Search Results (1,448)

Against the backdrop of the full implementation of “antibiotic ban” and “zinc restriction” policies in livestock and poultry breeding, and the growing consumer demand for safe livestock and poultry products, the development of natural and efficient green feed additives has become crucial for the sustainable development of the animal husbandry industry. Curcumin, a natural polyphenolic compound extracted from the rhizome of Curcuma longa L., has attracted extensive attention in poultry production due to its various biological activities and safety. This paper thoroughly reviews the chemical structure and physicochemical properties of curcumin, and elaborates on its core molecular mechanisms of action, which mainly involve the regulation of nuclear factor erythroid 2-related factor 2 (Nrf2)/antioxidant response element (ARE), nuclear factor-κB (NF-κB), peroxisome proliferator-activated receptor γ (PPAR-γ), and mitogen-activated protein kinase (MAPK) pathways to exert antioxidant, anti-inflammatory, antibacterial, immunomodulatory and lipid metabolism regulatory effects. It further clarifies the practical application value of curcumin in major poultry species including broilers, laying hens, ducks and quails, showing that curcumin can significantly improve poultry production performance, optimize meat and egg quality, protect intestinal health, and enhance the ability of poultry to resist stress and diseases. Meanwhile, the review notes curcumin’s current application limitations (low bioavailability, poor stability, unclear standardized dosage, and high industrialization cost) and proposes targeted future research directions to address these issues. In conclusion, curcumin is a promising green feed additive alternative to antibiotics, and its large-scale and standardized application in poultry production will effectively promote the green, healthy and sustainable development of the poultry industry. Full article

As a representative form of extreme weather, typhoons inflict widespread and systemic damage, posing a severe threat to the livestock industry. The stress they induce, typhoon stress (TS), is an unavoidable and complex environmental challenge that severely disrupts the ovarian function of Wenchang chickens. In this preliminary study, we employed a two-group comparison design (n = 6 per group) integrating behavioral observations, serum biochemical assays, histopathological examinations, and molecular analyses (qPCR, 16S rDNA sequencing, and transcriptome sequencing) to explore the role of the microbiota–gut–brain–ovarian axis (MGBOA) in this process. The findings revealed that TS markedly reduced water intake and locomotor activity, while it elevated serum corticosterone (CORT) and oxidative stress markers. It also induced shifts in gut microbiota composition, including a decrease in Bacteroides and an increase in Escherichia–Shigella. Furthermore, TS compromises duodenal intestinal barrier integrity, as evidenced by downregulation of the tight junction proteins TJP1 and CLDN1, structural damage to intestinal villi, and a reduced villus-to-crypt ratio. In the hypothalamus, VIP mRNA expression was upregulated, while GHSR expression was downregulated; the expression of the tight junction protein CLDN5 was also reduced. In the ovary, reproductive potential was suppressed, manifested by a reduction in follicle number and downregulation of STAR expression. Ovarian transcriptome analysis highlighted enrichments in pathways associated with inflammation (e.g., Toll-like receptor signaling) and lipid metabolism (e.g., PPAR signaling). These results support the hypothesis that TS impairs egg production via the MGBOA, providing preliminary mechanistic insights into how environmental stressors might disrupt animal productivity through MGBOA-mediated pathways. Full article

The anchovy (Engraulis japonicus) is a highly abundant but underutilized fish resource in China, primarily due to its extreme post-harvest perishability. This study expanded the utilization of anchovy by developing a blended surimi from anchovy and golden threadfin bream, an I-optimal mixing design experiment was performed to optimize the formulation, and the effects of soy protein isolate (SPI), egg white powder (EWP), and yeast protein (YP) on the gel properties were investigated. The results of sensory evaluation and model prediction indicated that SPI had the most pronounced positive effect on the sensory characteristics of the gels, especially improving the elasticity, followed by EWP. Furthermore, the SPI-rich sample exhibited superior gel strength and chewiness, which was attributed to the increased β-sheet structure and the highest content of disulfide bonds in the protein network. And the water hold capacity of SPI-rich sample increased by 6.0%. The YP-rich group showed the strongest hydrophobic interactions and exhibited a significant enhancement in water hold capacity of 7.7%, which also provided a notable improvement in gel strength. The results showed that EWP contributed to the smoothness of the surimi, but it had no significant impact on water distribution, water-holding capacity, or the content of disulfide bonds within the gel network. Moreover, the EWP-rich group exhibited reduced the gel strength, hardness, and chewiness of the gel, resulting in the lowest overall sensory score of the surimi. Therefore, the optimal composite ratio was determined to be SPI:EWP:YP = 5.45%:2.55%:2.00%. These findings provided a precise blending strategy for developing high-quality surimi products from anchovy, offering a viable technical pathway for the value-added utilization of this resource. Full article

This study aimed to evaluate the compensatory effects of amino acid (AA) supplementation on laying hens fed a low-protein diet, focusing on production performance, egg quality, blood immunity, total tract retention, and intestinal health. A total of 180 Hy-Line Brown laying hens (35 weeks old) were randomly allocated to three dietary treatments with 12 replicates (5 hens/replicate): (1) control diet (15.90% crude protein, CON), (2) reduced-protein diet (15.20% crude protein, NG), and (3) reduced-protein diet supplemented with 400 g/t methionine, 400 g/t lysine, and 300 g/t threonine (15.20% crude protein, LAA). Over the 12-week experimental period, production parameters were monitored weekly. The results showed that compared to the NG group, AA supplementation significantly increased laying rates during weeks 1–4 (p < 0.05) and reduced the feed-to-egg ratio during weeks 9–12 (p < 0.05), with a 3.10% decrease in feed conversion ratio (FCR). By week 12, the NG group exhibited lower Haugh unit values than both the CON and LAA groups (p < 0.05), indicating improved egg quality with AA supplementation. Serum analysis revealed elevated immunoglobulin Y levels and upregulated expression of the anti-inflammatory cytokine IL-10 in the LAA group (p < 0.05). Total tract retention of crude protein (CP) and phosphorus (P) was significantly enhanced in the LAA group compared to CON and NG groups (p < 0.05). However, in terms of cecal microbiota, no significant differences were observed among the experimental groups. These findings demonstrate that AA supplementation alleviates the adverse effects of low-protein diets by enhancing nutrient utilization and immune modulation, thereby improving productive performance, egg quality, and total tract retention in laying hens. Full article

The use of Steinernema carpocapsae infective juveniles as biological control agents is a long-standing practice, yet the oral impact of their secreted venom proteins on crop pests remains largely unknown. We evaluated the oral toxicity of S. carpocapsae venom proteins against Spodoptera frugiperda using artificial diet assays. Ingestion caused significant dose-dependent toxicity in early-instar larvae, resulting in mortality and a prolonged developmental duration. Carry-over effects were profound; treated pupae were smaller and malformed, with only 19% of larvae fed on 1000 ng g⁻¹ venom protein-supplemented diet reaching adulthood compared to 92% in controls. Surviving adults lived 30% fewer days and laid over 90% fewer morphologically normal eggs. These physiological disruptions coincided with elevated oxidative stress and detoxification enzyme activity, suggesting the venom induces oxidative and detoxification responses, which may be associated with the observed phenotypic alterations. This study provides the first demonstration of the oral toxicity of entomopathogenic nematode venom proteins, positioning them as a promising resource for the discovery of novel insecticidal proteins for sustainable pest management. Full article

This research aimed to examine the effects of different dietary levels of nano-selenium (NSE) on the reproductive performance, gonad hormones, histopathology, growth performance, feed utilization, and body indices in adult Nile tilapia, Oreochromis niloticus, broodstock for 90 days. The initial weights of the fish were 278.6 ± 5.5 (males) and 178.4 ± 1.6 (females). They were distributed randomly to 15 tanks with 20 fish in each tank (15 females and 5 males, sex ratio 3:1), with each treatment conducted with three replicates. The contents of NSE in five isocaloric and isonitrogenous practical feeds were 0 mg/kg (control), 1 mg/kg (T1), 2 mg/kg (T2), 3 mg/kg (T3), and 4 mg/kg (T4). Results show that the final weight (FW), weight gain (WG), specific growth rate (SGR), protein efficiency ratio (PER), and feed conversion ratio (FCR) were significantly better in T2 and T1, followed by the control, in comparison with others. On the other hand, growth efficiency was decreased in T3 and T4 of both males and females. Referring to body indices and reproductive performance, females were higher than males in the hepatosomatic index (HSI), where the lowest treatment was the control and T4 for both males and females. Female Nile tilapia brood fish given NSE improved reproductive performance indicators (egg number, total egg, and fry number) when compared with the control. With increasing levels of NSE in the feed, the levels of testosterone and progesterone hormones were increased. The highest values for testosterone were in T4, followed by T3, then T2, T1, and the control. The same trend was observed across the progesterone treatments. Additionally, the results of histopathological examination indicate differences in tissues between different treatments as a result of the addition of NSE. These results indicate that NSE supplementation at low levels could lead to improved growth and reproductive efficiency of Nile tilapia. Full article

This study investigated the effects of dietary supplementation with α-mangostin (α-Ma), a bioactive xanthone derived from mangosteen pericarp, on production performance and egg quality in late-phase laying hens. The experiment was conducted using a completely randomized design. In total, 576 healthy 51-week-old Beinong No. 2 laying hens were randomly assigned to 4 dietary treatments (n = 12): a basal diet (CON) or the basal diet supplemented with 80, 120, or 160 mg/kg α-Ma. The experiment lasted for 4 weeks, after which production performance, egg quality, serum biochemical and antioxidant parameters, inflammatory markers, and uterine gene expression were evaluated. Dietary supplementation with α-mangostin, particularly at 120 mg/kg, significantly improved feed efficiency (p < 0.05), as evidenced by a reduced feed-to-egg ratio from week 2 onward, without affecting average daily feed intake or egg production rate. After 4 weeks, hens receiving 120 mg/kg α-Ma exhibited significantly greater egg weight and eggshell strength (p < 0.05). Serum and hepatic antioxidant capacities were significantly enhanced, with increased glutathione peroxidase and catalase activities, elevated total antioxidant capacity, and decreased malondialdehyde levels (p < 0.05). Moreover, α-Ma at 120 mg/kg specifically lowered the concentration of the pro-inflammatory cytokine interleukin-1β in both serum and uterine tissue (p < 0.05). At the molecular level, this dosage significantly upregulated uterine genes essential for eggshell formation (p < 0.05), including calcium transporters (TRPV6, ATP2B2), the matrix protein gene OC-116, and other key genes (LYZ, CA2, SLC4A9, and ATP6V0D2). In conclusion, dietary supplementation with 120 mg/kg α-Ma effectively enhances feed efficiency, strengthens antioxidant and anti-inflammatory defenses, and upregulates uterine genes involved in biomineralization, thereby improving eggshell quality in aging laying hens. These findings support α-Ma as a promising plant-based feed additive for maintaining productivity and egg quality in antibiotic-free layer production systems. Full article

Background: Egg proteins are among the most common triggers of allergic reactions. This study aimed to evaluate whether changes in the protein source in hen diets may influence the immunoreactivity of eggs and recognize the ELISA limits in egg allergen detection. Methods: This study used eggs from laying hens fed various feeds (including soy and lupin). Determinations of selected allergens were performed using the immunoenzymatic ELISA method. Results: Studies have shown that including legumes in hens’ diets reduces egg immunoreactivity. The highest detected reactivity using a commercial test for the immunoreactivity of egg albumen was twice as high in whites from hens fed the control diet, and this result was most likely due to the Gal d 1 and Gal d 3 detection. Still, the use of this diet reduced the lysozyme (Gal d 4) content in the egg white by approximately 10%. The applied method did not allow for Gal d 5 determination in the tested eggs. The results of the immunoreactivity of the studied eggs with anti-soy and anti-lupine antibodies were outside the limits of detection. Conclusions: The obtained results confirm that the studied allergen content in eggs can be modified by nutritional factors. Full article

Graphene oxide (GO) is a promising nanocarrier for the delivery of oligonucleotides. It offers a high loading capacity, efficient cellular uptake, and surface functionalization. MicroRNA-21 (miR-21) is a well-characterized oncomiR commonly overexpressed in hepatocellular carcinoma (HCC). In HCC, miR-21 contributes to tumor progression, inflammation, and angiogenesis. In a previous in vitro study, we showed that GO alone induces the upregulation of pro-inflammatory and tumor-related genes in HepG2 cells. However, conjugation with an antisense miR-21 (GO-antisense miRNA 21) reverses this effect, suggesting a potential therapeutic application. This study aims to evaluate the antitumor and anti-angiogenic efficacy of the GO-antisense miR-21 nanosystem in ovo using the chick embryo chorioallantoic membrane (CAM) model. Fertilized chicken eggs (n = 4 per group) were randomized into untreated, GO-treated, and GO–antisense miR-21-treated cohorts. A dose of 200 μL (GO 10.0 µg/mL: antisense miR-21 5.0 pmol/mL) was administered intratumorally. Tumor size, volume, and vascularization were monitored through stereomicroscopy and histological analysis. The expression of inflammatory and tumor-associated genes (IL-8, MCP-1, TIMP-2, ICAM-1 and NF-kB) was assessed by quantitative PCR. Given its prominent response, IL-8 protein expression was further analyzed via immunofluorescence. To evaluate tumor-specific delivery, FITC-labeled GO was tracked by confocal microscopy. Our data revealed that treatment with unfunctionalized graphene oxide (GO) unexpectedly promoted tumor vascularization and led to a significant increase in tumor weight. This was accompanied by upregulation of inflammatory markers. In contrast, GO-antisense miR-21 significantly reduced the tumor volume and vessel density. It also successfully downregulated all target genes. Confocal imaging demonstrated preferential accumulation of the nanosystem within the tumor mass. Our results highlight the dual anti-inflammatory and anti-angiogenic effects of GO-antisense miRNA 21 in ovo and support its potential as a targeted nanoplatform for HCC treatment. Full article

Avibacterium paragallinarum (Av. paragallinarum), the causative agent of infectious coryza, imposes substantial economic burdens on the poultry industry by inducing growth retardation in broilers and reducing egg production in laying hens by up to 40%. Disease control is hindered by the limited efficacy of available vaccines and the increasing prevalence of antibiotic resistance—challenges that are exacerbated by the pathogen’s capacity to form biofilms, which facilitate bacterial persistence and enhance drug tolerance. To systematically elucidate the genetic determinants underlying biofilm formation in Av. Paragallinarum, we constructed a high-density random mutant library using mini-Tn5 transposon mutagenesis, comprising 3106 individual mutants. Phenotypic screening via crystal violet staining identified 188 mutants displaying altered biofilm-forming capacity relative to the wild-type strain, including 172 with enhanced and 16 with reduced biofilm formation. Sequencing of transposon insertion sites in these mutants revealed 105 disrupted genes involved in diverse biological pathways, including amino acid metabolism, quorum sensing, and transmembrane transport. A representative subset of eight mutants was selected for detailed phenotypic characterization. Their biofilm phenotypes were consistent with the initial screening results; certain mutants exhibited markedly enhanced biofilm formation (e.g., Tn-2206), whereas others, including Tn-1504, Tn-2428, and Tn-2859, showed significant reductions in biofilm production. Notably, these three biofilm-deficient mutants—harboring disruptions in a TonB-dependent receptor (Tn-1504), a GntP family permease (Tn-2428), and a hypothetical protein (Tn-2859)—displayed drastically attenuated virulence in vitro. Compared with the wild-type strain, these mutants exhibited reductions in cytotoxicity (up to 66.38%), cell adhesion (up to 50.68%), and invasive capacity, while maintaining normal growth kinetics. These findings indicate that the identified genes may play crucial roles in biofilm-associated virulence and highlight Tn-1504, Tn-2428, and Tn-2859 as promising candidates for the development of live attenuated vaccines. Collectively, this study provides a comprehensive genetic foundation for the rational design of novel anti-biofilm strategies against Av. paragallinarum. Full article

Diapause hormone (DH) is an important endocrine substance capable of influencing diapause in Lepidoptera moths that is encoded by the neuropeptide hormone DH-PBAN gene. Imidazole derivative KK-42 is a synthetic insect growth regulator that can affect diapause in Lepidoptera moths, and appears to have an opposite physiological function to DH. To test the hypothesis that KK-42 may be operating through DH to affect diapause, here, we used two Lepidoptera species Bombyx mori L. and Antheraea pernyi that enter egg and pupal diapause, respectively, through examining whether KK-42 can influence DH-PBAN and some associated mRNA expression. We found that the protein sequences of DH-PBAN in insects were highly variable, although the PRXamide C-terminus was conserved. We also found that KK-42 induced significant up-regulation and prolonged expression duration of DH-PBAN in both A. pernyi and B. mori pupae, as well as in trimolter larvae of B. mori that were induced by the application of KK-42 from the normal tetramolter larvae. In addition, KK-42 can significantly upregulate glutamic acid decarboxylase (GAD) expression in B. mori in transcriptome data. Our findings suggested that KK-42 influences diapause by upregulating GAD expression, promoting DH accumulation to prolong the secretion time of DH-PBAN. Full article

Background/Objectives: Spotty liver disease (SLD), caused by Campylobacter hepaticus, is an emerging disease that leads to substantial production losses in the egg industry. The shift toward antibiotic-free and cage-free production systems has further intensified the impact of SLD. The current control measures largely rely on autogenous killed vaccines; however, their use is constrained by the slow and fastidious growth of C. hepaticus and inconsistent efficacy. To overcome these limitations, this study aimed to identify immunogenic mimotopes as vaccine candidates and express them on the surface of an avian pathogenic Escherichia coli (APEC) vector. Methods: To identify immunogenic mimotopes, Ph.D.-12 phage display peptide library was screened using the hyperimmune serum raised against killed whole-cell C. hepaticus in specific pathogen-free chickens. Subsequently, the outer membrane protein C (OmpC) of E. coli was used as a scaffold for constructing a surface display library. A single restriction site, PstI, located in the seventh external loop of OmpC, was strategically utilized to insert each 12-amino-acid mimotope with a six-histidine (6xHis) tag sequence at its N-terminus, generating ompC + mimotope fusion constructs. These constructs were cloned into the inducible expression vector pTrc and electroporated into an E. coli DH5α ∆ompC strain, which lacked ompC. The surface expression of the mimotopes was confirmed in vitro. The verified ompC + mimotope constructs were subsequently subcloned into the pYA3422 constitutive expression vector and electroporated into the APEC PSUO78 ∆aroA ∆asd vaccine vector strain. A chicken vaccination–challenge trial was conducted using nine groups of chickens, including an unvaccinated challenged control and an unvaccinated–unchallenged negative control. Each experimental group received a mixture of two recombinant E. coli strains carrying different mimotopes at a dose of 1 × 10⁹ CFU, which were administered orally twice at 16 and 18 weeks of age. Results: Fourteen immunogenic mimotopes corresponding to 13 different C. hepaticus proteins were identified as potential vaccine candidates. The expression of these mimotopes on the surface of the E. coli was successfully demonstrated using the OmpC-mediated surface display system. Of the 14 mimotopes tested, two flagellar-related peptides and one major outer membrane protein (MOMP)-derived peptide elicited significant immune responses and conferred protection against the C. hepaticus challenge. Conclusions: We successfully developed a functional E. coli surface display system that was capable of expressing 12-amino-acid mimotopes of C. hepaticus, providing a robust platform for evaluating vaccine candidates against SLD. Immunogenicity and efficacy studies in chickens demonstrated that three identified mimotopes conferred protection against C. hepaticus colonization of the bile and liver. Future in vivo investigations are necessary to develop and evaluate the immunogenicity and protective efficacy of a multivalent mimotope vaccine consisting of three identified mimotopes against both C. hepaticus and APEC, utilizing the ΔaroA Δasd APEC PSU078 strain as the vaccine vector. Full article

Background and Objectives: Functional decline and sarcopenia are major aging-related concerns. While protein intake is known to influence muscle health, its longitudinal impact on strength and physical function across age and gender remains underexplored. We assessed whether low protein intake correlate with future onset of low handgrip strength (HGS) and physical impairments in older adults using SHARE data. Methods: We analyzed 38,073 adults aged ≥50 years from 27 European countries using SHARE Waves 8 (2019/20) and 9 (2021/22). A protein intake index was derived from the frequency of consuming dairy, legumes/eggs, and meat/fish/poultry. Low intake was defined as the lowest decile. Logistic regression models, adjusted for age, gender, country, and baseline health, examined associations with low HGS and ten physical difficulties, stratified by age (50–65 vs. ≥66 years) and gender. Results: Low protein intake is associated with higher odds of low HGS in men (OR = 1.39 for 50–65; OR = 1.35 for ≥66) and older women (OR = 1.21). It was also associated with higher odds of mobility-related limitations, including walking 100 m (ORs = 1.25–1.53), stooping/kneeling (ORs = 1.20–1.19 in women), and reaching overhead (ORs = 1.19–1.33). Strength-related tasks, such as pushing/pulling large objects were more affected in men (ORs = 1.44 and 1.21). Notably, women aged 50–65 had over twice the odds of toileting difficulty (OR = 2.27) and significantly higher odds of difficulty shopping (OR = 1.65). These patterns highlight gender- and age-specific vulnerabilities. Conclusions: Low protein intake is associated with modest but consistent increases in the risk of reduced muscle strength and functional difficulties in older adults. Tailored nutritional strategies may mitigate age- and gender-specific risks to physical independence. Full article

Background and Aims: Egg-derived proteins and peptides have been investigated for various health outcomes, yet no comprehensive meta-analysis has synthesized this evidence to guide clinical practice. This study aimed to evaluate the efficacy of oral egg-derived protein and peptide supplementation on health outcomes, including serum albumin and phosphorus in dialysis patients, and visceral fat area, blood pressure, muscle protein synthesis, and cognitive function in adults. Methods: PubMed, Embase, Cochrane Library, and Web of Science were searched through January 2026 for RCTs. Random-effect meta-analyses, sensitivity analyses, and publication bias assessments were performed. Risk of bias was evaluated using the RoB 2 tool. Evidence certainty was evaluated using GRADE. Results: Thirty RCTs (n = 1938) were included. In dialysis patients, egg white supplementation significantly increased serum albumin (MD: +0.42 g/dL [95% CI: 0.12–0.72]; I² = 82.4%; four RCTs; GRADE: very low) and decreased serum phosphorus (MD: −2.04 mg/dL [−2.50, −1.58]; I² = 22%; two RCTs; GRADE: low). Leave-one-out sensitivity analysis showed consistency. Lactic-fermented egg white peptide reduced the visceral fat area (MD: −11.6 cm² [−18.5, −4.8]; two RCTs; GRADE: very low). NWT-03 egg protein hydrolysate showed no significant effect on blood pressure (MD: +0.5 mmHg [−1.8, +2.7]; two RCTs). Publication bias was not detected. Conclusions: Egg-derived protein supplementation provides clinical benefits in dialysis patients with hypoalbuminemia, but evidence is lacking supporting its routine use in healthy adults or other clinical populations. Full article

Background: Fish skin mucus contains proteins involved in diverse biological pathways, representing a valuable non-invasive diagnostic of fish health. Methods: Skin mucus from three male and three female barramundi was analysed using liquid chromatography-tandem mass spectrometry (LC-MS/MS) following protein extraction and S-Trap digestion. Results and Discussion: A total of 1801 protein groups were matched to the L. calcarifer reference proteome and functionally annotated using Gene Ontology (GO) terms via UniProt ID mapping, with representation across Biological Process, Cellular Component, and Molecular Function categories. Functional classification using eggNOG-mapper further associated leading protein group sequences with Clusters of Orthologous Groups (COGs) and Kyoto Encyclopaedia of Genes and Genomes (KEGG) pathways. GO-based screening prioritised 352 putatively immune-relevant protein groups and 24 protein groups associated with sex- and reproduction-related processes, highlighting the functional complexity of the skin mucus proteome. Comparative analysis revealed sex-associated patterns in protein group detection and relative abundance, with differential abundance analysis identifying 244 protein groups exhibiting statistically significant differences between male and female samples. Conclusions: This study provides the first comprehensive discovery-based characterisation of the barramundi skin mucus proteome and establishes a baseline reference dataset for this aquaculture-relevant species. The findings support the utility of skin mucus proteomics for exploring immune and sex-associated molecular patterns and provide a baseline dataset for future validation studies investigating non-invasive health and reproductive monitoring. Full article