The Influence of Hen Aging on Eggshell Ultrastructure and Shell
                    Mineral Components

Park, Ji Ae; Sohn, Sea Hwan

doi:10.5851/kosfa.2018.e41

Cited by 57 publications

(65 citation statements)

References 45 publications

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“…The overlap between the genes for both time points (see Figure 2) reflects that certain molecular functions remain relevant to eggshell development during the laying cycle of chicken. Particularly, the similarity of genes responsible for the transportation of ions is in line with the findings of Park et al [100] and Fan et al [51] who found that the concentration level of different ions in blood does not change with the age of chicken. Interestingly, a closer look at the biological processes of these traits reveals that, while highly significant GO terms are involved in development for ESS1, the significant biological processes for ESS2 are rather related to different metabolic processes (Table S3).…”

Section: Discussionsupporting

confidence: 86%

“…The uterine epithelium and bone are the tissues that actively take part in the development of eggshell, hence the renewal of the cells of both tissues is crucial for the synthesis of a strong eggshell [4]. Furthermore, multiple studies suggest that a declining ability of uterine epithelium cells to transport calcium is the main reason of the age-related deterioration of eggshells [51,100]. In particular, the ESS2 specific p73alpha -/ NF-Y pathway that results in the inactivation of the NF-Y transcription factor by p73 proteins and consequently causes replicative senescence of cells [90] may also point towards the underlying reason for weaker eggshells during the later stages of the production cycle.…”

Section: Discussionmentioning

confidence: 99%

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Identification of Age-Specific and Common Key Regulatory Mechanisms Governing Eggshell Strength in Chicken Using Random Forests

Ramzan

Klees

Schmitt

et al. 2020

Genes

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In today’s chicken egg industry, maintaining the strength of eggshells in longer laying cycles is pivotal for improving the persistency of egg laying. Eggshell development and mineralization underlie a complex regulatory interplay of various proteins and signaling cascades involving multiple organ systems. Understanding the regulatory mechanisms influencing this dynamic trait over time is imperative, yet scarce. To investigate the temporal changes in the signaling cascades, we considered eggshell strength at two different time points during the egg production cycle and studied the genotype–phenotype associations by employing the Random Forests algorithm on chicken genotypic data. For the analysis of corresponding genes, we adopted a well established systems biology approach to delineate gene regulatory pathways and master regulators underlying this important trait. Our results indicate that, while some of the master regulators (Slc22a1 and Sox11) and pathways are common at different laying stages of chicken, others (e.g., Scn11a, St8sia2, or the TGF- β pathway) represent age-specific functions. Overall, our results provide: (i) significant insights into age-specific and common molecular mechanisms underlying the regulation of eggshell strength; and (ii) new breeding targets to improve the eggshell quality during the later stages of the chicken production cycle.

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Section: Discussionsupporting

confidence: 86%

Section: Discussionmentioning

confidence: 99%

Identification of Age-Specific and Common Key Regulatory Mechanisms Governing Eggshell Strength in Chicken Using Random Forests

Ramzan

Klees

Schmitt

et al. 2020

Genes

View full text Add to dashboard Cite

show abstract

“…Age-related changes in the expression of matrix proteins (ovalbumin, ovotransferrin and ovocleidin-17) in uterus of laying hens were suggested by their varying concentration in eggshell [20,21]. Besides, a destructed uterine structure, the reduced gland density [22] and the brosis and atrophy of the endometrium [8] of aged hens probably caused by sustained laying behavior would contribute to the uterine hypofunction of protein synthesis, ion transport and immune defense. However, a comprehensive understanding of uterine functional differences in terms of eggshell biomineralization between young and aged hens at the transcriptome level remains obscure.…”

Section: Introductionmentioning

confidence: 99%

Uterine Transcriptome Analysis Reveals Mechanism Underlying the Ultrastructure Differences of Eggshell in Young and Aged Laying Hens

Feng

Zhang

et al. 2020

Preprint

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Background Lower eggshell quality in the late laying period leads to economic loss. It is a major threat to the quality and safety of egg products. Age-related variations in ultrastructure were thought to induce this deterioration. Eggshell mineralization is a highly complex process under precise regulation of genes and biological pathways in uterus of laying hens. Herein, we evaluated the physical, mechanical and ultrastructure properties of eggshell and conducted RNA sequencing to learn the transcriptomic differences in uterus between laying hens in the peak (young hens) and late phase (aged hens) of production. Results The declined breaking strength and fracture toughness of eggshell were observed in aged hen group compared to those in young hen group, accompanied with ultrastructure variations including the increased thickness of mammillary layer and the decreased incidence of early fusion. During the initial stage of eggshell formation, a total of 183 differentially expressed genes (DEGs; 125 upregulated and 58 downregulated) were identified in uterus of laying hens in the late phase in relative to those at peak production. The DEGs annotated to Gene Ontology terms related to antigen processing and presentation were downregulated in aged hens compared to young hens. The contents of proinflammatory cytokine IL-1β in uterus were higher in aged hens relative to those in young hens. Besides, the genes of some matrix proteins potentially involved in eggshell mineralization, such as ovalbumin, versican and glypican 3, were also differentially expressed between two groups. Conclusions Altered gene expression of matrix proteins along with the compromised immune function in uterus of laying hens in the late phase of production may conduce to age-related impairments of eggshell ultrastructure and mechanical properties. The current study enhances our understanding of the age-related deteriorations in eggshell ultrastructure and provides potential targets for improvement of eggshell quality in the late laying period.

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“…Eggshell in the late phase of production possessed lower breaking strength, accompanied with a greater variability in structural properties such as thickness, grain morphology and crystal texture [7]. Besides, the percentages of abnormal structure such as type B mammillae and late fusion in eggshell from aged hens were higher than those from young hens [8], which was thought to contribute to the impairment of mechanical properties. Therefore, age-related abnormalities in ultrastructure could be one reasonable explanation for the compromised shell quality in the late laying period.…”

Section: Introductionmentioning

confidence: 99%

“…Age-related changes in the expression of matrix proteins (ovalbumin, ovotransferrin and ovocleidin-17) in uterus of laying hens were suggested by their varying concentration in eggshell [20,21]. Besides, a destructed uterine structure, the reduced gland density [22] and the brosis and atrophy of the endometrium [8] of aged hens probably caused by sustained laying behavior would contribute to the uterine hypofunction of protein synthesis, ion transport and immune defense. However, a comprehensive understanding of uterine functional differences in terms of eggshell formation between young and aged hens at the transcriptome level remains obscure.…”

Section: Introductionmentioning

confidence: 99%

Uterine Transcriptome Analysis Reveals mRNA Expression Changes Associated with the Ultrastructure Differences of Eggshell in Young and Aged Laying Hens

Feng

Zhang

et al. 2020

Preprint

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Background: Lower eggshell quality in the late laying period leads to economic loss. It is a major threat to the quality and safety of egg products. Age-related variations in ultrastructure were thought to induce this deterioration. Eggshell formation is a highly complex process under precise regulation of genes and biological pathways in uterus of laying hens. Herein, we evaluated the physical, mechanical and ultrastructure properties of eggshell and conducted RNA sequencing to learn the transcriptomic differences in uterus between laying hens in the peak (young hens) and late phase (aged hens) of production.Results: The declined breaking strength and fracture toughness of eggshell were observed in aged hen group compared to those in young hen group, accompanied with ultrastructure variations including the increased thickness of mammillary layer and the decreased incidence of early fusion. During the initial stage of eggshell formation, a total of 183 differentially expressed genes (DEGs; 125 upregulated and 58 downregulated) were identified in uterus of laying hens in the late phase in relative to those at peak production. The DEGs annotated to Gene Ontology terms related to antigen processing and presentation were downregulated in aged hens compared to young hens. The contents of proinflammatory cytokine IL-1β in uterus were higher in aged hens relative to those in young hens. Besides, the genes of some matrix proteins potentially involved in eggshell mineralization, such as ovalbumin, versican and glypican 3, were also differentially expressed between two groups.Conclusions: Altered gene expression of matrix proteins along with the compromised immune function in uterus of laying hens in the late phase of production may conduce to age-related impairments of eggshell ultrastructure and mechanical properties. The current study enhances our understanding of the age-related deteriorations in eggshell ultrastructure and provides potential targets for improvement of eggshell quality in the late laying period.

show abstract

The Influence of Hen Aging on Eggshell Ultrastructure and Shell Mineral Components

Cited by 57 publications

References 45 publications

Identification of Age-Specific and Common Key Regulatory Mechanisms Governing Eggshell Strength in Chicken Using Random Forests

Identification of Age-Specific and Common Key Regulatory Mechanisms Governing Eggshell Strength in Chicken Using Random Forests

Uterine Transcriptome Analysis Reveals Mechanism Underlying the Ultrastructure Differences of Eggshell in Young and Aged Laying Hens

Uterine Transcriptome Analysis Reveals mRNA Expression Changes Associated with the Ultrastructure Differences of Eggshell in Young and Aged Laying Hens

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