Jinyan Yu scite author profile

Campylobacter jejuni is among the most prevalent foodborne zoonotic pathogens leading to diarrheal diseases. In this study, we developed a CRISPR-Cas12b-based system to rapidly and accurately detect C. jejuni contamination. Identification of C. jejuni-specific and -conserved genomic signatures is a fundamental step in development of the detection system. By comparing C. jejuni genome sequences with those of the closely related Campylobacter coli, followed by comprehensive online BLAST searches, a 20-bp C. jejuni-conserved (identical in 1024 out of 1037 analyzed C. jejuni genome sequences) and -specific (no identical sequence detected in non-C. jejuni strains) sequence was identified and the system was then assembled. In further experiments, strong green fluorescence was observed only when C. jejuni DNA was present in the system, highlighting the specificity of this system. The assay, with a sample-to-answer time of ∼40 min, positively detected chicken samples that were contaminated with a dose of approximately 10 CFU C. jejuni per gram of chicken, which was >10 times more sensitive than the traditional Campylobacter isolation method, suggesting that this method shows promise for onsite C. jejuni detection. This study provides an example of bioinformatics-guided CRISPR-Cas12b-based detection system development for rapid and accurate onsite pathogen detection.

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Prophage-mediated genome differentiation of the Salmonella Derby ST71 population

Wang

et al. 2022

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Although Salmonella Derby ST71 strains have been recognized as poultry-specific by previous studies, multiple swine-associated S. Derby ST71 strains were identified in this long-term, multi-site epidemic study. Here, 15 representative swine-associated S. Derby ST71 strains were sequenced and compared with 65 (one swine-associated and 64 poultry-associated) S. Derby ST71 strains available in the NCBI database at a pangenomic level through comparative genomics analysis to identify genomic features related to the differentiation of swine-associated strains and previously reported poultry-associated strains. The distribution patterns of known Salmonella pathogenicity islands (SPIs) and virulence factor (VF) encoding genes were not capable of differentiating between the two strain groups. The results demonstrated that the S. Derby ST71 population harbours an open pan-genome, and swine-associated ST71 strains contain many more genes than the poultry-associated strains, mainly attributed to the prophage sequence contents in the genomes. The numbers of prophage sequences identified in the swine-associated strains were higher than those in the poultry-associated strains. Prophages specifically harboured by the swine-associated strains were found to contain genes that facilitate niche adaptation for the bacterial hosts. Gene deletion experiments revealed that the dam gene specifically present in the prophage of the swine-associated strains is important for S. Derby to adhere onto the host cells. This study provides novel insights into the roles of prophages during the genome differentiation of Salmonella .

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Genome-Wide Identification of Genes Involved in Acid Stress Resistance of Salmonella Derby

Han

Yuan

et al. 2021

Genes

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Resistance to and survival under acidic conditions are critical for Salmonella to infect the host. As one of the most prevalent serotypes identified in pigs and humans, how S. Derby overcomes acid stress remains unclear. Here, we de novo sequenced the genome of a representative S. Derby strain 14T from our S. Derby strain stock and identified its acid resistance-associated genes using Tn-seq analysis. A total of 35 genes, including those belonging to two-component systems (TCS) (cpxAR), the CRISPR-Cas system (casCE), and other systems, were identified as essential for 14T to survive under acid stress. The results demonstrated that the growth curve and survival ability of ΔcpxA and ΔcpxR were decreased under acid stress, and the adhesion and invasion abilities to the mouse colon cancer epithelial cells (MC38) of ΔcpxR were also decreased compared with the wild type strain, suggesting that the TCS CpxAR plays an essential role in the acid resistance and virulence of S. Derby. Also, CasC and CasE were found to be responsible for acid resistance in S. Derby. Our results indicate that acid stress induces multiple genes’ expression to mediate the acid resistance of S. Derby and enhance its pathogenesis during an infection.

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Protective mechanism of Coprinus comatus polysaccharide on acute alcoholic liver injury in mice, the metabolomics and gut microbiota investigation

Yu¹,

Sun²,

Sun³

et al. 2024

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Coprinus comatus polysaccharide (CCP) has signifi cant hepatoprotective effect. To explore hepatoprotective mechanism of CCP, the study analyzed preventive effect of CCP on acute alcoholic liver injury in mice by histopathological examination and biochemical analysis. Simultaneously, hepatoprotective mechanism was also analyzed in conjunction with metabolomics and proliferation of gut microbiota. The results showed that CCP significantly decreased alanine aminotransferase (ALT), aspartate aminotransferase (AST) and triglyceride (TG) levels in serum of alcoholic liver disease (ALD) mice. Histopathological examination showed that CCP can significantly improve liver damage. Metabolomics results showed that there were signifi cant differences in the level of metabolites in liver tissue of control group, ALD group and CCP group, including taurine, xanthosine, fumaric acid and arachidonic acid, among others. Metabolites pathways analysis showed that hepatoprotective effect of CCP was related to energy metabolism, biosynthesis of unsaturated fatty acids, amino acids metabolism and lipid metabolism. Additionally, CCP inhibited an increase in the number of Clostridium perfringens, Enterobacteriaceae and Enterococcus, and a decrease in the number of Lactobacillus and Bifi dobacterium in the gut of ALD mice. All these fi ndings suggested that CCP treatment reversed the phenotype of ethanol-induced liver injury and the associated metabolites pathways.

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Jinyan Yu

A balanced gut microbiota is essential to maintain health in captive sika deer

Rapid and Accurate Campylobacter jejuni Detection With CRISPR-Cas12b Based on Newly Identified Campylobacter jejuni-Specific and -Conserved Genomic Signatures

Prophage-mediated genome differentiation of the Salmonella Derby ST71 population

Genome-Wide Identification of Genes Involved in Acid Stress Resistance of Salmonella Derby

Protective mechanism of Coprinus comatus polysaccharide on acute alcoholic liver injury in mice, the metabolomics and gut microbiota investigation

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