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Auxotrophic Lactobacillus Expressing Porcine Rotavirus VP4 Constructed Using CRISPR-Cas9D10A System Induces Effective Immunity in Mice
Auxotrophic Lactobacillus Expressing Porcine Rotavirus VP4 Constructed Using CRISPR-Cas9D10A System Induces Effective Immunity in Mice
by Zhao, Haiyuan , Wang, Li , Tang, Lijie , Cui, Wen , Zhao, Yuliang , Li, Fengsai , Ding, Guojie , Li, Yijing , Li, Jiaxuan , Wang, Xiaona , Zhou, Han , Zhang, Huijun , Sui, Ling , Zhang, Hailin , Qiao, Xinyuan , Jiang, Yanping
in Alanine / Alanine racemase / Antibiotic resistance / Antibiotics / Antigens / Bacteria / CRISPR / CRISPR/Cas9D10A / Cytokines / Diarrhea / Drug resistance / E coli / Enzyme-linked immunosorbent assay / Food / Fusion protein / Genes / Genetic engineering / Genetic modification / Genomes / Helper cells / Immune response / Immune system / Immunization / Immunoglobulin A / Immunoglobulin G / Infections / Laboratories / Lactic acid / Lactic acid bacteria / Lactobacillus / Lymphocytes T / Morbidity / Morphology / Mucosa / nutritional deficient / oral immunization / Plasmids / porcine rotaviruses / Proteins / Rotavirus / Vaccination / Vaccines / Viruses / Western blotting
2022
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Auxotrophic Lactobacillus Expressing Porcine Rotavirus VP4 Constructed Using CRISPR-Cas9D10A System Induces Effective Immunity in Mice
by Zhao, Haiyuan , Wang, Li , Tang, Lijie , Cui, Wen , Zhao, Yuliang , Li, Fengsai , Ding, Guojie , Li, Yijing , Li, Jiaxuan , Wang, Xiaona , Zhou, Han , Zhang, Huijun , Sui, Ling , Zhang, Hailin , Qiao, Xinyuan , Jiang, Yanping
in Alanine / Alanine racemase / Antibiotic resistance / Antibiotics / Antigens / Bacteria / CRISPR / CRISPR/Cas9D10A / Cytokines / Diarrhea / Drug resistance / E coli / Enzyme-linked immunosorbent assay / Food / Fusion protein / Genes / Genetic engineering / Genetic modification / Genomes / Helper cells / Immune response / Immune system / Immunization / Immunoglobulin A / Immunoglobulin G / Infections / Laboratories / Lactic acid / Lactic acid bacteria / Lactobacillus / Lymphocytes T / Morbidity / Morphology / Mucosa / nutritional deficient / oral immunization / Plasmids / porcine rotaviruses / Proteins / Rotavirus / Vaccination / Vaccines / Viruses / Western blotting
2022
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Auxotrophic Lactobacillus Expressing Porcine Rotavirus VP4 Constructed Using CRISPR-Cas9D10A System Induces Effective Immunity in Mice
Auxotrophic Lactobacillus Expressing Porcine Rotavirus VP4 Constructed Using CRISPR-Cas9D10A System Induces Effective Immunity in Mice
by Zhao, Haiyuan , Wang, Li , Tang, Lijie , Cui, Wen , Zhao, Yuliang , Li, Fengsai , Ding, Guojie , Li, Yijing , Li, Jiaxuan , Wang, Xiaona , Zhou, Han , Zhang, Huijun , Sui, Ling , Zhang, Hailin , Qiao, Xinyuan , Jiang, Yanping
in Alanine / Alanine racemase / Antibiotic resistance / Antibiotics / Antigens / Bacteria / CRISPR / CRISPR/Cas9D10A / Cytokines / Diarrhea / Drug resistance / E coli / Enzyme-linked immunosorbent assay / Food / Fusion protein / Genes / Genetic engineering / Genetic modification / Genomes / Helper cells / Immune response / Immune system / Immunization / Immunoglobulin A / Immunoglobulin G / Infections / Laboratories / Lactic acid / Lactic acid bacteria / Lactobacillus / Lymphocytes T / Morbidity / Morphology / Mucosa / nutritional deficient / oral immunization / Plasmids / porcine rotaviruses / Proteins / Rotavirus / Vaccination / Vaccines / Viruses / Western blotting
2022

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Auxotrophic Lactobacillus Expressing Porcine Rotavirus VP4 Constructed Using CRISPR-Cas9D10A System Induces Effective Immunity in Mice
Auxotrophic Lactobacillus Expressing Porcine Rotavirus VP4 Constructed Using CRISPR-Cas9D10A System Induces Effective Immunity in Mice
Journal Article

Auxotrophic Lactobacillus Expressing Porcine Rotavirus VP4 Constructed Using CRISPR-Cas9D10A System Induces Effective Immunity in Mice

Zhao, Haiyuan,
Wang, Li,
Tang, Lijie,
Cui, Wen,
Zhao, Yuliang,
Li, Fengsai,
Ding, Guojie,
Li, Yijing,
Li, Jiaxuan,
Wang, Xiaona,
Zhou, Han,
Zhang, Huijun,
Sui, Ling,
Zhang, Hailin,
Qiao, Xinyuan,
Jiang, Yanping
2022
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Overview
Porcine rotavirus (PoRV) mainly causes acute diarrhea in piglets under eight weeks of age and has potentially high morbidity and mortality rates. As vaccine carriers for oral immunization, lactic acid bacteria (LAB) are an ideal strategy for blocking PoRV infections. However, the difficulty in knocking out specific genes, inserting foreign genes, and the residues of antibiotic selection markers are major challenges for the oral vaccination of LAB. In this study, the target gene, alanine racemase (alr), in the genome of Lactobacillus casei strain W56 (L. casei W56) was knocked out to construct an auxotrophic L. casei strain (L. casei Δalr W56) using the CRISPR-Cas9D10A gene editing system. A recombinant strain (pPG-alr-VP4/Δalr W56) was constructed using an electrotransformed complementary plasmid. Expression of the alr-VP4 fusion protein from pPG-alr-VP4/Δalr W56 was detected using Western blotting. Mice orally immunized with pPG-alr-VP4/Δalr W56 exhibited high levels of serum IgG and mucosal secretory immunoglobulin A (SIgA), which exhibited neutralizing effects against PoRV. Cytokines levels in serum detected using ELISA, indicated that the recombinant strain induced an immune response dominated by Th2 cells. Our data suggest that pPG-alr-VP4/Δalr W56, an antibiotic-resistance-free LAB, provides a safer vaccine strategy against PoRV infection.
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MDPI AG,MDPI
Subject

Alanine

/ Alanine racemase

/ Antibiotic resistance

/ Antibiotics

/ Antigens

/ Bacteria

/ CRISPR

/ CRISPR/Cas9D10A

/ Cytokines

/ Diarrhea

/ Drug resistance

/ E coli

/ Enzyme-linked immunosorbent assay

/ Food

/ Fusion protein

/ Genes

/ Genetic engineering

/ Genetic modification

/ Genomes

/ Helper cells

/ Immune response

/ Immune system

/ Immunization

/ Immunoglobulin A

/ Immunoglobulin G

/ Infections

/ Laboratories

/ Lactic acid

/ Lactic acid bacteria

/ Lactobacillus

/ Lymphocytes T

/ Morbidity

/ Morphology

/ Mucosa

/ nutritional deficient

/ oral immunization

/ Plasmids

/ porcine rotaviruses

/ Proteins

/ Rotavirus

/ Vaccination

/ Vaccines

/ Viruses

/ Western blotting

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