAMINE ON GLYCOPROTEINS: OVOMUCOID, OVALBUMIN AND SHEEP SUBMAXILLARY GLAND MUCOPROTEIN ("OSM")].

Author

HARBON S, HERMAN-BOUSSIER G, and CLAUSER H

Subjects
Animals, Sheep, Amino Acids, Chromatography, Dialysis, Egg White, Electrophoresis, Glycoproteins, Hexosamines, Hexoses, Hydroxylamine, Hydroxylamines, Mucoproteins, Ovalbumin, Ovomucin, Renal Dialysis, Research, Submandibular Gland
Published
1963

50. Chain reactions of temperature-induced egg white protein amorphous aggregates: Formation, structure and material composition of thermal gels.

Author

Liu, Xin, Zhang, Ziwei, Chen, Yujie, Zhong, Mengzhen, Lei, Yuqing, Huo, Jiaying, Ma, Lulu, and Li, Shugang

Subjects
*SINGLE molecules, *EGG whites, *THERMAL properties, *QUALITY control, *FOOD industry
Abstract

Egg white protein is widely used in food, chemical, medical and other fields due to its excellent thermal gel properties. However, the regularity of egg white thermal gel (EWTG) by temperature influence is still unknown. In this study, we investigated the potential mechanism of temperature (75–95 °C, 15 min) gradient changes inducing thermal aggregation and gel formation of EWTG. The results showed that changes in textural characteristics and water holding capacity (WHC) of EWTGs depended on switching in protein aggregation morphology (spherical shape - chain shape - regiment shape) and gel network structure differences ("irregular bead-like" - "regular lamellar structure"). In addition, proteomics indicated that the generation of amorphous protein aggregates at 95 °C might be related to Mucin 5B as the aggregation core. The research revealed the EWTG formation from "whole egg white protein" to "single molecules", aiming to provide a reference for quality control in gel food processing. [Display omitted] • Temperature-induced changes in the morphology of egg white aggregates followed the "spherical - chain - regiment" shape rule. • The EWTG network structure followed the changing rule from "irregular bead-like" to "regular lamellar structure". • Amorphous aggregates of EWTGs disrupted the ordering and continuity of gel networks. • Amorphous aggregates based on Mucin 5B as an "aggregation core" were the main reason for the impaired texture of EWTG at 95 °C. [ABSTRACT FROM AUTHOR]

Published
2024
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