Your search keyword '"Gao, Yulong"' showing total 232 results

1. A tonoplast-localized TPK-type K + transporter (TPKa) regulates potassium accumulation in tobacco.

Author

Gao Y, Zhao L, Wang B, Song Z, Jiao F, Wu X, Feng Z, Chen X, Gao L, and Li Y

Subjects

Potassium Channels, Tandem Pore Domain metabolism, Potassium Channels, Tandem Pore Domain genetics, CRISPR-Cas Systems, Potassium Channels metabolism, Potassium Channels genetics, Nicotiana genetics, Nicotiana metabolism, Potassium metabolism, Plant Proteins genetics, Plant Proteins metabolism, Gene Expression Regulation, Plant

Abstract

Potassium ion (K + ) is one of the most essential nutrients for the growth and development of tobacco (Nicotiana tabacum L.), however, the molecular regulation of K + concentration in tobacco remains unclear. In this study, a two-pore K (TPK) channel gene NtTPKa was cloned from tobacco, and NtTPKa protein contains the unique K + selection motif GYGD and its transmembrane region primarily locates in the tonoplast membrane. The expression of NtTPKa gene was significantly increased under low-potassium stress conditions. The concentrations of K + in tobacco were significantly increased in the NtTPKa RNA interference lines and CRISPR/Cas9 knockout mutants. In addition, the transport of K + by NtTPKa was validated using patch clamp technique, and the results showed that NtTPKa channel protein exclusively transported K + in a concentration-dependent manner. Together, our results strongly suggested that NtTPKa is a key gene in maintaining K + homeostasis in tobacco, and it could provide a new genetic resource for increasing the concentration of K + in tobacco., 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 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Monoclonal antibody development and antigenic epitope identification of infectious bursal disease virus VP5.

Author

Han J, Niu X, Ge C, Wu Z, Wang G, Huang M, Zhang Y, Liu R, Xu M, Yu H, Han J, Wang S, Liu Y, Chen Y, Cui H, Zhang Y, Duan Y, Wang X, Li L, Gao Y, and Qi X

Abstract

Infectious bursal disease (IBD) is an important immunosuppressive disease affecting chickens and is caused by infectious bursal disease virus (IBDV) infection. VP5 is a non-essential protein for IBDV replication but plays a critical role in IBDV pathogenesis. A deeper understanding of the biological functions of VP5 is lacking. This study utilized a prokaryotic system to express and purify soluble VP5 from the dominant epidemic strain of IBDV and developed a hybridoma cell line capable of secreting IBDV VP5 monoclonal antibody (MAb). The VP5 MAb demonstrated strong specificity for IBDV VP5 and could effectively discriminate between IBDV and its VP5-deleted strain. Furthermore, the antigen epitope of 137RRDLPKPE145 from IBDV VP5 was identified, which is the first detailed report of an IBDV VP5 antigen epitope. This antigen epitope, which is located at the C-terminus of VP5, is conserved across various IBDV serotype 1 strains. The findings of this study offer valuable insights for further exploration of gene function and differential detection of VP5., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

3. Ligilactobacillus salivarius XP132 with antibacterial and immunomodulatory activities inhibits horizontal and vertical transmission of Salmonella Pullorum in chickens.

Author

He T, Hu X, Mi J, Hu H, Wang H, Qi X, Gao L, Zhang Y, Liu C, Wang S, Chen Y, Wang X, Yang G, Gao Y, and Cui H

Subjects

Animals, Immunologic Factors pharmacology, Immunologic Factors administration & dosage, Infectious Disease Transmission, Vertical veterinary, Infectious Disease Transmission, Vertical prevention & control, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents administration & dosage, Salmonella physiology, Specific Pathogen-Free Organisms, Salmonella enterica, Chickens, Poultry Diseases microbiology, Poultry Diseases prevention & control, Salmonella Infections, Animal prevention & control, Salmonella Infections, Animal microbiology, Salmonella Infections, Animal immunology, Probiotics pharmacology, Probiotics administration & dosage, Ligilactobacillus salivarius physiology

Abstract

Probiotics are increasingly recognized for their capacity to combat pathogenic bacteria. In this study, we isolated a strain of Ligilactobacillus salivarius XP132 from the gut microbiota of healthy chickens. This strain exhibited resistance to low pH and bile salts, auto-aggregation capabilities, and the ability to co-aggregate with pathogenic Salmonella. The in vitro antibacterial activity of Ligilactobacillus salivarius XP132 was tested using an Oxford cup antibacterial test, and the results showed that Ligilactobacillus salivarius XP132 exhibited broad-spectrum antibacterial activity, with especially strong antibacterial activity against Salmonella. In animal experiments with white feather broilers and specific-pathogens-free (SPF) chickens, we orally administered 1 × 10 9 CFU XP132 live bacteria per chicken per day, and detected the content of Salmonella in the liver, spleen, intestinal contents, and eggs of the chickens by RT-qPCR. Oral administration of Lactobacillus salivarius XP132 group significantly reduced the levels of Salmonella in chicken liver, spleen, intestinal contents and eggs, and the oral administration of Ligilactobacillus salivarius XP132 significantly inhibited the horizontal and vertical transmission of Salmonella in SPF chickens and white-feathered broilers. After oral administration of XP132, the production of chicken serum anti-infective cytokine IFN-γ was also significantly up-regulated, thereby enhancing the host's ability to resist infection. In addition, the production of various serum inflammatory cytokines, including IL-1β, IL-6, IL-8, and TNF-α, was down-regulated, leading to significant amelioration of the inflammatory response induced by S. Pullorum in chickens. These findings suggest that Ligilactobacillus salivarius XP132 possesses potent antibacterial and immunomodulatory properties that effectively prevent both horizontal and vertical transmission of Salmonella Pullorum, highlighting its potential as a valuable tool for the prevention and control of Salmonella disease., Competing Interests: DISCLOSURES The authors declare no conflict of interest., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

4. Identification of Cables1 as a critical host factor that promotes ALV-J replication via genome-wide CRISPR/Cas9 gene knockout screening.

Author

Liu P, Jiang J, Chen Y, Gao F, Wang S, Yu M, Liu Y, Guo R, Zhang L, Xu Z, Wang C, Qi X, Zhang Y, Cui H, Duan Y, Wu S, and Gao Y

Abstract

Avian leukosis virus subgroup J (ALV-J), a member of the genus Alpharetrovirus, possesses a small genome and exploits a vast array of host factors during its replication cycle. To identify host factors required for ALV-J replication and potentially guide the development of key therapeutic targets for ALV-J prevention, we employed a chicken genome-wide CRISPR/Cas9 knockout library to screen host factors involved in ALV-J infection within DF-1 cells. This screening revealed 42 host factors critical for ALV-J infection. Subsequent knockout assays showed that the absence of the genes encoding cycle-regulatory proteins, namely, Cables1, CDK1, and DHFR, significantly inhibited ALV-J replication. Notably, Cables1 knockout cell lines displayed the most pronounced inhibitory effect. Conversely, overexpression assays confirmed that Cables1 significantly promotes ALV-J replication. Immunoprecipitation assays further indicated that Cables1 specifically interacts with the viral protein p15 (viral protease) among all ALV-J proteins, enhancing ALV-J p15 polyubiquitination. Additionally, we identified 26 lysine residues of ALV-J p15 as key sites for ubiquitination, and their replacement with arginine attenuated the replication ability of ALV-J in both in vitro and in vivo assays. This study demonstrates that Cables1 is a critical replication-dependent host factor of ALV-J by enhancing p15 ubiquitination and thereby promoting viral replication. Overall, these findings contribute to a deeper understanding of the ALJ-V replication mechanism and offer a potential target for the prevention and control of ALV-J infection., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

5. Construction of Recombinant Marek's Disease Virus Co-Expressing VP1 and VP2 of Chicken Infectious Anemia Virus.

Author

Li K, Liu Y, Liu C, Zhang Y, Cui H, Qi X, Zhang J, Xu J, Wang S, Chen Y, Duan Y, Gao Y, and Wang X

Abstract

The chicken infectious anemia virus (CIAV) has been reported in major poultry-producing countries and poses a significant threat to the poultry industry worldwide. In this study, two Marek's disease virus (MDV) recombinants, rMDV-CIAV-1 and rMDV-CIAV-2, were generated by inserting the CIAV VP1 and VP2 genes into the MDV vaccine strain 814 at the US2 site using the fosmid-based rescue system. For rMDV-CIAV-1, an internal ribosome entry site was inserted between VP1 and VP2, so that both proteins were produced from a single open reading frame. In rMDV-CIAV-2, VP1 and VP2 were cloned into different open reading frames and inserted into the MDV genome. The recombinant viruses simultaneously expressed VP1 and VP2 in infected chicken embryo fibroblasts and exhibited growth kinetics similar to those of the parent MDV. The two recombinant viruses induced antibodies against CIAV in chickens. A single dose of the recombinant viruses provided strong protection against CIAV-induced anemia in chickens. These recombinant VP1- and VP2-expressing MDVs are potential vaccines against CIAV in chickens.

Published

2024

6. Construction of recombinant Marek's disease virus co-expressing σB and σC of avian reoviruses.

Author

Gao L, Zhong L, Liu Y, Liu C, Zhang Y, Cui H, Qi X, Zhang J, Xu J, Wang S, Chen Y, Duan Y, Li K, Gao Y, and Wang X

Abstract

Avian reoviruses (ARVs) cause viral arthritis or tenosynovitis, resulting in poor weight gain and increased feed conversion ratios in chickens. In this study, we generated three Marek's disease virus (MDV) recombinants, namely, rMDV-ARV-σB, rMDV-ARV-σC, and rMDV-ARV-σB + C, expressing ARV σB, σC, and both σB and σC, respectively. In rMDV-ARV-σB and rMDV-ARV-σC, the σB or σC gene was inserted into the US2 gene of MDV vaccine strain 814 using a fosmid-based rescue system. In rMDV-ARV-σB + C, the σB and σC genes were cloned into different expression cassettes, which were co-inserted into the US2 gene of the MDV 814 strain. In infected chicken embryo fibroblasts (CEFs), the recombinant virus rMDV-ARV-σB expressed σB, rMDV-ARV-σC expressed σC, and the rMDV-ARV-σB + C virus simultaneously expressed σB and σC. These recombinant viruses exhibited growth kinetics in CEFs similar to those of the parent MDV, and the inserted genes were stably maintained and expressed in the recombinant MDVs after 20 passages in cell cultures. These recombinant MDVs expressing σB and σC will provide potential vaccines against ARV infection in chickens., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Gao, Zhong, Liu, Liu, Zhang, Cui, Qi, Zhang, Xu, Wang, Chen, Duan, Li, Gao and Wang.)

Published

2024

7. Recombinant Marek's disease virus type 1 provides full protection against H9N2 influenza A virus in chickens.

Author

Chen Y, Yu Q, Fan W, Zeng X, Zhang Z, Tian G, Liu C, Bao H, Wu L, Zhang Y, Liu Y, Wang S, Cui H, Duan Y, Chen H, and Gao Y

Abstract

The H9N2 subtype of the avian influenza virus (AIV) poses a significant threat to the poultry industry and human health. Recombinant vaccines are the preferred method of controlling H9N2 AIV, and Marek's disease virus (MDV) is the ideal vector for recombinant vaccines. During this study, we constructed two recombinant MDV type 1 strains that carry the hemagglutinin (HA) gene of AIV to provide dual protection against both AIV and MDV. To assess the effects of different MDV insertion sites on the protective efficacy of H9N2 AIV, the HA gene of H9N2 AIV was inserted in UL41 and US2 of the MDV type 1 vector backbone to obtain recombinant viruses rMDV-UL41/HA and rMDV-US2/HA, respectively. An indirect immunofluorescence assay showed sustained expression of HA protein in both recombinant viruses. Additionally, the insertion of the HA gene in UL41 and US2 did not affect MDV replication in cell cultures. After immunization of specific pathogen-free chickens, although both the rMDV-UL41/HA and rMDV-US2/HA groups exhibited similar levels of hemagglutination inhibition antibody titers, only the rMDV-UL41/HA group provided complete protection against the H9N2 AIV challenge, and also offered complete protection against challenge with MDV. These results demonstrated that rMDV-UL41/HA could be used as a promising bivalent vaccine strain against both H9N2 avian influenza and Marek's disease in chickens., Competing Interests: Declaration of Competing Interest The authors of this study have no conflicts of interest to declare., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

8. Specific and Sensitive Visual Proviral DNA Detection of Major Pathogenic Avian Leukosis Virus Subgroups Using CRISPR-Associated Nuclease Cas13a.

Author

Xu Q, Zhang Y, Sadigh Y, Tang N, Chai J, Cheng Z, Gao Y, Qin A, Shen Z, Yao Y, and Nair V

Subjects

Animals, Poultry Diseases virology, Poultry Diseases diagnosis, Chickens virology, Sensitivity and Specificity, CRISPR-Associated Proteins genetics, CRISPR-Associated Proteins metabolism, Avian Leukosis Virus genetics, Avian Leukosis Virus isolation & purification, Avian Leukosis Virus classification, Proviruses genetics, Proviruses isolation & purification, Avian Leukosis virology, Avian Leukosis diagnosis, CRISPR-Cas Systems, DNA, Viral genetics

Abstract

Avian leukosis viruses (ALVs) include a group of avian retroviruses primarily associated with neoplastic diseases in poultry, commonly referred to as avian leukosis. Belonging to different subgroups based on their envelope properties, ALV subgroups A, B, and J (ALV-A, ALV-B, and ALV-J) are the most widespread in poultry populations. Early identification and removal of virus-shedding birds from infected flocks are essential for the ALVs' eradication. Therefore, the development of rapid, accurate, simple-to-use, and cost effective on-site diagnostic methods for the detection of ALV subgroups is very important. Cas13a, an RNA-guided RNA endonuclease that cleaves target single-stranded RNA, also exhibits non-specific endonuclease activity on any bystander RNA in close proximity. The distinct trans-cleavage activity of Cas13 has been exploited in the molecular diagnosis of multiple pathogens including several viruses. Here, we describe the development and application of a highly sensitive Cas13a-based molecular test for the specific detection of proviral DNA of ALV-A, B, and J subgroups. Prokaryotically expressed LwaCas13a, purified through ion exchange and size-exclusion chromatography, was combined with recombinase polymerase amplification (RPA) and T7 transcription to establish the SHERLOCK (specific high-sensitivity enzymatic reporter unlocking) molecular detection system for the detection of proviral DNA of ALV-A/B/J subgroups. This novel method that needs less sample input with a short turnaround time is based on isothermal detection at 37 °C with a color-based lateral flow readout. The detection limit of the assay for ALV-A/B/J subgroups was 50 copies with no cross reactivity with ALV-C/D/E subgroups and other avian oncogenic viruses such as reticuloendotheliosis virus (REV) and Marek's disease virus (MDV). The development and evaluation of a highly sensitive and specific visual method of detection of ALV-A/B/J nucleic acids using CRISPR-Cas13a described here will help in ALV detection in eradication programs.

Published

2024

9. A Blockchain Copyright Protection Scheme Based on CP-ABE Scheme with Policy Update.

Author

Jiang J, Gao Y, Gong Y, and Jiang Z

Abstract

Although the copyright protection schemes supported by blockchain have significantly changed traditional copyright data management, there are still some data security challenges that cannot be ignored, especially the secure access and controllable management of copyright data. Quantum computing attacks also pose a threat to its security. Targeting these issues, we design and propose a blockchain copyright protection scheme based on attribute-based encryption (ABE). In this scheme, the security advantages of blockchain technology are utilized to ensure the authenticity and integrity of copyright data. Based on lattice cryptography and the decision ring learning with errors (R-LWE) problem, a new ABE algorithm that supports searchable ciphertext and policy updates is designed. Then, we introduce it into the blockchain copyright protection scheme, which enables secure access to copyright data and fine-grained control. In addition, the lattice cryptography can strengthen this scheme against quantum attacks. Through security analysis, our scheme can prove to be secure against adaptive chosen keyword attacks, selective chosen plaintext attacks, and adaptive chosen policy attacks in the random oracle model. More importantly, the comparison analysis and experimental results show that our proposed approach has lower computation costs and storage costs. Therefore, our scheme has better security and performance in copyright protection.

Published

2024

10. Molecular Structure Engineering of Isomeric Additives for Long Lifetime Zn Anodes.

Author

Gao Y, Fu J, Mo F, Zhang L, Ho D, and Hu H

Abstract

Modulating the solvation structure of hydrated zinc ions using organic additives stands as a pragmatic approach to suppress dendrite formation and corrosion on zinc metal anodes (ZMAs), thereby enhancing the rechargeability of aqueous Zn-ion batteries. However, fundamental screening principles for organic additives with diverse molecular structures remain elusive, especially for isomers with the same molecular formula. This study delves into the impact of three isomeric hexagonal alcohols (mannitol, sorbitol, and galactitol) as additives in adjusting Zn 2+ solvation structural behaviors within ZnSO 4 baseline electrolytes. Electrical measurements and molecular simulations reveal the specific molecular structure of mannitol, which features interweaving electron clouds between adjacent hydroxyl groups, achieving a high local electron cloud density. This phenomenon significantly enhances desolvation abilities, thus establishing a more stable anode/electrolyte interface chemistry. Even at 5 mA cm -2 for 2.5 mAh cm -2 capacity, Zn||Zn symmetric cells with mannitol-regulated electrolyte display an impressive 1170 h lifespan, far exceeding those with other isomer additives and is nearly tenfold longer than that with a pure ZnSO 4 electrolyte (120 h). Rather than strictly adhering to focusing on chemical composition, this study with emphasis on optimizing molecular structure offers a promising untapped dimension to screen more efficient additives to enhance the reversibility of ZMAs., (© 2024 Wiley‐VCH GmbH.)

Published

2024

11. Interaction of Glycemic Control and Statin Use on Diabetes-Tuberculosis Treatment Outcome: A Nested Case-Control Study.

Author

Meng X, Zheng H, Du J, Wang X, Wang Y, Hu J, Zhao J, Du Q, and Gao Y

Abstract

This study aims to explore the interaction of glycemic control and statin use on the treatment outcomes of pulmonary tuberculosis-diabetes comorbidity (PTB-DM) patients. A nested case-control study was conducted in a tuberculosis patients' cohort. We defined cases as patients who experienced unfavorable outcomes. Glycemic control was estimated at the baseline. Statin use was obtained from medical records. The multivariate logistic regression models were developed, and the interaction table invented by Andersson was adopted to analyze the interaction of glycemic control and statin use on treatment outcomes. A total of 2,047 patients were included in this study. There was a significant interaction between glycemic control and statin use on the treatment outcomes. Patients with good glycemic control and no statin use (OR = 0.464, 95% CI: 0.360-0.623) had a lower risk of unfavorable outcomes than those with poor glycemic control and statin use (OR = 0.604, 95% CI: 0.401-0.734). Patients with good glycemic control and statin use had the lowest risk of unfavorable outcomes (OR = 0.394, 95% CI: 0.264-0.521). Glycemic control in diabetes-tuberculosis treatment should be paid considerable attention. Patients can benefit from statin use even if they have poor glycemic control. Patients with good glycemic control and statin use can have the best outcomes., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2024 Xiangrui Meng et al.)

Published

2024

12. Integrated mendelian randomization analyses highlight AFF3 as a novel eQTL-mediated susceptibility gene in renal cancer and its potential mechanisms.

Author

Wang Q, Chen S, Wang G, Zhang T, and Gao Y

Subjects

Humans, Genome-Wide Association Study, Polymorphism, Single Nucleotide, Genetic Predisposition to Disease, Kidney Neoplasms genetics, Mendelian Randomization Analysis, Quantitative Trait Loci

Abstract

Backgrounds: A growing number of expression quantitative trait loci (eQTLs) have been found to be linked with tumorigenesis. In this article, we employed integrated Mendelian randomization (MR) analyses to identify novel susceptibility genes in renal cancer (RC) and reveal their potential mechanisms., Methods: Two-sample MR analyses were performed to infer causal relationships between eQTLs, metabolites, and RC risks through the "TwoSampleMR" R package. Sensitivity analyses, such as heterogeneity, pleiotropy, and leave-one-out analysis, were used to assess the stability of our outcomes. Summary-data-based MR (SMR) analyses were used to verify the causal relationships among cis-eQTLs and RC risks via the SMR 1.3.1 software., Results: Our results provided the first evidence for AFF3 eQTL elevating RC risks, suggesting its oncogenic roles (IVW method; odds ratio (OR) = 1.0005; 95% confidence interval (CI) = 1.0001-1.0010; P = 0.0285; heterogeneity = 0.9588; pleiotropy = 0.8397). Further SMR analysis validated the causal relationships among AFF3 cis-eQTLs and RC risks (P < 0.05). Moreover, the TCGA-KIRC, the ICGC-RC, and the GSE159115 datasets verified that the AFF3 gene was more highly expressed in RC tumors than normal control via scRNA-sequencing and bulk RNA-sequencing (P < 0.05). Gene set enrichment analysis (GSEA) analysis identified six potential biological pathways of AFF3 involved in RC. As for the potential mechanism of AFF3 in RC, we concluded in this article that AFF3 eQTL could negatively modulate the levels of the X-11,315 metabolite (IVW method; OR = 0.9127; 95% CI = 0.8530-0.9765; P = 0.0081; heterogeneity = 0.4150; pleiotropy = 0.8852), exhibiting preventive effects against RC risks (IVW method; OR = 0.9987; 95% CI = 0.9975-0.9999; P = 0.0380; heterogeneity = 0.5362; pleiotropy = 0.9808)., Conclusions: We concluded that AFF3 could serve as a novel eQTL-mediated susceptibility gene in RC and reveal its potential mechanism of elevating RC risks via negatively regulating the X-11,315 metabolite levels., (© 2024. The Author(s).)

Published

2024

13. Loop P DE of viral capsid protein is involved in immune escape of the emerging novel variant infectious bursal disease virus.

Author

Wang G, Jiang N, Yu H, Niu X, Huang M, Zhang Y, Zhang W, Han J, Xu M, Liu R, Wu Z, Han J, Wang S, Gao L, Cui H, Zhang Y, Chen Y, Gao Y, and Qi X

Subjects

Animals, China, Antibodies, Viral immunology, Mutation, Viral Vaccines immunology, Viral Structural Proteins, Infectious bursal disease virus genetics, Infectious bursal disease virus immunology, Chickens virology, Capsid Proteins genetics, Capsid Proteins immunology, Poultry Diseases virology, Poultry Diseases immunology, Birnaviridae Infections veterinary, Birnaviridae Infections virology, Birnaviridae Infections immunology, Immune Evasion

Abstract

Infectious bursa disease (IBD) is an acute, highly contactable, lethal, immunosuppressive infectious disease caused by the Infectious bursa disease virus (IBDV). Currently, the emerged novel variant IBDV (nVarIBDV) and the sustainedly prevalent very virulent IBDV (vvIBDV) are the two most prevalent strains of IBDV in China. The antigenic properties of the two prevalent strains differed significantly, which led to the escape of nVarIBDV from the immune protection provided by the existing vvIBDV vaccine. However, the molecular basis of the nVarIBDV immune escape remains unclear. In this study, we demonstrated, for the first time, that residues 252, 254, and 256 in the P DE of VP2 are involved in the immune escape of the emerging nVarIBDV. Firstly, the IFA-mediated antigen-antibody affinity assay showed that P BC and P DE of VP2 could affect the affinity of vvIBDV antiserum to VP2, of which P DE was more significant. The key amino acids of P DE influencing the antigen-antibody affinity were also identified, with G254N being the most significant, followed by V252I and I256V. Then the mutated virus with point or combined mutations was rescued by reverse genetics. it was further demonstrated that mutations of V252I, G254N, and I256V in P DE could individually or collaboratively reduce antigen-antibody affinity and interfere with antiserum neutralization, with G254N being the most significant. This study revealed the reasons for the widespread prevalence of nVarIBDV in immunized chicken flocks and provided innovative ideas for designing novel vaccines that match the antigen of the epidemic strain., Competing Interests: Declaration of Competing Interest The authors declare that they have no competing interests., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

14. Investigating the spatiotemporal expression of CBTS genes lead to the discovery of tobacco root as a cembranoid-producing organ.

Author

Du Z, Tian T, Gao Y, Guan J, Ju F, Bian S, Wang J, Lin X, Wang B, Liao Z, Du Y, Zhang Z, and Zhang H

Abstract

Tobacco cembranoids, known for their anti-insect and antifungal properties, were shown to be mainly present on the surface of leaves and flowers, being biosynthesized by their trichomes. It remains unclear whether they could be biosynthesized in other organs without trichomes. Cembratrien-ol synthases (CBTSs) catalyze the conversion of GGPP to CBT-ols and thus play an important role in cembranoid biosynthesis. This study identified the CBTS family genes in tobacco and examined their spatiotemporal expression patterns. The CBTS genes showed diverse expression patterns in tobacco organs, with the majority highly expressed in leaves and a few highly expressed in flowers. The expression of CBTS genes were also correlated with the development of tobacco plants, and most of them showed the highest expression level at the budding stage. Furthermore, their expression is mediated by the JA (jasmonate) signaling in all tobacco organs. Several CBTS genes were found to be highly expressed in tobacco roots that have no trichomes, which prompted us to determine the cembranoid production in roots and other organs. GC-MS and UPLC assays revealed that cembranoids were produced in all tobacco organs, which was supported by the bioactivity assay results that almost all these CBTS enzymes could catalyze CBT-ol biosyntheis in yeast, and that the content ratio of CBT-ols and CBT-diols in tobacco roots was different to that in leaves. This work sheds insights into the expression profiles of tobacco CBTS genes and provides a feasibility to engineer tobacco roots for industrial production of cembranoids., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Du, Tian, Gao, Guan, Ju, Bian, Wang, Lin, Wang, Liao, Du, Zhang and Zhang.)

Published

2024

15. OASL suppresses infectious bursal disease virus replication by targeting VP2 for degrading through the autophagy pathway.

Author

Wang S, Xu Z, Liu Y, Yu M, Zhang T, Liu P, Qi X, Chen Y, Meng L, Guo R, Zhang L, Fan W, Gao L, Duan Y, Zhang Y, Cui H, and Gao Y

Subjects

Animals, Poultry Diseases virology, Poultry Diseases metabolism, Host-Pathogen Interactions, HEK293 Cells, Humans, Cell Line, Infectious bursal disease virus physiology, Virus Replication, Autophagy, Birnaviridae Infections virology, Birnaviridae Infections metabolism, Viral Structural Proteins metabolism, Viral Structural Proteins genetics, Chickens, 2',5'-Oligoadenylate Synthetase metabolism, 2',5'-Oligoadenylate Synthetase genetics

Abstract

Infectious bursal disease (IBD) is an acute and fatal immunosuppressive disease caused by infectious bursal disease virus (IBDV). As an obligate intracellular parasite, IBDV infection is strictly regulated by host factors. Knowledge on the antiviral activity and possible mechanism of host factors might provide the theoretical basis for the prevention and control of IBD. In this study, RNA-sequencing results indicated that many host factors were induced by IBDV infection, among which the expression levels of OASL (2´,5´-oligadenylate synthetase-like protein) was significantly upregulated. OASL overexpression significantly inhibited IBDV replication, whereas OASL knockdown promoted IBDV replication. Interestingly, the antiviral ability of OASL was independent of its canonical enzymatic activity, i.e., OASL targeted viral protein VP2 for degradation, depending on the autophagy receptor p62/SQSTM1 in the autophagy pathway. Additionally, the 316 lysine (K) of VP2 was the key site for autophagy degradation, and its replacement with arginine disrupted VP2 degradation induced by OASL and enhanced IBDV replication. Importantly, our results for the first time indicate a unique and potent defense mechanism of OASL against double-stranded RNA virus by interaction with viral proteins, which leads to their degradation., Importance: OASL (2´,5´-oligadenylate synthetase-like protein) exhibits broad-spectrum antiviral effects against single-stranded RNA viruses in mammals, potentially serving as a promising target for novel antiviral strategies. However, its role in inhibiting the replication of double-stranded RNA viruses (dsRNA viruses), such as infectious bursal disease virus (IBDV), in avian species remains unclear. Our findings indicated a unique and potent defense mechanism of OASL against dsRNA viruses. It has been previously shown in mammals that OASL inhibits virus replication through increasing interferon production. The groundbreaking aspect of our study is the finding that OASL has the ability to interact with IBDV viral protein VP2 and target it for degradation and thus exerts its antiviral effect. Our results reveal the interaction between avian natural antiviral immune response and IBDV infection. Our study not only enhances our understanding of bird defenses against viral infections but can also inform strategies for poultry disease management., Competing Interests: The authors declare no conflict of interest.

Published

2024

16. Author Correction: Tumor immunoevasion by the conversion of effector NK cells into type 1 innate lymphoid cell.

Author

Gao Y, Souza-Fonseca-Guimaraes F, Bald T, Ng SS, Young A, Ngiow SF, Rautela J, Straube J, Waddell N, Blake SJ, Yan J, Bartholin L, Lee JS, Vivier E, Takeda K, Messaoudene M, Zitvogel L, Teng MWL, Belz GT, Engwerda CR, Huntington ND, Nakamura K, Hölzel M, and Smyth MJ

Published

2024

17. Infectious bursal disease virus VP5 triggers host shutoff in a transcription-dependent manner.

Author

Niu X, Han J, Huang M, Wang G, Zhang Y, Zhang W, Yu H, Xu M, Li K, Gao L, Wang S, Chen Y, Cui H, Zhang Y, Liu C, Wang X, Gao Y, and Qi X

Subjects

Animals, Virus Replication, Immunity, Innate, Immune Evasion, Cytokines, Chickens, Infectious bursal disease virus genetics

Abstract

Viruses have evolved intricate mechanisms to evade host antiviral responses and exploit cellular resources by manipulating the expression profile of host genes. During infection, viruses encode proteins with shutoff activity to globally inhibit host protein synthesis, which is an effective strategy for immune evasion. In this study, compelling evidence shows that infectious bursal disease virus (IBDV) infection triggers the suppression of host protein synthesis. Furthermore, using both in vitro and in vivo viral infection models, we have identified that IBDV specifically impedes the transcription of host genes via the shutoff activity of viral VP5, simultaneously conferring advantages to IBDV infection in these circumstances. The proposed mechanism suggests that VP5 competitively binds to RanBP1, disrupting the RanGDP/GTP gradient. This disruption interferes with cellular nucleocytoplasmic transport, impairing the nuclear import of proteins bearing nuclear localization signals. The nuclear transport of pivotal transcriptional regulatory factors, such as p65 and IFN regulatory factor 7, is also compromised, leading to the inhibition of pro-inflammatory cytokines and interferon expression. This newly discovered strategy employed by IBDV enables them to manipulate host gene expression, providing novel insights into how viruses evade host immune responses and establish infections.IMPORTANCEViruses manipulate host processes at various levels to regulate or evade both innate and adaptive immune responses, promoting self-survival and efficient transmission. The "host shutoff," a global suppression of host gene expression mediated by various viruses, is considered a critical mechanism for evading immunity. In this study, we have validated the presence of host shutoff during infectious bursal disease virus (IBDV) infection and additionally uncovered that the viral protein VP5 plays a pivotal role in inhibiting the overall synthesis of host proteins, including cytokines, through a transcription-dependent pathway. VP5 competitively binds with RanBP1, leading to disruption of the Ran protein cycle and consequently interfering with nucleocytoplasmic transport, which ultimately results in the suppression of host gene transcription. These findings unveil a novel strategy employed by IBDV to evade host innate immunity and rapidly establish infection. This study also suggests a novel supplement to understanding the pathway through which viruses inhibit host protein synthesis., Competing Interests: The authors declare no conflict of interest.

Published

2024

18. N123I mutation in the ALV-J receptor-binding domain region enhances viral replication ability by increasing the binding affinity with chNHE1.

Author

Yu M, Zhang Y, Zhang L, Wang S, Liu Y, Xu Z, Liu P, Chen Y, Guo R, Meng L, Zhang T, Fan W, Qi X, Gao L, Zhang Y, Cui H, and Gao Y

Subjects

Animals, Mutation, Chickens, Protein Isoforms genetics, Viral Envelope Proteins genetics, Avian Leukosis Virus genetics, Avian Leukosis Virus chemistry, Avian Leukosis, Poultry Diseases

Abstract

The subgroup J avian leukosis virus (ALV-J), a retrovirus, uses its gp85 protein to bind to the receptor, the chicken sodium hydrogen exchanger isoform 1 (chNHE1), facilitating viral invasion. ALV-J is the main epidemic subgroup and shows noteworthy mutations within the receptor-binding domain (RBD) region of gp85, especially in ALV-J layer strains in China. However, the implications of these mutations on viral replication and transmission remain elusive. In this study, the ALV-J layer strain JL08CH3-1 exhibited a more robust replication ability than the prototype strain HPRS103, which is related to variations in the gp85 protein. Notably, the gp85 of JL08CH3-1 demonstrated a heightened binding capacity to chNHE1 compared to HPRS103-gp85 binding. Furthermore, we showed that the specific N123I mutation within gp85 contributed to the enhanced binding capacity of the gp85 protein to chNHE1. Structural analysis indicated that the N123I mutation primarily enhanced the stability of gp85, expanded the interaction interface, and increased the number of hydrogen bonds at the interaction interface to increase the binding capacity between gp85 and chNHE1. We found that the N123I mutation not only improved the viral replication ability of ALV-J but also promoted viral shedding in vivo. These comprehensive data underscore the notion that the N123I mutation increases receptor binding and intensifies viral replication., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Yu et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

19. Advances on adaptive immune responses affected by infectious bursal disease virus in chicken.

Author

Zhang T, Wang S, Liu Y, Qi X, and Gao Y

Subjects

Animals, Chickens, B-Lymphocytes, Health Status, Immunosuppressive Agents, Immunity, Humoral, Infectious bursal disease virus

Abstract

Infectious bursal disease (IBD) is an acute, highly infectious, and immunosuppressive disease caused by the infectious bursal disease virus (IBDV), which interferes with the immune system, causes hypoimmunity and seriously threatens the healthy development of the poultry industry. Adaptive immune response, an important defense line of host resistance to pathogen infection, is the host-specific immune response mainly mediated by T and B lymphocytes. As an important immunosuppressive pathogen in poultry, IBDV infection is closely related to the injury of the adaptive immune system. In this review, we focus on recent advances in adaptive immune response influenced by IBDV infection, especially the damage on immune organs, as well as the effect on humoral immune response and cellular immune response, hoping to provide a theoretical basis for further exploration of the molecular mechanism of immunosuppression induced by IBDV infection and the establishment of novel prevention and control measures for IBD., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Zhang, Wang, Liu, Qi and Gao.)

Published

2024

20. Effect of preoperative intensive statin on the efficacy and inflammatory response of acute ST-segment elevation myocardial infarction after emergency percutaneous coronary intervention.

Author

Yan X, Wang Q, Gao Y, and Yin C

Subjects

Humans, C-Reactive Protein metabolism, Cholesterol, LDL, Arrhythmias, Cardiac, Treatment Outcome, Hydroxymethylglutaryl-CoA Reductase Inhibitors therapeutic use, Percutaneous Coronary Intervention, Myocardial Infarction drug therapy, ST Elevation Myocardial Infarction drug therapy, ST Elevation Myocardial Infarction surgery

Abstract

It was to explore the application value of individualized nursing oriented by solution-focused nursing mode in postoperative nursing of patients with pelvic fractures. 90 patients with ST-segment elevation myocardial infarction (STEMI) undergoing emergency percutaneous coronary intervention (PCI) were enrolled. They were randomly grouped into a control group and an experimental group, with 45 cases in each group. Patients in the general group were treated with conventional treatment, and patients in the enhancement group were treated with high-dose rosuvastatin based on conventional treatment. The experimental group was compared for indicators such as serum inflammatory factors, cardiac function, overall efficacy, and follow-up prognosis before and after the operation. After treatment, the total cholesterol (TC), triglyceride (TG), high-density lipoprotein cholesterol (HDL-C), and low-density lipoprotein cholesterol (LDL-C) in the enhancement group were better as against the control group (P<0.05). Through treatment, the concentration of high-sensitivity C-reactive protein (hs-CRP), tumor necrosis factor-α (TNF-α), and interleukin-6 (IL-6) in the enhancement group was lower compared to the general group. The total effective rate of the enhancement group (95.56%) was higher relative to the general group (86.67%) (P<0.05). In patients with STEMI, preoperative intensive statin therapy can improve the efficacy of PCI, and reduce the inflammatory response and the incidence of cardiovascular events.

Published

2023

21. Ethylene inhibits ABA-induced stomatal closure via regulating NtMYB184-mediated flavonol biosynthesis in tobacco.

Author

Song Z, Zhao L, Ma W, Peng Z, Shi J, Pan F, Gao Y, Sui X, Rengel Z, Chen Q, and Wang B

Subjects

Nicotiana genetics, Nicotiana metabolism, Abscisic Acid metabolism, Reactive Oxygen Species metabolism, Plant Stomata physiology, Ethylenes metabolism, Flavonols metabolism, Arabidopsis genetics, Arabidopsis Proteins metabolism

Abstract

Stomatal movement can be regulated by ABA signaling through synthesis of reactive oxygen species (ROS) in guard cells. By contrast, ethylene triggers the biosynthesis of antioxidant flavonols to suppress ROS accumulation and prevent ABA-induced stomatal closure; however, the underlying mechanism remains largely unknown. In this study, we isolated and characterized the tobacco (Nicotiana tabacum) R2R3-MYB transcription factor NtMYB184, which belongs to the flavonol-specific SG7 subgroup. RNAi suppression and CRISPR/Cas9 mutation (myb184) of NtMYB184 in tobacco caused down-regulation of flavonol biosynthetic genes and decreased the concentration of flavonols in the leaves. Yeast one-hybrid assays, transactivation assays, EMSAs, and ChIP-qPCR demonstrated that NtMYB184 specifically binds to the promoters of flavonol biosynthetic genes via MYBPLANT motifs. NtMYB184 regulated flavonol biosynthesis in guard cells to modulate ROS homeostasis and stomatal aperture. ABA-induced ROS production was accompanied by the suppression of NtMYB184 and flavonol biosynthesis, which may accelerate ABA-induced stomatal closure. Furthermore, ethylene stimulated NtMYB184 expression and flavonol biosynthesis to suppress ROS accumulation and curb ABA-induced stomatal closure. In myb184, however, neither the flavonol and ROS concentrations nor the stomatal aperture varied between the ABA and ABA+ethylene treatments, indicating that NtMYB184 was indispensable for the antagonism between ethylene and ABA via regulating flavonol and ROS concentrations in the guard cells., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2023

22. Barriers and facilitators of implementing electronic monitors to improve adherence and health outcomes in tuberculosis patients: protocol for a systematic review based on the Consolidated Framework for Implementation Research.

Author

Li W, Su M, Zhang W, Fan X, Li R, Gao Y, and Wei X

Subjects

Humans, Systematic Reviews as Topic, Outcome Assessment, Health Care, Electronics, Review Literature as Topic, Tuberculosis drug therapy

Abstract

Background: Tuberculosis (TB) has been regarded as 'a relentless scourge', increasing morbidity and mortality and burdening vulnerable populations. Poor adherence to TB treatment and ineffective traditional interventions hinders TB control. A novel TB approach called 'electronic monitors', equipping medication boxes with daily audio or visual reminders for electronically monitoring medication intake, seems promising in improving adherence and health outcomes and overcoming the weaknesses of traditional interventions. However, no review has systematically examined and synthesized the influencing factors of implementing electronic monitors. Implementation research offers the means to analyse the influencing factors of the implementation and its process, fitting well with the aim of this review. Therefore, the widely recognized Consolidated Framework for Implementation Research (CFIR), which offers a common taxonomy for evaluating intervention implementation, will be adopted to systematically identify barriers and facilitators of the electronic monitors for improving adherence and health outcomes in patients with TB., Methods and Analysis: The systematic review will follow the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Literature research will be conducted in five electronic databases (Ovid MEDLINE, CINAHL, EMBASE, Cochrane Library and Web of Science) to identify the barriers and facilitators of implementing electronic monitors in patients with TB. The CFIR will be used as a guide for categorizing and synthesizing the barriers and facilitators. Study screening, data extraction, quality appraisal and data analysis will be conducted by two independent reviewers. The use of additional reviewers will solve any disagreements between the two reviewers., Discussion: Given the increased prominence of TB epidemiology and the adherence problem of electronic monitors, there is a solid rationale for synthesizing the existing studies via the CFIR. The findings and conclusion of this review will lay bare the achievements and effectiveness of implementing electronic monitors, as well as the attendant gaps and limitations. Further strategies for facilitating the implementation of electronic monitors will also be explored. This review will be of essential significance for research and practice, supporting future academic research initiatives centred on patients with TB and aiding electronic monitor design in lowering the morbidity and mortality associated with TB disease., Trial Registration Number: PROSPERO: CRD42023395747., (© 2023. The Author(s).)

Published

2023

23. Enterococcus faecium C171: Modulating the Immune Response to Acute Lethal Viral Challenge.

Author

Mi J, He T, Hu X, Wang Z, Wang T, Qi X, Li K, Gao L, Liu C, Zhang Y, Wang S, Qiu Y, Liu Z, Song J, Wang X, Gao Y, and Cui H

Subjects

Animals, Leukocytes, Mononuclear, Chickens, Immunity, Enterococcus faecium, Virus Diseases, Probiotics

Abstract

Commensal bacteria modulate acute immune responses to infection in hosts. In this study, Enterococcus faecium C171 was screened and isolated. This strain has similar basic characteristics to the reference probiotic, including strong anti-inflammatory and anti-infective effects. E. faecium C171 inhibits the production of pro-Caspase-1 and significantly reduces the production of interleukin-1β (IL-1β) in vitro. These reactions were confirmed using the Transwell system. Live E. faecium C171 mainly exerted an inhibitory effect on acute inflammation, whereas the anti-infective and immune-activating effects were primarily mediated by the E. faecium C171-produced bacterial extracellular vesicles (Efm-C171-BEVs). Furthermore, in the specific pathogen-free (SPF) chicken model, oral administration of E. faecium C171 increased the relative abundance of beneficial microbiota (Enterococcus and Lactobacillus), particularly Enterococcus, the most important functional bacteria of the gut microbiota. E. faecium C171 significantly inhibited the acute inflammatory response induced by a highly virulent infectious disease, and reduced mortality in SPF chickens by 75%. In addition, E. faecium C171 induced high levels of CD3 + , CD4 - , and CD8 - immunoregulatory cells and CD8 + killer T cells, and significantly improved the proliferative activity of T cells in peripheral blood mononuclear cells, and the secretion of interferon-γ. These findings indicate that E. faecium C171 and Efm-C171-BEVs are promising candidates for adjuvant treatment of acute inflammatory diseases and acute viral infections., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2023

24. A Novel Variant of Avian Reovirus Is Pathogenic to Vaccinated Chickens.

Author

Liu R, Luo D, Gao J, Li K, Liu C, Qi X, Cui H, Zhang Y, Wang S, Wang X, Gao Y, and Gao L

Abstract

Avian reovirus (ARV) infections, characterized by severe arthritis, tenosynovitis, pericarditis, and poor weight gain, have become increasingly serious in recent years. The economic impact is significant as it causes growth inhibition and immunosuppression. Some commercial poultry in China have been widely vaccinated with available ARV vaccines; however, infections continue to occur even after vaccination. This study aimed to isolate a novel variant, ARV-SD19/11103, from the joint tissues of infected broiler chickens vaccinated with ARV vaccines in Shandong Province. Genetic evolution analysis of the major protective antigen σC gene in ARVs showed that ARV-SD19/11103 was located in the genotype cluster I but not in the same sub-cluster as the S1133 vaccine strain. The amino acid sequence similarity between SD19/11103 and vaccine strains S1133, 1733, and 2408 was <80%. After analyzing the amino acid sequences of the σC protein, 33 amino acid differences were found between the new variant isolate and the vaccine strains. This novel variant showed obvious pathogenicity in specific pathogen-free chicken embryos and chicks and could cause serious disease in chickens vaccinated with commercially available ARV vaccines. Cross-neutralization experiments further demonstrated a significant antigenic difference between the novel variant and genotype cluster I ARV strains. The novel variant strain isolated in this study provides an important theoretical basis for understanding the prevalence and genetic evolutionary characteristics of ARV variant strains in our country. This study identified the causes of ARVs circulating and emphasizes the needs for developing new vaccines against novel ARV variants.

Published

2023

25. Spatio-temporal comprehensive measurement of China's agricultural green development level and associated influencing factors.

Author

Cheng L, Gao Y, and Dai X

Subjects

Agriculture, China, Technology, Economic Development, Sustainable Development, Industry

Abstract

Green development is an inevitable trend in the modernization of agriculture and rural areas, and promoting the green development of agriculture has always been an important measure for China's sustainable growth. However, due to the influence of diverse regional environments and the wide range of landscapes in China, a largely agricultural country, China is facing ongoing challenges in improving the overall level of agricultural green development and narrowing regional differences, which has recently garnered worldwide attention. This study aims to measure and analyze the agricultural green development level of 30 provinces in China (Tibet, Hong Kong, Macao, and Taiwan are not included in the target areas of this research due to a lack of data). Here, we applied GIS technology, an entropy-TOPSIS (technique for order of preference by similarity to ideal solution) model, quantitative analysis methods such as global spatial autocorrelation analysis, coldspot and hotspot analysis, and a spatial Durbin model to construct measurement models and index systems, after which we performed a comprehensive spatiotemporal analysis of China's agricultural green development level. Furthermore, the present study also analyzed the factors that influence agricultural green development in China. The present study demonstrated that: (i) between 2005 and 2020, China's overall level of agricultural green development exhibited a fluctuating upward trend, with significant improvement and enhancement in most provinces. However, the overall level of China's agricultural green development remains low, and differences at the provincial level are particularly prominent, with the main regions displaying the following descending development pattern: Eastern > Central > Western regions. (ii) The level of China's agricultural green development shows clear signs of spatial aggregation, characterized by spatial dependence and heterogeneity. Although this phenomenon is gradually weakening over time, the high levels of agricultural green development in the eastern regions and low levels in the western regions are likely to persist in the near future. (iii) Green agricultural structure, technology supply, agricultural mechanization level, and arable land area are the key factors influencing China's level of agricultural green development. Among these factors, technology supply, agricultural mechanization level, and arable land area have the largest direct impact, whereas green agricultural structure has a positive spatial spillover effect on the level of agricultural green development. Technology supply has both a positive direct impact and a negative indirect impact on the level of agricultural green development. Therefore, further improving technology supply and agricultural mechanization level can directly promote China's agricultural green development., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Cheng et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

26. Arsenic Contents, Speciation and Toxicity in Germinated Rice Alleviated by Selenium.

Author

Zheng X, Hong J, Zhang J, Gao Y, Li P, Yuan J, Li G, and Xing C

Abstract

Rice can accumulate more organic and inorganic arsenic (iAs) than other crop plants. In this study, the localization of As in rice grains was investigated using High Performance Liquid Chromatography-Inductively Coupled Plasma Mass Spectrometry (HPLC-ICP-MS) based on 26 rice varieties collected from two provinces. In all the samples, the total As contents in polished rice were 0.03-0.37 mg/kg, with average values of 0.28 and 0.21 mg/kg for two sample sets. The results of the determination of arsenic speciation in different components of rice grain showed that in the polished and brown rice the mean value of arsenite (As(III)) was nearly twice than that of arsenate (As(V)). The regional difference was observed in both total As contents and As speciation. The reason may be that As(III) is more mobile than As(V) in a dissociated form and because of soil properties, rice varieties, and the growing environment. The proportion of iAs and the total As in rice bran was higher than that in polished rice, and this is because As tends accumulate between the husk and the endosperm. In our study, selenium could alleviate the risk of arsenic toxicity at the primary stage of rice growth. Co-exposure to As and Se in germinated rice indicated that the reduction in As accumulation in polished rice reached 73.8%, 76.8%, and 78.3% for total As, As(III), and As(V) when compared with rice treated with As alone. The addition of Se (0.3 mg/kg) along with As significantly reduced the As amount in different parts of germinated rice. Our results indicated that Se biofortification could alleviate the As accumulation and toxicity in rice crops.

Published

2023

27. Comparative Pathogenicity of Three Strains of Infectious Bursal Disease Virus Closely Related to Poultry Industry.

Author

Li K, Niu X, Jiang N, Zhang W, Wang G, Li K, Huang M, Gao Y, Qi X, and Wang X

Subjects

Animals, Poultry, Chickens, Virulence, Viremia veterinary, Infectious bursal disease virus, Birnaviridae Infections epidemiology, Birnaviridae Infections veterinary, Poultry Diseases

Abstract

Infectious bursal disease (IBD) is an acute, highly contagious, immunosuppressive, and fatal infectious disease of young chickens caused by infectious bursal disease virus (IBDV). Since 2017, a new trend has been discovered in the IBDV epidemic, with very virulent IBDV (vvIBDV) and novel variant IBDV (nVarIBDV) becoming the two current dominant strains in East Asia including China. In this study, we compared the biological characteristics of the vvIBDV (HLJ0504 strain), nVarIBDV (SHG19 strain), and attenuated IBDV (attIBDV, Gt strain) using specific-pathogen-free (SPF) chicken infection model. The results showed that vvIBDV distributed in multiple tissues, replicated the fastest in lymphoid organs such as bursa of Fabricius, induced significant viremia and virus excretion, and is the most pathogenic virus with a mortality of more than 80%. The nVarIBDV had a weaker replication capability and did not kill the chickens but caused severe damage to the central immune organ bursa of Fabricius and B lymphocytes and induced significant viremia and virus excretion. The attIBDV strain was found not to be pathogenic. Further studies preliminarily suggested that the expression level of inflammatory factors triggered by HLJ0504 was the highest, followed by the SHG19 group. This study is the first to systematically compare the pathogenic characteristics of three IBDVs closely related to poultry industry from the perspectives of clinical signs, micro-pathology, virus replication, and distribution. It is of great importance to obtain an extensive knowledge of epidemiology, pathogenicity, and comprehensive prevention, and control of various IBDV strains., Competing Interests: The authors declare no conflict of interest.

Published

2023

28. Residues E53, L55, H59, and G70 of the cellular receptor protein Tva mediate cell binding and entry of the novel subgroup K avian leukosis virus.

Author

Li X, Chen Y, Yu M, Wang S, Liu P, Meng L, Guo R, Feng X, Hu M, He T, Qi X, Li K, Gao L, Zhang Y, Liu C, Cui H, Wang X, and Gao Y

Subjects

Animals, Chickens metabolism, Receptors, Cell Surface metabolism, Viral Envelope Proteins metabolism, Vitamin B Complex, Avian Leukosis Virus genetics, Poultry Diseases, Receptors, Virus metabolism, Vitamin B 12 metabolism

Abstract

Subgroup K avian leukosis virus (ALV-K) is a novel subgroup of ALV isolated from Chinese native chickens. As for a retrovirus, the interaction between its envelope protein and cellular receptor is a crucial step in ALV-K infection. Tva, a protein previously determined to be associated with vitamin B 12 /cobalamin uptake, has been identified as the receptor of ALV-K. However, the molecular mechanism underlying the interaction between Tva and the envelope protein of ALV-K remains unclear. In this study, we identified the C-terminal loop of the LDL-A module of Tva as the minimal functional domain that directly interacts with gp85, the surface component of the ALV-K envelope protein. Further point-mutation analysis revealed that E53, L55, H59, and G70, which are exposed on the surface of Tva and are spatially adjacent, are key residues for the binding of Tva and gp85 and facilitate the entry of ALV-K. Homology modeling analysis indicated that the substitution of these four residues did not significantly impact the Tva structure but impaired the interaction between Tva and gp85 of ALV-K. Importantly, the gene-edited DF-1 cell line with precisely substituted E53, L55, H59, and G70 was completely resistant to ALV-K infection and did not affect vitamin B 12 /cobalamin uptake. Collectively, these findings not only contribute to a better understanding of the mechanism of ALV-K entry into host cells but also provide an ideal gene-editing target for antiviral study., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

29. Integrative analysis of sensory evaluation and non-targeted metabolomics to unravel tobacco leaf metabolites associated with sensory quality of heated tobacco.

Author

Zhao L, Shang S, Tian Y, Gao Y, Song Z, Peng L, Li Z, and Wang B

Abstract

Introduction: Heated tobacco ( Nicotiana tabacum L.) products are heating tobacco plug at a temperature of 350°C and produce different emissions in aerosol and sensory perceptions of tobacco leaf compared with combustible tobacco. Previous study assessed different tobacco varieties in heated tobacco for sensory quality and analyzed the links between sensory scores of the final products and certain chemical classes in tobacco leaf. However, contribution of individual metabolites to sensory quality of heated tobacco remains largely open for investigation., Methods: In present study, five tobacco varieties were evaluated as heated tobacco for sensory quality by an expert panel and the volatile and non-volatile metabolites were analyzed by non-targeted metabolomics profiling., Results: The five tobacco varieties had distinct sensory qualities and can be classified into higher and lower sensory rating classes. Principle component analysis and hierarchical cluster analysis showed that leaf volatile and non-volatile metabolome annotated were grouped and clustered by sensory ratings of heated tobacco. Orthogonal projections to latent structures discriminant analysis followed by variable importance in projection and fold-change analysis revealed 13 volatiles and 345 non-volatiles able to discriminate the tobacco varieties with higher and lower sensory ratings. Some compounds such as β-damascenone, scopoletin, chlorogenic acids, neochlorogenic acids, and flavonol glycosyl derivatives had strong contribution to the prediction of sensory quality of heated tobacco. Several lyso -phosphatidylcholine and lyso -phosphatidylethanolamine lipid species, and reducing and non-reducing sugar molecules were also positively related to sensory quality., Discussion: Taken together, these discriminating volatile and non-volatile metabolites support the role of leaf metabolites in affecting the sensory quality of heated tobacco and provide new information on the types of leaf metabolites that can be used to predict applicability of tobacco varieties for heated tobacco products., Competing Interests: Authors SS and YT were employed by China Tobacco Yunnan Industrial Co., Ltd, author ZL was employed by Qujing tobacco company. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Zhao, Shang, Tian, Gao, Song, Peng, Li and Wang.)

Published

2023

30. Synergistic effects of EP-1 and ivermectin mixture (iEP-1) to control rodents and their ectoparasites.

Author

Liu M, Ren D, Wan X, Shen X, Zhao C, Xingan, Wang Y, Bu F, Liu W, Zhang Z, Gao Y, Si X, Bai D, Yuan S, Zheng F, Wan X, Fu H, Wu X, Zheng A, Liu Q, and Zhang Z

Subjects

Animals, Female, Male, Mice, Drug Combinations, Ivermectin pharmacology, Levonorgestrel, Norgestrel pharmacology, Quinestrol pharmacology, Rodentia, Flea Infestations prevention & control, Siphonaptera, Ticks

Abstract

Background: Ectoparasites of rodents play significant roles in disease transmission to humans. Conventional poisoning potentially reduces the population densities of rodents, however, they may increase the ectoparasite loads on the surviving hosts. EP-1 has been shown to have anti-fertility effects on many rodent species, while ivermectin is effective in controlling ectoparasites. In this study, we examined the combined effects of EP-1 and ivermectin mixture (iEP-1) baits on rodents and their corresponding flea/tick loads., Results: In males, the weight of testis, epididymis, and seminiferous vesicle were reduced to less than 33%, 25%, and 17%, respectively, compared to the control group following administration of iEP-1 for 7 days. The weight of the uterus increased by approximately 75%. After 5 days of iEP-1 intake, all ticks were killed, whereas 94% of fleas on mice died after 3 days of bait intake. In the field test near Beijing, the flea index was reduced by more than 90% after 7 days of iEP-1 bait delivery. In a field test in Inner Mongolia, the weights of testis, epididymis, and seminiferous vesicle were significantly reduced by 27%, 32%, and 57%, respectively, 2 weeks after iEP-1 bait delivery. Approximately 36% rodents exhibited obvious uterine oedema accompanied by a weight increase of about 150%. The flea index was reduced by over 90%., Conclusion: Our results indicated that iEP-1 is a promising treatment for reducing the abundance of both small rodents and their ectoparasites; this will be effective for managing rodent damage and transmission of rodent-borne diseases associated with fleas and ticks. © 2022 Society of Chemical Industry., (© 2022 Society of Chemical Industry.)

Published

2023

31. Elevated THBS3 predicts poor overall survival for clear cell renal cell carcinoma and identifies LncRNA/RBP/THBS3 mRNA networks.

Author

Wang G, Qu F, Zhou J, Zhu B, and Gao Y

Subjects

Humans, RNA, Messenger genetics, Carcinoma, Renal Cell genetics, RNA, Long Noncoding genetics, Carcinoma, Kidney Neoplasms genetics

Abstract

This study was used to assess THBS3's overall survival (OS) prognostic values in clear cell renal cell carcinoma (ccRCC) as well as to determine the LncRNA/RNA binding protein (RBP)/THBS3 interactions. Clinical data and RNA sequencing data were gathered from the TCGA dataset. Significant pathways associated with THBS3 were identified by gene set enrichment analysis (GSEA). Cox regression analyses, both univariate and multivariate, were applied to assess factors with independent prognostic abilities. We also discussed THBS3's relationship to immunity. We discovered that THBS3 expression was increased in ccRCC samples, as well as shorter OS in the TCGA dataset (P<0.05). External verification results in GSE6344, ICGC, ArrayExpress, UALCAN datasets, and qRT-PCR remained consistent (all P<0.05). Cox regression analyses, both univariate and multivariate, identified THBS3 as a factor with independent prognostic ability (both P<0.001). THBS3 expression as well as several clinicopathological variables were included in the nomogram OS prognosis prediction method as well. GSEA identified four THBS3-related signal pathways and THBS3 was revealed to be significantly associated with MSI, TMB, neoantigen, and immunity (all P<0.05). We also identified several LncRNA/RBP/THBS3 mRNA networks as potentially THBS3-related mechanisms. For THBS3-related drug sensitivities, THBS3 was negatively associated with Actinomycin D, Cobimetinib, Eribulin mesilate, Geldanamycin analog, and Vinblastine, while it was positively related to Erlotinib drug sensitivity. In addition to being an independent prognostic factor for ccRCC, THBS3 had a close connection to immunity, with identifying LncRNA/RBPs/THBS3 mRNA networks. Verifications of our findings in vivo and in vitro should be done in the future.

Published

2023

32. Avian Reovirus σA Protein Inhibits Type I Interferon Production by Abrogating Interferon Regulatory Factor 7 Activation.

Author

Gao L, Liu R, Luo D, Li K, Qi X, Liu C, Zhang Y, Cui H, Wang S, Gao Y, and Wang X

Subjects

Animals, Cell Line, Chickens virology, Host-Pathogen Interactions, Immunity, Innate, RNA-Binding Proteins metabolism, Interferon Regulatory Factor-7 genetics, Interferon Regulatory Factor-7 metabolism, Interferon Type I metabolism, Orthoreovirus, Avian physiology, Tenosynovitis veterinary, Tenosynovitis virology, Viral Core Proteins metabolism

Abstract

Type I interferon (IFN) response is the first line of host-based innate immune defense against viral infections. However, viruses have developed multiple strategies to counter host IFN responses, so they may continue infecting hosts via effective replication. Avian reovirus (ARV), an RNA virus, causes viral arthritis or tenosynovitis in chickens. Previous studies have shown that ARV is highly resistant to the antiviral effects of IFN. However, the underlying mechanisms that enable ARV to block the IFN pathway remain unclear. In this study, we found that ectopic expression of ARV protein, σA, significantly inhibited the production of IFN-β induced by melanoma-differentiation-associated gene 5 (MDA5) and poly(I·C). Knockdown of σA during ARV infection enhances the IFN-β response and suppresses viral replication. ARV σA inhibited the MDA5-mediated IFN-β activation by targeting interferon regulatory factor 7 (IRF7). Further studies demonstrated that σA interacts with IRF7, thereby blocking IRF7 dimerization and nuclear translocation, finally leading to the inhibition of IFN-β production. These findings reveal a novel mechanism that allows ARV to evade host antiviral immunity. IMPORTANCE ARV, the causative agent of viral arthritis or tenosynovitis in chickens, has a significant economic impact as it results in poor weight gain and increased feed conversion ratios. The MDA5-mediated IFN-β signal pathway plays an important role in host antiviral defense. Therefore, RNA viruses have developed mechanisms to counter this signaling pathway and successfully establish infection. However, the strategies adopted by ARV to block MDA5-IRF7 signaling remain unclear. In the current study, we demonstrated that ARV σA inhibits this pathway by binding to IRF7, which blocked IRF7 dimerization and nuclear translocation. Our findings may provide insights into how avian reovirus counteracts the innate antiviral immunity of the host to ensure viral replication.

Published

2023

33. Duck Enteritis Virus Protein Kinase US3 Inhibits DNA Sensing Signaling by Phosphorylating Interferon Regulatory Factor 7.

Author

Liu R, Gao L, Yang F, Li X, Liu C, Qi X, Cui H, Zhang Y, Wang S, Wang X, Gao Y, and Li K

Subjects

Animals, Antiviral Agents, DNA, Ducks virology, Enteritis veterinary, Immunity, Innate, Interferon Regulatory Factor-7 metabolism, Interferon-beta genetics, Interferons, Signal Transduction, Protein Kinases metabolism, Viral Proteins genetics, Alphaherpesvirinae enzymology

Abstract

The cytosolic DNA sensing pathway mediates innate immune defense against infection by many DNA viruses; however, viruses have evolved multiple strategies to evade the host immune response. Duck enteritis virus (DEV) causes an acute and contagious disease with high mortality in waterfowl. The mechanisms employed by DEV to block the DNA sensing pathway are not well understood. Here, we sought to investigate the role of DEV US3, a serine/threonine protein kinase, in the inhibition of DNA sensing. We found that ectopic expression of DEV US3 significantly inhibited the production of IFN-β and expression of interferon-stimulated genes induced by interferon-stimulatory DNA and poly(dA-dT). US3 also inhibited viral DNA-triggered IFN-β activation and promoted DEV replication in duck embryo fibroblasts, while knockdown of US3 during DEV infection enhances the IFN-β response and suppresses viral replication. US3 inhibited the DNA-sensing signaling pathway by targeting interferon regulatory factor 7 (IRF7), and the kinase activity of US3 was indispensable for its inhibitory function. Furthermore, we found that US3 interacts with the activation domain of IRF7, phosphorylating IRF7, blocking its dimerization and nuclear translocation, and finally leading to the inhibition of IFN-β production. These findings expand our knowledge on DNA sensing in ducks and reveal a novel mechanism whereby DEV evades host antiviral immunity. IMPORTANCE Duck enteritis virus (DEV) is a duck alphaherpesvirus that causes an acute and contagious disease with high mortality, resulting in substantial economic losses in the commercial waterfowl industry. The evasion of DNA-sensing pathway-mediated antiviral innate immunity is essential for the persistent infection and replication for many DNA viruses. However, the strategies used by DEV to block the DNA-sensing pathway are not well understood. In this study, DEV US3 protein kinase was demonstrated to inhibit the DNA-sensing signaling via binding to the activation domain of interferon regulatory factor 7 (IRF7), which induced the hyperphosphorylation of IRF7 and abolished IRF7 dimerization and nuclear translocation. Our findings provide insights into how duck herpesviral kinase counteracts host antiviral innate immunity to ensure viral replication and spread.

Published

2022

34. Duck Enteritis Virus Inhibits the cGAS-STING DNA-Sensing Pathway To Evade the Innate Immune Response.

Author

Gao L, Liu R, Yang F, Li X, Liu C, Qi X, Cui H, Zhang Y, Wang S, Wang X, Gao Y, and Li K

Subjects

Animals, DNA, Viral genetics, DNA, Viral metabolism, Enteritis immunology, Enteritis virology, Interferon Regulatory Factor-7 genetics, Signal Transduction, Immune Evasion genetics, Ducks, Immunity, Innate genetics, Nucleotidyltransferases genetics, Nucleotidyltransferases metabolism, Viral Proteins genetics, Viral Proteins metabolism, Alphaherpesvirinae genetics, Alphaherpesvirinae immunology

Abstract

Cyclic GMP-AMP synthase (cGAS), a key DNA sensor, detects cytosolic viral DNA and activates the adaptor protein stimulator of interferon genes (STING) to initiate interferon (IFN) production and host innate antiviral responses. Duck enteritis virus (DEV) is a duck alphaherpesvirus that causes an acute and contagious disease with high mortality in waterfowl. In the present study, we found that DEV inhibits host innate immune responses during the late phase of viral infection. Furthermore, we screened DEV proteins for their ability to inhibit the cGAS-STING DNA-sensing pathway and identified multiple viral proteins, including UL41, US3, UL28, UL53, and UL24, which block IFN-β activation through this pathway. The DEV tegument protein UL41, which exhibited the strongest inhibitory effect, selectively downregulated the expression of interferon regulatory factor 7 (IRF7) by reducing its mRNA accumulation, thereby inhibiting the DNA-sensing pathway. Ectopic expression of UL41 markedly reduced viral DNA-triggered IFN-β production and promoted viral replication, whereas deficiency of UL41 in the context of DEV infection increased the IFN-β response to DEV and suppressed viral replication. In addition, ectopic expression of IRF7 inhibited the replication of the UL41-deficient virus, whereas IRF7 knockdown facilitated its replication. This study is the first report identifying multiple viral proteins encoded by a duck DNA virus, which inhibit the cGAS-STING DNA-sensing pathway. These findings expand our knowledge of DNA sensing in ducks and reveal a mechanism through which DEV antagonizes the host innate immune response. IMPORTANCE Duck enteritis virus (DEV) is a duck alphaherpesvirus that causes an acute and contagious disease with high mortality, resulting in substantial economic losses in the commercial waterfowl industry. The evasion of DNA-sensing pathway-mediated antiviral innate immunity is essential for the persistent infection and replication of many DNA viruses. However, the mechanisms used by DEV to modulate the DNA-sensing pathway remain poorly understood. In the present study, we found that DEV encodes multiple viral proteins to inhibit the cGAS-STING DNA-sensing pathway. The DEV tegument protein UL41 selectively diminished the accumulation of interferon regulatory factor 7 (IRF7) mRNA, thereby inhibiting the DNA-sensing pathway. Loss of UL41 potently enhanced the IFN-β response to DEV and impaired viral replication in ducks. These findings provide insights into the host-virus interaction during DEV infection and help develop new live attenuated vaccines against DEV.

Published

2022

35. Complete genome analysis reveals evolutionary history and temporal dynamics of Marek's disease virus.

Author

Li K, Yu Z, Lan X, Wang Y, Qi X, Cui H, Gao L, Wang X, Zhang Y, Gao Y, and Liu C

Abstract

Marek's disease has caused enormous losses in poultry production worldwide. However, the evolutionary process and molecular mechanisms underlying Marek's disease virus (MDV) remain largely unknown. Using complete genomic sequences spanning an unprecedented diversity of MDVs, we explored the evolutionary history and major patterns in viruses sampled from 1964 to 2018. We found that the evolution of MDV strains had obvious geographical features, with the Eurasian and North American strains having independent evolutionary paths, especially for Asian strains. The evolution of MDVs generally followed a clock-like structure with a relatively high evolutionary rate. Asian strains had evolved at a faster rate than European strains, with most genetic mutations occurring in Asian strains. Our results showed that all recombination events occurred in the UL and US subregions. We found direct evidence of a closer correlation between Eurasian strains, related to a series of reorganization events represented by the European strain ATE2539. We also discovered that the vaccine strains had recombined with the wild virulent strains. Base substitution and recombination were found to be the two main mechanisms of MDV evolution. Our study offers novel insights into the evolution of MDVs that could facilitate predicting the spread of infections, and hence their control., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Li, Yu, Lan, Wang, Qi, Cui, Gao, Wang, Zhang, Gao and Liu.)

Published

2022

36. The Over-40-Years-Epidemic of Infectious Bursal Disease Virus in China.

Author

Zhang W, Wang X, Gao Y, and Qi X

Subjects

Animals, Chickens, Genotype, China epidemiology, Infectious bursal disease virus genetics, Poultry Diseases, Birnaviridae Infections epidemiology, Birnaviridae Infections veterinary

Abstract

Infectious bursal disease (IBD) is an acute, highly contagious, immunosuppressive disease of chickens caused by the virus (IBDV), which critically threatens the development of the global chicken industry and causes huge economic losses. As a large country in the poultry industry, the epidemic history of IBDV in China for more than 40 years has been briefly discussed and summarized for the first time in this report. The first classic strain of IBDV appeared in China in the late 1970s. In the late 1980s and early 1990s, the very virulent IBDV (vvIBDV) rapidly swept across the entirety of China, threatening the healthy development of the poultry industry for more than 30 years. Variants of IBDV, after long-term latent circulation with the accumulation of mutations since the early 1990s, suddenly reappeared as novel variant strains (nVarIBDV) in China in the mid-2010s. Currently, there is a coexistence of various IBDV genotypes; the newly emerging nVarIBDV of A2dB1 and persistently circulating vvIBDV of A3B3 are the two predominant epidemic strains endangering the poultry industry. Continuous epidemiological testing and the development of new prevention and control agents are important and require more attention. This report is of great significance to scientific cognition and the comprehensive prevention and control of the IBDV epidemic.

Published

2022

37. Residues L55 and W69 of Tva Mediate Entry of Subgroup A Avian Leukosis Virus.

Author

Chen Y, Wang S, Li X, Yu M, Liu P, Meng L, Guo R, Feng X, Liu A, Qi X, Li K, Gao L, Pan Q, Zhang Y, Liu C, Cui H, Wang X, and Gao Y

Subjects

Animals, Avian Leukosis virology, Avian Proteins genetics, Avian Proteins metabolism, Chickens metabolism, Humans, Lipoproteins, LDL metabolism, Nucleotides metabolism, Receptors, Virus genetics, Receptors, Virus metabolism, Transcobalamins metabolism, Vitamin B 12 metabolism, Amino Acids metabolism, Avian Leukosis Virus metabolism

Abstract

The receptor of the subgroup A avian leukosis virus (ALV-A) in chicken is Tva, which is the homologous protein of human CD320 (huCD320), contains a low-density lipoprotein (LDL-A) module and is involved in the uptake of transcobalamin bound vitamin B 12 /cobalamin (Cbl). To map the functional determinants of Tva responsible for ALV-A receptor activity, a series of chimeric receptors were created by swapping the LDL-A module fragments between huCD320 and Tva. These chimeric receptors were then used for virus entry and binding assays to map the minimal ALV-A functional domain of Tva. The results showed that Tva residues 49 to 71 constituted the minimal functional domain that directly interacted with the ALV-A gp85 protein to mediate ALV-A entry. Single-residue substitution analysis revealed that L55 and W69, which were spatially adjacent on the surface of the Tva structure, were key residues that mediate ALV-A entry. Structural alignment results indicated that L55 and W69 substitutions did not affect the Tva protein structure but abolished the interaction force between Tva and gp85. Furthermore, substituting the corresponding residues of huCD320 with L55 and W69 of Tva converted huCD320 into a functional receptor of ALV-A. Importantly, soluble huCD320 harboring Tva L55 and W69 blocked ALV-A entry. Finally, we constructed a Tva gene-edited cell line with L55R and W69L substitutions that could fully resist ALV-A entry, while Cbl uptake was not affected. Collectively, our findings suggested that amino acids L55 and W69 of Tva were key for mediating virus entry. IMPORTANCE Retroviruses bind to cellular receptors through their envelope proteins, which is a crucial step in infection. While most retroviruses require two receptors for entry, ALV-A requires only one. Various Tva alleles conferring resistance to ALV-A, including Tva r1 (C40W substitution), Tva r2 (frame-shifting four-nucleotide insertion), Tva r3 , Tva r4 , Tva r5 , and Tva r6 (deletion in the first intron), are known. However, the detailed entry mechanism of ALV-A in chickens remains to be explored. We demonstrated that Tva residues L55 and W69 were key for ALV-A entry and were important for correct interaction with ALV-A gp85. Soluble Tva and huCD320 harboring the Tva residues L55 and W69 effectively blocked ALV-A infection. Additionally, we constructed gene-edited cell lines targeting these two amino acids, which completely restricted ALV-A entry without affecting Cbl uptake. These findings contribute to a better understanding of the infection mechanism of ALV-A and provided novel insights into the prevention and control of ALV-A.

Published

2022

38. Correction for Gao et al., "Inhibition of DNA-Sensing Pathway by Marek's Disease Virus VP23 Protein through Suppression of Interferon Regulatory Factor 7 Activation".

Author

Gao L, Li K, Zhang Y, Liu Y, Liu C, Zhang Y, Gao Y, Qi X, Cui H, Wang Y, and Wang X

Published

2022

39. Emerging natural recombinant Marek's disease virus between vaccine and virulence strains and their pathogenicity.

Author

Zhang Y, Lan X, Wang Y, Lin Y, Yu Z, Guo R, Li K, Cui H, Qi X, Wang Y, Gao L, Pan Q, Liu A, Gao Y, Wang X, and Liu C

Subjects

Animals, Chickens, Virulence, Herpesvirus 2, Gallid genetics, Marek Disease prevention & control, Marek Disease Vaccines genetics, Poultry Diseases

Abstract

Marek's disease virus (MDV), an oncogenic virus belonging to the subfamily Alphaherpesvirinae, causes Marek's disease (MD). Vaccines can control MD but cannot block the viral infection; they are considered imperfect vaccines, which carry the risk of recombination. In this study, six natural recombinant MDV strains were isolated from infected chickens in commercial flocks in China. We sequenced and analysed the genetic characteristics of the isolates (HC/0803, CH/10, SY/1219, DH/1307, DH/1504 and Hrb/1504). We found that the six strains resulted from recombination between the vaccine CVI988/Rispens (CVI988) strain skeleton and the virulence strain's partial unique short region. Additionally, a pathogenicity study was performed on recombinant strains (HC/0803 and DH/1307) and reference strains (CVI988 and LHC2) to evaluate their virulence. LHC2 induced 84.6% mortality in infected chickens; however, no mortality was recorded in chickens inoculated with HC/0803, DH/1307 or CVI988. However, HC/0803 and DH/1307 induced a notable spleen enlargement, and mild thymus and bursa atrophy at 11-17 days post-challenge (dpc). The viral genome load in the HC/0803- and DH/1307-challenged chickens peaked at approximately 10 7 viral copies per million host cells at 17 dpc and was similar to that in LHC2-challenged chickens, but significantly higher than that of CVI988-challenged chickens. In summary, HC/0803 and DH/1307 displayed mild virulence with temporal damage to the immune organs of chicken and a higher reproduction capability than the vaccine strain CVI988. Our study provides direct evidence of the emergence of recombinant MDV strains between vaccine and virulence strains in nature. The emergence of natural recombinant strains suggests that live vaccines can act as genetic donors for genomic recombination, and recombination may be a safety concern when administering live vaccines. These findings demonstrate that recombination promotes genetic diversity and increases the complexity of disease diagnosis, prevention and control., (© 2022 Wiley-VCH GmbH.)

Published

2022

40. Complete Genome Analysis and Animal Model Development of Fowl Adenovirus 8b.

Author

Liu A, Zhang Y, Wang J, Cui H, Qi X, Liu C, Zhang Y, Li K, Gao L, Wang X, Gao Y, and Pan Q

Subjects

Animals, Chickens, Models, Animal, Phylogeny, Adenoviridae Infections, Aviadenovirus genetics, Poultry Diseases

Abstract

Inclusion body hepatitis (IBH), hydropericardium syndrome, and gizzard erosion associated with fowl adenovirus (FAdV) infection have caused notable economic losses worldwide. In 2020, severe IBH was observed in a layer chicken farm in Hebei Province, China. Liver samples were collected from layer chickens with severe IBH and virus isolation was performed in LMH cells. DNA sequence and bioinformatics analyses were conducted to determine the phylogenetic relationship and the pathogenicity assay was conducted in specific-pathogen-free (SPF) chickens. HeB20 strain was isolated and identified as FAdV-8b, and the complete genome was successfully sequenced (GenBank No. OK188966). Although widespread recombination in clinical strains has been reported within FAdVs, HeB20 showed some novel characteristics, and did not show any recombination, highlighting that recombinant and non-recombinant FAdV-8b coexist in the clinic poultry industry. Finally, pathogenicity animal model of HeB20 was developed and showed severe IBH and 10% mortality. Collectively, a new FAdV-8b strain (HeB20) was isolated and responsible for the severe IBH in layer chickens. Complete genome of HeB20 was sequenced and valuable for future epidemiological investigations. HeB20 was capable of inducing severe IBH and 10% mortality in SPF chickens; this animal model provides a powerful tool for the future vaccine development.

Published

2022

41. Residues 318 and 323 in capsid protein are involved in immune circumvention of the atypical epizootic infection of infectious bursal disease virus.

Author

Fan L, Wang Y, Jiang N, Gao Y, Niu X, Zhang W, Huang M, Bao K, Liu A, Wang S, Gao L, Li K, Cui H, Pan Q, Liu C, Zhang Y, Wang X, and Qi X

Abstract

Recently, atypical infectious bursal disease (IBD) caused by a novel variant infectious bursal disease virus (varIBDV) suddenly appeared in immunized chicken flocks in East Asia and led to serious economic losses. The epizootic varIBDV can partly circumvent the immune protection of the existing vaccines against the persistently circulating very virulent IBDV (vvIBDV), but its mechanism is still unknown. This study proved that the neutralizing titer of vvIBDV antiserum to the epizootic varIBDV reduced by 7.0 log 2 , and the neutralizing titer of the epizootic varIBDV antiserum to vvIBDV reduced by 3.2 log 2 . In addition, one monoclonal antibody (MAb) 2-5C-6F had good neutralizing activity against vvIBDV but could not well recognize the epizootic varIBDV. The epitope of the MAb 2-5C-6F was identified, and two mutations of G318D and D323Q of capsid protein VP2 occurred in the epizootic varIBDV compared to vvIBDV. Subsequently, the indirect immunofluorescence assay based on serial mutants of VP2 protein verified that residue mutations 318 and 323 influenced the recognition of the epizootic varIBDV and vvIBDV by the MAb 2-5C-6F, which was further confirmed by the serial rescued mutated virus. The following cross-neutralizing assay directed by MAb showed residue mutations 318 and 323 also affected the neutralization of the virus. Further data also showed that the mutations of residues 318 and 323 of VP2 significantly affected the neutralization of the IBDV by antiserum, which might be deeply involved in the immune circumvention of the epizootic varIBDV in the vaccinated flock. This study is significant for the comprehensive prevention and control of the emerging varIBDV., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Fan, Wang, Jiang, Gao, Niu, Zhang, Huang, Bao, Liu, Wang, Gao, Li, Cui, Pan, Liu, Zhang, Wang and Qi.)

Published

2022

42. Stromal Interaction Molecule 1 Promotes the Replication of vvIBDV by Mobilizing Ca 2+ in the ER.

Author

Yan N, Wang Y, Chen Z, Liu A, Li Y, Yang B, Li K, Qi X, Gao Y, Gao L, Liu C, Zhang Y, Cui H, Pan Q, and Wang X

Subjects

Animals, Chickens, Endoplasmic Reticulum, Stromal Interaction Molecule 1 genetics, Birnaviridae Infections veterinary, Infectious bursal disease virus, Poultry Diseases

Abstract

Infectious bursal disease virus (IBDV) is one of the main threats to the poultry industry worldwide. Very virulent IBDV (vvIBDV) is a fatal virus strain that causes heavy mortality in young chicken flocks. Ca 2+ is one of the most universal and versatile signalling molecules and is involved in almost every aspect of cellular processes. Clinical examination showed that one of the characteristics of vvIBDV-infected chickens was severe metabolic disorders, and the chemical examination showed that their serum Ca 2+ level decreased significantly. However, there are limited studies on how vvIBDV infection modulates the cellular Ca 2+ level and the effect of Ca 2+ level changes on vvIBDV replication. In our study, we found Ca 2+ levels in the endoplasmic reticulum (ER) of vvIBDV-infected B cells were higher than that of mock-infected cells, and the expression level of stromal interaction molecule 1 (STIM1), an ER Ca 2+ sensor, was significantly upregulated due to vvIBDV infection. The knock-down expression of STIM1 led to decreased Ca 2+ level in the ER and suppressed vvIBDV replication, while the over-expressed STIM1 led to ER Ca 2+ upregulation and promoted vvIBDV replication. We also showed that the inhibition of Ca 2+ -release-activated-Ca 2+ (CRAC) channels could reduce vvIBDV infection by blocking Ca 2+ from entering the ER. This study suggests a new mechanism that STIM1 promotes the replication of vvIBDV by mobilizing Ca 2+ in the ER.

Published

2022

43. Diagnostic performance of coronary computed tomography (CT) angiography derived fractional flow reserve (CTFFR) in patients with coronary artery calcification: insights from multi-center experiments in China.

Author

Tao Y, Gao Y, Wu X, Cheng Y, Yan X, Gao Y, Liu Y, Tang Y, and Li Z

Abstract

Background: Coronary computed tomography angiography (CCTA) is affected by calcification artifacts, which reduces its diagnostic efficacy. CT-derived fractional flow reserve (CTFFR) based on CCTA has been proven to be accurate in the diagnosis of non-calcified patients, but its clinical use in patients with calcified coronary artery disease remains to be investigated. The purpose of this study was to determine the effect of coronary artery calcification on CTFFR., Methods: CCTA, coronary angiography, and FFR were performed on 128 patients in three clinical medical centers. Local investigators performed an assessment of stenosis for CCTA and the core laboratory performed the CTFFR calculations. CTFFR ≤0.8 and diameter stenosis ≥50% for CCTA was identified as lesion-specific ischemia. The diagnostic performance of CTFFR in identifying the diagnostic sensitivity, specificity, and accuracy was analyzed using an invasive FFR ≤0.8 as the gold standard. We compared the diagnostic performances between CTFFR and CCTA according to the level of calcification. We divided patients into four groups based on the coronary artery calcification score [coronary artery calcification score (CACS) =0, >0 to <100, ≥100 to <400, and ≥400]., Results: The Youden index indicated an optimal threshold of 0.80 for CTFFR to identify functionally ischemic lesions. The sensitivity, specificity, accuracy, positive predictive value (PPV), negative predictive value (NPV), and area under receiver operating characteristic curve (AUC) for CTFFR on a per-patient basis were 90% (80-96%), 98% (92-99%), 94% (89-97%), 98% (91-99%), 92% (83-97%), and 96.9% (94.2-99.6%), respectively. Compared to CCTA, CTFFR had a higher specificity, accuracy, PPV, NPV, and AUC in both the low to intermediate calcification group and the high calcification group. The diagnostic efficacy of CTFFR was higher than that of CCTA without the influence of calcification., Conclusions: This Chinese multi-center study showed that CTFFR based on novel computational fluid dynamics (CFD) modeling demonstrated very high diagnostic efficacy compared to the invasive measurement of FFR in all lesions suspected coronary artery disease (CAD). Of particular note are the high specificity, sensitivity, and accuracy of CTFFR, even in patients with calcification, which were significantly better than previous CCTA assessments., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://atm.amegroups.com/article/view/10.21037/atm-22-3180/coif). YL is from Shenzhen Escope Technology Co., Ltd. The other authors have no conflicts of interest to declare., (2022 Annals of Translational Medicine. All rights reserved.)

Published

2022

44. Advances in Vaccine Development of the Emerging Novel Genotype Fowl Adenovirus 4.

Author

Liu A, Zhang Y, Cui H, Wang X, Gao Y, and Pan Q

Subjects

Adenoviridae genetics, Animals, Chickens, Genotype, Vaccine Development, Adenoviridae Infections prevention & control, Adenoviridae Infections veterinary, Aviadenovirus genetics, Poultry Diseases prevention & control, Viral Vaccines

Abstract

Fowl adenovirus (FAdV) was first reported in Angara Goth, Pakistan, in 1987. For this reason, it is also known as "Angara disease." It was later reported in China, Japan, South Korea, India, the United States, Canada, and other countries and regions, causing huge economic losses in the poultry industry worldwide. Notably, since June 2015, a natural outbreak of severe hydropericardium hepatitis syndrome (HHS), associated with a hypervirulent novel genotype FAdV-4 infection, has emerged in most provinces of China. The novel virus FAdV-4 spread rapidly and induced a 30-100% mortality rate, causing huge economic losses and threatening the green and healthy poultry breeding industry. Vaccines against FAdV-4, especially the emerging novel genotype, play a critical role and will be the most efficient tool for preventing and controlling HHS. Various types of FAdV-4 vaccines have been developed and evaluated, such as inactivated, live-attenuated, subunit, and combined vaccines. They have made great contributions to the control of HHS, but the details of cross-protection within FAdVs and the immunogenicity of different vaccines require further investigation. This review highlights the recent advances in developing the FAdV-4 vaccine and promising new vaccines for future research., Competing Interests: The authors declare that the research was conducted without potential commercial or financial relationships construed as a potential conflict of interest., (Copyright © 2022 Liu, Zhang, Cui, Wang, Gao and Pan.)

Published

2022

45. Identification of Chicken CD44 as a Novel B Lymphocyte Receptor for Infectious Bursal Disease Virus.

Author

Liu A, Pan Q, Wang S, Zhang Y, Li Y, Wang Y, Qi X, Gao L, Liu C, Zhang Y, Cui H, Li K, Wang X, and Gao Y

Subjects

Animals, B-Lymphocytes metabolism, Chickens, Receptors, Antigen, B-Cell metabolism, Birnaviridae Infections immunology, Birnaviridae Infections virology, Hyaluronan Receptors genetics, Hyaluronan Receptors metabolism, Infectious bursal disease virus physiology, Poultry Diseases immunology, Poultry Diseases virology

Abstract

Infectious bursal disease virus (IBDV), which targets bursa B lymphocytes, causes severe immunosuppressive disease in chickens, inducing huge economic losses for the poultry industry. To date, the functional receptor for IBDV binding and entry into host cells remains unclear. This study used mass spectrometry to screen host proteins of chicken bursal lymphocytes interacting with VP2. The chicken transmembrane protein cluster of differentiation 44 (chCD44) was identified and evaluated for its interaction with IBDV VP2, the major capsid protein. Overexpression and knockdown experiments showed that chCD44 promotes replication of IBDV. Furthermore, soluble chCD44 and the anti-chCD44 antibody blocked virus binding. The results of receptor reconstitution indicated that chCD44 overexpression conferred viral binding capability in nonpermissive cells. More important, although we found that IBDV could not replicate in the chCD44-overexpressed nonpermissive cells, the virus could enter nonpermissive cells using chCD44. Our finding reveals that chCD44 is a cellular receptor for IBDV, facilitating virus binding and entry in target cells by interacting with the IBDV VP2 protein. IMPORTANCE Infectious bursal disease virus (IBDV) causes severe immunosuppressive disease in chickens, inducing huge economic losses for the poultry industry. However, the specific mechanism of IBDV invading host cells of IBDV was not very clear. This study shed light on which cellular protein component IBDV is used to bind and/or enter B lymphocytes. The results of our study revealed that chCD44 could promote both the binding and entry ability of IBDV in B lymphocytes, acting as a cellular receptor for IBDV. Besides, this is the first report about chicken CD44 function in viral replication. Our study impacts the understanding of the IBDV binding and entry process and sets the stage for further elucidation of the infection mechanism of IBDV.

Published

2022

46. A novel inactivated bivalent vaccine for chickens against emerging hepatitis-hydropericardium syndrome and infectious bursal disease.

Author

Zhang Y, Liu A, Jiang N, Qi X, Gao Y, Cui H, Liu C, Zhang Y, Li K, Gao L, Wang X, and Pan Q

Subjects

Animals, Antibodies, Viral, Chickens, Vaccines, Combined, Birnaviridae Infections prevention & control, Birnaviridae Infections veterinary, Hepatitis, Infectious bursal disease virus, Poultry Diseases, Viral Vaccines

Abstract

The emerging hepatitis-hydropericardium syndrome (HHS) caused by the novel genotype of fowl adenovirus 4 (FAdV-4) and the infectious bursal disease (IBD) caused by the infectious bursal disease virus (IBDV) are important avian diseases, both cause huge economic losses to the poultry industry. Therefore, it is necessary to develop an efficient and convenient FAdV-4/IBDV bivalent vaccine to prevent the spread of FAdV-4 and IBDV infections. Given that VP2 is the main structural protein and protective antigen of IBDV, we constructed a recombinant FAdV-4 expressing IBDV VP2 in our previous study. In the current study, an inactivated bivalent FAdV-4/IBDV vaccine was developed from the recombinant strain. The inactivated bivalent vaccine elicited effective and specific neutralizing antibodies against both FAdV-4 and IBDV in specific-pathogen-free chickens. Furthermore, the novel vaccine not only protected chickens from death caused by FAdV-4 and the very virulent IBDV (vvIBDV) infection, but also ameliorated target organ damage and reduced viral load. The FAdV-4-vectored vaccine developed in this study provides new options for the development of avian polyvalent inactivated vaccines and is a powerful tool for the prevention of both emerging HHS and IBD., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

47. Novel Function of Avian p53 in Binding to ALV-J LTR Contributes to Its Antiviral Roles.

Author

Duan Y, Cao L, Yuan C, Suo X, Kong X, Gao Y, Li X, Zheng H, Wang X, and Wang Q

Subjects

Animals, Chickens, Tumor Suppressor Protein p53, Antiviral Agents, Viremia, Histones, Carcinogenesis, Avian Leukosis Virus physiology, Neoplasms, Poultry Diseases metabolism, Poultry Diseases pathology

Abstract

Accumulating evidence suggests that p53 is involved in viral infection. However, it remains elusive whether avian p53 orchestrates avian leukosis virus (ALV) replication. We showed that p53 recruits the histone deacetylase 1 and 2 (HDAC1/2) complex to the ALV promoter to shut off ALV's promoter activity and viral replication. HDAC1/2 binding to the ALV promoter was abolished in the absence of p53. Moreover, we collected samples in ALV-infected chickens and found that the acetylation status of ALV-bound H3 and H4 histones correlated with ALV viremia. HDAC inhibitors (HDACi) potently increase ALV replication, but HDACi-promoted viral replication is dramatically reduced in cells with p53 depletion. These data demonstrate that p53 is critical for inhibition ALV replication and suggest that future studies of ALV replication need to account for the potential effects of p53 activity. IMPORTANCE Rous sarcoma virus (RSV)/ALV was the first retrovirus to be discovered, which was really the first hint that cancer, or a tumor, could be transmitted by a virus. The specific mechanisms that regulate ALV replication during infection remain poorly understood. Here, we show that avian p53 and HDAC complex inhibit ALV promoter activity and replication, and p53 inhibits ALV replication through binding to the ALV promoter. We demonstrated that the acetylation status of ALV-bound H3 and H4 histones correlates with ALV viremia level using clinical samples collected from commercial poultry. These findings identify both p53-mediated inhibition on ALV replication and a potential role for virus-induced tumorigenesis.

Published

2022

48. R2R3-MYB Transcription Factor NtMYB330 Regulates Proanthocyanidin Biosynthesis and Seed Germination in Tobacco ( Nicotiana tabacum L.).

Author

Zhao L, Song Z, Wang B, Gao Y, Shi J, Sui X, Chen X, Zhang Y, and Li Y

Abstract

Proanthocyanidins (PAs) are important phenolic compounds and PA biosynthesis is regulated by a ternary MBW complex consisting of a R2R3-MYB regulator, a bHLH factor and a WDR protein. In this study, a tobacco R2R3-MYB factor NtMYB330 was characterized as the PA-specific regulator in which the PA biosynthesis was promoted in the flowers of NtMYB330 -overexpressing lines while decreased in the flowers of ntmyb330 mutants. NtMYB330 can interact with flavonoid-related bHLH partner NtAn1b and WDR protein NtAn11-1, and the NtMYB330-NtAn1b complex is required to achieve strong transcriptional activation of the PA-related structural genes NtDFR1 , NtANS1 , NtLAR1 and NtANR1 . Our data reveal that NtMYB330 regulates PA biosynthesis in seeds and affects seed germination, in which NtMYB330 -overexpressing lines showed higher PA accumulations in seed coats and inhibited germination, while ntmyb330 mutants had reduced seed coat PAs and improved germination. NtMYB330 affects seed germination possibly through two mechanisms: modulating seed coat PAs to affect coat-imposed dormancy. In addition, NtMYB330 regulates the expressions of abscisic acid (ABA) and gibberellin acid (GA) signaling-related genes, affecting ABA-GA crosstalk and seed germination. This study reveals that NtMYB330 specifically regulates PA biosynthesis via formation of the MBW complex in tobacco flowers and affects germination through adjustment of PA concentrations and ABA/GA signaling in tobacco seeds., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Zhao, Song, Wang, Gao, Shi, Sui, Chen, Zhang and Li.)

Published

2022

49. An inactivated vaccine based on artificial non-pathogenic fowl adenovirus 4 protects chickens against hepatitis-hydropericardium syndrome.

Author

Zhang Y, Liu A, Cui H, Qi X, Liu C, Zhang Y, Li K, Gao L, Wang X, Pan Q, and Gao Y

Subjects

Animals, Chickens, Vaccines, Inactivated immunology, Adenoviridae Infections prevention & control, Adenoviridae Infections veterinary, Aviadenovirus immunology, Hepatitis A veterinary, Poultry Diseases prevention & control, Viral Vaccines immunology

Abstract

Hepatitis-hydropericardium syndrome (HHS) in birds is mainly caused by virulent fowl adenovirus 4 (FAdV-4). A novel genotype, hypervirulent FAdV-4, emerged in 2015 with a high mortality rate ranging from 30 % to 100 % in chickens. Vaccination is an economically feasible method to control HHS. Although there have been various reports of inactivated vaccines from virulent wild-type FAdV-4 against HHS, biosafety threats of inactivated vaccines from potential pathogenic components have been presented to the poultry industry, and safer vaccines are urgently needed. A non-pathogenic recombinant FAdV-4 strain, designated as rHN20, was generated based on the hypervirulent strain in our previous study. Here, we developed a novel inactivated oil-adjuvanted vaccine derived from rHN20 strain and evaluated its immunogenicity in specific-pathogen-free chickens. Chickens subcutaneously or intramuscularly immunized with the inactivated vaccine produced high titers of neutralizing antibodies and were protected from a lethal dose of virulent wild-type FAdV-4 challenge. Collectively, an inactivated vaccine was developed, which was capable of providing full protection for chickens against HHS, and significantly reduced the potential biosafety threats., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022

50. Recombinant Duck Enteritis Virus-Vectored Bivalent Vaccine Effectively Protects Against Duck Hepatitis A Virus Infection in Ducks.

Author

Yang F, Liu P, Li X, Liu R, Gao L, Cui H, Zhang Y, Liu C, Qi X, Pan Q, Liu A, Wang X, Gao Y, and Li K

Abstract

Duck enteritis virus (DEV) and duck hepatitis A virus (DHAV) are prevalent duck pathogens, causing significant economic losses in the duck industry annually. Using a fosmid-based rescue system, we generated two DEV recombinants, rDEV-UL26/27-P13C and rDEV-US7/8-P13C, in which the P1 and 3C genes from DHAV type 3 (DHAV-3) were inserted into the DEV genome between genes UL26 and UL27 or genes US7 and US8. We inserted a self-cleaving 2A-element between P1 and 3C, allowing the production of both proteins from a single open reading frame. P1 and 3C were simultaneously expressed in infected chicken embryo fibroblasts, with no difference in growth kinetics between cells infected with the recombinant viruses and those infected with the parent DEV. Both recombinant viruses induced neutralizing antibodies against DHAV-3 and DEV in ducks. A single dose of the recombinant viruses induced solid protection against lethal DEV challenge and completely prevented DHAV-3 infection as early as 7 days post-vaccination. These recombinant P1- and 3C-expressing DEVs provide potential bivalent vaccines against DEV and DHAV-3 infection in ducks., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Yang, Liu, Li, Liu, Gao, Cui, Zhang, Liu, Qi, Pan, Liu, Wang, Gao and Li.)

Published

2021