Your search keyword '"Qingrong Mo"' showing total 5 results

1. Simultaneous expression of three reporter proteins from a porcine reproductive and respiratory syndrome virus-based vector

Author

Qingrong Mo, Hao Wang, Wei He, Siyuan Lin, Xin Xie, Yuxu Wang, Xindong Wang, Tongwei Ren, Kang Ouyang, Ying Chen, Weijian Huang, and Zuzhang Wei

Abstract

The mechanism of discontinuous transcription for the synthesis of a series of sub-genomic mRNAs to express the porcine reproductive and respiratory syndrome virus (PRRSV) structural proteins potentially allows for the simultaneous expression of multiple foreign genes. This can occur by insertion of multiple novel independent transcription units between ORF sequences of the PRRSV genome. Here, an expression cassette consisting of a red fluorescent protein (RFP) gene flanked at its 3′ end by transcription-regulating sequences (TRS) and an expression cassette consisting of an iLOV gene flanked at its 5′ end by TRS was constructed. The resulting expression cassette containing a RFP gene and containing iLOV gene was introduced between ORF1b and 2, and between ORF7 and 3′UTR, respectively, in an infectious PRRSV cDNA clone. Transfection of the resulting clone (pGX-12RFP-73iLOV) into cells resulted in the recovery of a recombinant virus (rGX-12RFP-73iLOV). Simultaneous expression of RFP and iLOV was observed in MARC-145 cells infected with rGX-RFP-iLOV. To test the ability of the PRRSV genome to express three reporter genes simultaneously, an expression cassette containing the Gluc gene and an expression cassette containing iLOV gene were also inserted in between ORF1b and 2, and between ORF7 and 3′UTR, respectively. This was performed in a recently obtained infectious PRRSV cDNA clone carrying a RFP gene in nsp2. Transfection of the construct (pGX-R-Gluc-iLOV) carrying three reporter genes into cells allowed the rescue of the recombinant reporter virus (rGX-R-Gluc-iLOV) which showed similar growth characteristics to the parental virus and yet yielded 100-fold less infectious viruses. Fluorescence microscopy of cells infected with rGX-R-Gluc-iLOV demonstrated the presence of both GFP and iLOV genes. Gluc activities in supernatants harvested at different time points from cells infected with recombinant viruses carrying Gluc showed the levels of Gluc activity increased as the infection progressed, indicating that the expression of Gluc gene and its activity were parameters for monitoring viral propagation. These results indicate that it is possible to introduce at least three foreign proteins simultaneously in a PRRSV-based vector and this will prove invaluable in our future understanding of these viruses.

Published

2023

2. The Emergence and Pathogenesis of Recombinant Viruses Associated with NADC34-like Strains and the Predominant Circulating Strains of Porcine Reproductive and Respiratory Syndrome Virus in Southern China

Author

Xindong Wang, Kang Zhang, Qingrong Mo, Guochang Chen, Jing Lv, Jing Huang, Yanli Pang, Hao Wang, Wenbo Liu, Kai Huang, Xiangling Min, Tongwei Ren, Kang Ouyang, Ying Chen, Weijian Huang, and Zuzhang Wei

Subjects

Recombination, Genetic, China, Infectious Diseases, Swine, Virology, porcine reproductive and respiratory syndrome virus, NADC34-like, genetic evolution, recombination, pathogenicity, Porcine Reproductive and Respiratory Syndrome, Animals, Genetic Variation, Porcine respiratory and reproductive syndrome virus, Genome, Viral, Orthopoxvirus, Phylogeny

Abstract

Since its recent appearance in China, the NADC30-like strains of porcine reproductive and respiratory syndrome virus 2 (PRRSV-2) have caused an expanding epidemic, and this has further expanded the genetic diversity of PRRSV. In this study, three NADC30-like strains—GXFCG20210401, GXQZ20210403 and GXNN20210506—were isolated from pig serum samples obtained in Guangxi, and their genomes were sequenced. A comparative analysis of the whole genomes showed that the three strains were most similar to NADC30 (88.3–88.7%). In particular, the non-structural protein coding regions (nsp1, nsp4-5, nsp7-8 and nsp9) showed the highest similarities to JXA1, and the ORF2a-ORF5 regions showed the highest similarities to NADC34. The three strains had same discontinuous deletions of 111+1+19 amino acids in the nsp2 region, which were similar to the NADC30-like strains. Phylogenetic tree analysis based on the ORF5 gene showed that the three PRRSV isolates were divided into lineage 1.5 along with the representative NADC34-like strains, but they were classified as NADC30-like strains with respect to the whole genome and nsp2 evolutionary trees. Recombinant analysis revealed complex recombination patterns in the genomes of the three strains, which likely originated from multiple recombination events among JXA1-like, NADC30-like and NADC34-like strains. The results from animal experiments showed that the GXQZ20210403 strain was 20% lethal to piglets and caused more severe clinical reactions than GXFCG20210401, and both recombinant strains were similar in terms of pathogenicity to the previously reported NADC34 strains. This study demonstrates that NADC34-like strains of PRRSV have been circulating in the southern provinces of China and have exchanged genomes with several other indigenous strains. In addition, differences in recombination patterns may cause different clinical pathogenicity and indicate the importance of the surveillance and preventive control of recombinant strains.

Published

2022

3. Simultaneous expression of three reporter proteins from a porcine reproductive and respiratory syndrome virus-based vector

Author

Qingrong Mo, Hao Wang, Wei He, Siyuan Lin, Xin Xie, Yuxu Wang, Xindong Wang, Kang Ouyang, Ying Chen, Weijian Huang, and Zuzhang Wei

Subjects

Virology

Published

2023

4. miR-4299 inhibits tumor progression in pancreatic cancer through targeting ADAM17

Author

Junhong Liu, Lin Ye, Kangqiang Lin, Tieshan Zhong, Jiguang Luo, Tao Wang, Liya Suo, Qingrong Mo, Shuqun Li, Qian Chen, and Yaqun Yu

Subjects

Clinical Biochemistry, Cell Biology, General Medicine, Molecular Biology

Abstract

Pancreatic cancer (PC) is one of the most aggressive malignant tumors in human beings. Tumor capacity of evading immune-mediated lysis is a critical step in PC malignant progression. We aimed to evaluate the underlying regulatory mechanism of miR-4299 in the proliferation, metastasis, apoptosis, and immune escape in PC. miR-4299 and ADAM17 expressions in PC tissues and cell lines were detected using qRT-PCR. MTT assay and flow cytometry were used to detect cell viability and apoptosis, respectively. A luciferase reporter gene assay was conducted to confirm the targeted relationship between miR-4299 and ADAM17. Xenograft tumors in nude mice were used to detect tumorigenesis in vivo. PC cells were co-cultured with NK cells for determining the immune escape ability. NKG2D-positive rate of NK cells was detected using flow cytometry; NK cell-killing ability was detected using MTT assay. miR-4299 was downregulated in PC tissues and cell lines. miR-4299 inhibited PC cell proliferation and invasion, promoted cell apoptosis, and reduced PC tumor growth in vivo. ADAM17 3'UTR directly bound to miR-4299. ADAM17 overexpression could reverse miR-4299 effects on PC cell viability, invasion, apoptosis, and immune escape. miR-4299 exerted suppressive effects on PC cell proliferation, invasion, and immune escape via targeting ADAM17 expression. This study revealed a novel miR-4299/ADAM17 axis-modulating PC progression and proposed to concern the immune regulatory mechanism of miRNAs in PC development.

Published

2021

5. Construction and characterization of a full-length infectious clone of Getah virus in vivo

Author

Tongwei Ren, Xiangling Min, Qingrong Mo, Yuxu Wang, Hao Wang, Ying Chen, Kang Ouyang, Weijian Huang, and Zuzhang Wei

Subjects

Mice, DNA, Complementary, Virology, Immunology, Cytomegalovirus Infections, Molecular Medicine, Animals, Alphavirus, Mosquito Vectors, Communicable Diseases, Clone Cells

Abstract

Getah virus (GETV) is a mosquito-borne virus of the genus Alphavirus in the family Togaviridae and, in recent years, it has caused several outbreaks in animals. The molecular basis for GETV pathogenicity is not well understood. Therefore, a reverse genetic system of GETV is needed to produce genetically modified viruses for the study of the viral replication and its pathogenic mechanism. Here, we generated a CMV-driven infectious cDNA clone based on a previously isolated GETV strain, GX201808 (pGETV-GX). Transfection of pGETV-GX into BHK-21 ​cells resulted in the recovery of a recombinant virus (rGETV-GX) which showed similar growth characteristics to its parental virus. Then three-day-old mice were experimentally infected with either the parental or recombinant virus. The recombinant virus showed milder pathogenicity than the parental virus in the mice. Based on the established CMV-driven cDNA clone, subgenomic promoter and two restriction enzyme sites (BamHI and EcoRI) were introduced into the region between E1 protein and 3'UTR. Then the green fluorescent protein (GFP), red fluorescent protein (RFP) and improved light-oxygen-voltage (iLOV) genes were inserted into the restriction enzyme sites. Transfection of the constructs carrying the reporter genes into BHK-21 ​cells proved the rescue of the recombinant reporter viruses. Taken together, the establishment of a reverse genetic system for GETV provides a valuable tool for the study of the virus life cycle, and to aid the development of genetically engineered GETVs as vectors for foreign gene expression.

Published

2021