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Balut : fertilized eggs and the making of culinary capital in the Filipino diaspora
\"Grounded in folkloristics and anthropology, Margaret Magat explores both the traditional and popular culture contexts of balut. Balut - fertilized duck or chicken eggs that have developed into fully formed embryos with feathers and beaks - is a delicacy which elicits passionate responses. Hailed as an aphrodisiac in Filipino culture, balut is often seen and used as an object of revulsion and disgust in western popular culture. Drawing on interviews, participant observation, reality television programs, travel shows,food blogs, and balut-eating contests, Magat examines balut production and consumption, its role in drinking rituals, sex, and the supernatural, vampire-like legends behind it. Balut reveals how traditional foods are used in the performance of identity and ethnicity, inspiring a virtual online cottage industry via social media as well as the impact globalization and migration are having on cultural practices and food consumption across the world. The first academic book on balut, this is essential reading for anyone in food studies, folklore studies, anthropology, and Asian American studies\"-- Provided by publisher.
Book
Susceptibility of Chickens to Porcine Deltacoronavirus Infection
Porcine deltacoronavirus (PDCoV) is a novel swine enteropathogenic coronavirus with worldwide distribution. PDCoV belongs to the Deltacoronavirus (DCoV) genus, which mainly includes avian coronaviruses (CoVs). PDCoV has the potential to infect human and chicken cells in vitro, and also has limited infectivity in calves. However, the origin of PDCoV in pigs, the host range, and cross-species infection of PDCoV still remain unclear. To determine whether PDCoV really has the ability to infect chickens in vivo, the three lines of chicken embryos and specific pathogen free (SPF) chickens were inoculated with PDCoV HNZK-02 strain to investigate PDCoV infection in the current study. Our results indicated that PDCoV can infect chicken embryos and could be continuously passaged on them. Furthermore, we observed that PDCoV-inoculated chickens showed mild diarrhea symptoms and low fecal viral RNA shedding. PDCoV RNA could also be detected in multiple organs (lung, kidney, jejunum, cecum, and rectum) and intestinal contents of PDCoV-inoculated chickens until 17 day post-inoculation by real-time quantitative PCR (qRT-PCR). A histology analysis indicated that PDCoV caused mild lesions in the lung, kidney, and intestinal tissues. These results prove the susceptibility of chickens to PDCoV infection, which might provide more insight about the cross-species transmission of PDCoV.
Journal Article
Primary sex determination in birds depends on DMRT1 dosage, but gonadal sex does not determine adult secondary sex characteristics
In birds, males are the homogametic sex (ZZ) and females the heterogametic sex (ZW). Primary sex determination is thought to depend on a sex chromosome gene dosage mechanism, and the most likely sex determinant is the Z chromosome gene Doublesex and Mab-3–Related Transcription factor 1 (DMRT1). To clarify this issue, we used a CRISPR-Cas9–based monoallelic targeting approach and sterile surrogate hosts to generate birds with targeted mutations in the DMRT1 gene. The resulting chromosomally male (ZZ) chicken with a single functional copy of DMRT1 developed ovaries in place of testes, demonstrating the avian sex-determining mechanism is based on DMRT1 dosage. These ZZ ovaries expressed typical female markers and showed clear evidence of follicular development. However, these ZZ adult birds with an ovary in place of testes were indistinguishable in appearance to wild-type adult males, supporting the concept of cell-autonomous sex identity (CASI) in birds. In experiments where estrogen synthesis was blocked in control ZW embryos, the resulting gonads developed as testes. In contrast, if estrogen synthesis was blocked in ZW embryos that lacked DMRT1, the gonads invariably adopted an ovarian fate. Our analysis shows that DMRT1 is the key sex determination switch in birds and that it is essential for testis development, but that production of estrogen is also a key factor in primary sex determination in chickens, and that this production is linked to DMRT1 expression.
Journal Article
The Chicken Embryo Model: A Novel and Relevant Model for Immune-Based Studies
Dysregulation of the immune system is associated with many pathologies, including cardiovascular diseases, diabetes, and cancer. To date, the most commonly used models in biomedical research are rodents, and despite the various advantages they offer, their use also raises numerous drawbacks. Recently, another in vivo model, the chicken embryo and its chorioallantoic membrane, has re-emerged for various applications. This model has many benefits compared to other classical models, as it is cost-effective, time-efficient, and easier to use. In this review, we explain how the chicken embryo can be used as a model for immune-based studies, as it gradually develops an embryonic immune system, yet which is functionally similar to humans’. We mainly aim to describe the avian immune system, highlighting the differences and similarities with the human immune system, including the repertoire of lymphoid tissues, immune cells, and other key features. We also describe the general in ovo immune ontogeny. In conclusion, we expect that this review will help future studies better tailor their use of the chicken embryo model for testing specific experimental hypotheses or performing preclinical testing.
Journal Article
Effect of Electromagnetic Wi-Fi Radiation On The Development Of Chicken Embryo
Significant technological progress in the field of wireless devices that were primarily intended for military purposes, has resulted in their common manipulation by the general population. Wi-Fi, mobile phones, and other modern devices offer many advantages to their users. On the other hand, their excessive usage creates an environmental burden, also known as electrosmog. The objective of our current study was the observation of the Wi-Fi radiation effect on the histo-logical structure of the organs in the 9-day-old chicken embryo. On day 9 of incubation, the embryological material was routinely processed for preparation of hematoxylin-eosin, picrosirius red and periodic acid Schiff stained histological sections. Radiation with a frequency of 2.4 GHz and average power density of 300 µW.m−2 applied during the entire development up to the 9th embryonic day did not fundamentally affect general organogenesis. However, in the parenchyma of organs such as the liver, spleen, lungs, kidneys, and gonads, as well as in the developing mesenchyme, obvious vascular congestion of the blood vessels of different caliber was observed. Also, an increase in collagen and glycosaminoglycans production in the cartilaginous matrix and perichondrium of the future bone skeleton as well as developing connective tissue was noted. Although these morphological changes were just subtle, they point to the Wi-Fi radiation’s ability to influence the histogenesis of the individual.
Journal Article
Dose- and tissue-dependent effects of cannabidiol on antioxidant status in developing chicken embryos
This study investigated the dose- and tissue-dependent effects of cannabidiol (CBD) on the antioxidant status of developing chicken embryos, a key model for vertebrate development. Fertilized eggs were administered CBD (2, 10, or 20 mg/kg egg weight) on the sixth day of incubation. Tissues (brain, liver, heart, thigh muscle, intestine) were collected on day 13 and analyzed for glutathione (GSH), glutathione peroxidase (GPx), superoxide dismutase (SOD), and malondialdehyde (MDA). The results demonstrated potent, tissue-specific effects. CBD exhibited its strongest antioxidant activity in the liver, where 10 mg/kg significantly increased GPx and SOD activity and reduced MDA by ~ 44%. In the brain, it enhanced antioxidant enzymes and decreased lipid peroxidation. Conversely, the high dose (20 mg/kg) increased oxidative stress in cardiac tissue, elevating MDA by 27%. Striated and smooth muscles showed more moderate responses. These findings highlight CBD’s tissue-specific and dose-dependent antioxidant properties, underscoring its potential benefits in the liver and brain but cautioning against high doses due to cardiac risks. Further research is needed to elucidate the mechanisms and long-term implications of CBD exposure during embryonic development.
Journal Article
Detection of Chicken Proventricular Necrosis Virus (R11/3 Virus) in Experimental and Naturally Occurring Cases of Transmissible Viral Proventriculitis with the Use of a Reverse Transcriptase-PCR Procedure
A reverse-transcriptase–polymerase-chain-reaction (RT-PCR) procedure was evaluated for detection of chicken proventricular necrosis virus (CPNV) in transmissible viral proventriculitis (TVP) –affected chickens. The RT-PCR procedure was compared with indirect immunofluorescence (IFA) and virus isolation for detection of CPNV in experimentally infected chickens. Microscopic lesions characteristic of TVP were detected on days 5–35 postexposure (PE) in CPNV-infected chickens; CPNV was detected by RT-PCR on days 3–14 PE in freshly collected proventriculi, and on days 1–14 PE in formalin-fixed paraffin-embedded (FFPE) proventriculi. CPNV was detected in proventriculi of experimentally infected chickens by IFA on days 3–10 PE, and by virus isolation on days 1–14 PE. With IFA used as a reference, sensitivity of the RT-PCR procedure with freshly collected and FFPE proventriculi was 88% and 100%, respectively; specificity was 83% and 86%, respectively. Proventriculi (FFPE) obtained from suspect TVP cases (n = 19) were evaluated for presence of CPNV by RT-PCR and microscopic lesions consistent with TVP. CPNV was detected by RT-PCR in proventriculi from 8/11 TVP (+) cases (24/36 tissue sections). TVP (+) cases were defined by microscopic lesions characteristic of TVP; CPNV was not detected in proventriculi (0/8 cases, 0/32 tissue sections) in the absence of these lesions. The association between presence of TVP-characteristic microscopic lesions and presence of CPNV was highly significant (P = 0.0014). These findings indicate the utility of the RT-PCR procedure for detection of CPNV and provide additional evidence for an etiologic role for this virus in TVP.
Journal Article
Preliminary Study of Real-Time Detection of Chicken Embryo Viability Using Photoplethysmography
Currently, in influenza vaccine production via the chicken embryo splitting method, embryo viability detection is a pivotal quality control step—non-viable embryos are prone to microbial contamination, directly endangering the vaccine batch quality. However, the predominant manual candling method suffers from unstable accuracy and occupational visual health risks. To address this challenge, we developed a novel real-time embryo viability detection system based on photoplethysmography (PPG) technology, comprising a hardware circuit for chicken embryo PPG signal collection and customized software for real-time signal filtering and time–frequency-domain analysis. Based on this system, we conducted three pivotal experiments: (1) impact of the source–detector spatial arrangement on PPG signal acquisition, (2) viable/non-viable embryo discrimination, and (3) embryo PPG signal detection performance for days 10–14. The experimental results show that within the sample size (15 viable, 5 non-viable embryos), the system achieved a 100% discrimination accuracy; meanwhile, it realized 100% successful multi-day (days 10–14) PPG signal capture for the 15 viable embryos, with consistent performance across the developmental stages. This PPG-based system overcomes limitations of traditional and existing automated methods, provides a non-invasive alternative for embryo viability detection, and presents significant implications for standardizing vaccine production quality control and advancing optical biosensing for biological viability detection.
Journal Article
Astragalus Polysaccharide Protects Against Cadmium-Induced Autophagy Injury Through Reactive Oxygen Species (ROS) Pathway in Chicken Embryo Fibroblast
Cadmium (Cd) is a harmful heavy metal pollutant, which can cause oxidative stress in the body and induce cell damage. Reactive oxygen species (ROS) is a general term for substances that contain oxygen and are active in the body. However, excessive ROS can damage the body. Cadmium poisoning can cause a large amount of ROS in cells and autophagy. Astragalus polysaccharide (APS) is a plant polysaccharide with biological functions, such as antioxidant and anti-stress activities. In this study, chicken embryo fibroblasts (CEF) were used to determine the relationship between ROS and autophagy damage of Cd-infected cells and the mechanism of APS on cadmium-induced autophagy damage. The results showed that a 10-μL dose of 10 μmol/L cadmium chloride (CdCl2) can induce CEF autophagy and damage when CEF was added for 36 h. Cadmium induced CEF autophagy damage by increasing ROS production. APS could significantly reduce ROS production and LC3-II and Beclin-1 protein expression, increase the expression of mTOR and the level of antioxidation, and restore the viability and morphological damage of CEF exposed to Cd. Our study suggests that APS can alleviate Cd-induced CEF autophagy damage by reducing the production of ROS.
Journal Article
Small RNA-Seq Reveals the Effect of Formaldehyde Treatment on Chicken Embryo Liver microRNA Profiles
Formaldehyde (FA) is commonly used for hatchery disinfection, where it reduces microbial growth, ensures successful egg hatch and enhances healthy production, but its specific effects on embryonic development remain unclear. MicroRNAs (miRNAs) regulate gene expression post-transcriptionally and may mediate FA-induced transcriptional responses. Here, we investigated the impact of FA treatment on miRNA profiles in chicken embryo liver. Small RNA-seq libraries were constructed and sequenced using the Illumina NextSeq platform. Reads were trimmed and quantified using miRDeep2 version 2.0.0.3. Differential expression analysis was performed with DESeq2 (p-adjusted < 0.05 and |log2FC| > 1). Target genes of differentially expressed miRNAs (DEMs) were predicted with miRDB, and GO/KEGG/Reactome enrichment was conducted. Out of 662 total mature miRNAs detected, differential expression analysis identified 30 DEMs (11 up-regulated, 19 down-regulated). The highest fold increase was determined for gga-miR-3533 (log2FC = 4.45), and the most significant decrease was determined for gga-miR-133b (log2FC = −3.38). Pathway analysis revealed miRNAs affecting signaling pathways along with modules related to post-translational protein modification, immune system, and oxidative stress pathways. Our study demonstrates that FA treatment can affect critical biological processes by altering miRNA-mediated regulation in the developing embryonic liver and point to the need for functional validation of miRNA-target interactions to help determine mechanisms for FA benefits. Long term, these data may help serve as reference to identify new treatments with optimized response profiles.
Journal Article