Generation of porcine reproductive and respiratory syndrome virus by in vitro assembly of viral genomic cDNA fragments

Suhardiman, Maman; Kramyu, Jarin; Narkpuk, Jaraspim; Jongkaewwattana, Anan; Wanasen, Nanchaya

doi:10.1016/j.virusres.2014.09.008

Cited by 11 publications

(9 citation statements)

References 21 publications

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“…Based on several reports of infectious clone assembly and reverse genetics b The sequencing depth (read number, orange) and error rate (gray) of the TVMV genome assembled are plotted. c Dot plots show significant DNA alignments between pLX-TVMV (this study, GenBank: MW027845) and pLX-B2 (GenBank: KY825137) or a TVMV reference genome (GenBank: X04083); axis ticks indicate 1-kb intervals of viruses (Pasin et al 2014;Bordat et al 2015;Suhardiman et al 2015), we describe the procedures required for home-made preparation of cloning materials for GA. We successfully applied the home-made enzymatic premix and bacterial competent cells in one-step assembly of a T-DNA binary vector that includes the infectious cDNA clone of an RNA virus. Our cloning strategy was streamlined by omission of slow-growing cloning chassis (e.g.…”

Section: Discussionmentioning

confidence: 98%

Home-made enzymatic premix and Illumina sequencing allow for one-step Gibson assembly and verification of virus infectious clones

et al. 2020

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An unprecedented number of viruses have been discovered by leveraging advances in high-throughput sequencing. Infectious clone technology is a universal approach that facilitates the study of biology and role in disease of viruses. In recent years homology-based cloning methods such as Gibson assembly have been used to generate virus infectious clones. We detail herein the preparation of home-made cloning materials for Gibson assembly. The home-made materials were used in one-step generation of the infectious cDNA clone of a plant RNA virus into a T-DNA binary vector. The clone was verified by a single Illumina reaction and a de novo read assembly approach that required no primer walking, custom primers or reference sequences. Clone infectivity was finally confirmed by Agrobacterium-mediated delivery to host plants. We anticipate that the convenient home-made materials, one-step cloning and Illumina verification strategies described herein will accelerate characterization of viruses and their role in disease development.

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Section: Discussionmentioning

confidence: 98%

Home-made enzymatic premix and Illumina sequencing allow for one-step Gibson assembly and verification of virus infectious clones

et al. 2020

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“…This is accomplished with three key components: (a) a 5 exonuclease to generate recessed ends, (b) DNA polymerase to fill in the gaps after annealing of sticky ends, and (c) DNA ligase. While Gibson assembly has not been applied to coronavirus infectious clone construction, it has been used to successfully recover infectious clones of viruses such as porcine reproductive and respiratory syndrome virus (PRSSV) (Suhardiman et al, 2015), dengue virus (Siridechadilok et al, 2013), and West Nile virus (Vandergaast et al, 2014). Given that it eliminates the need for restriction site design, it may prove to be a very effective tool to complement in vitro ligation as well as cloning into BAC or vaccinia vectors.…”

Section: Infectious Cdna Clone Generation By Gibson Assemblymentioning

confidence: 99%

“…As a ligation method, Gibson assembly does not inherently overcome the issue of sequence instability and toxicity. However, beyond being simply a tool for rapid assembly of cDNA, it can also circumvent the need for bacterial transformation as demonstrated by Suhardiman et al (Suhardiman et al, 2015) and Siridechadilok et al (Siridechadilok et al, 2013), where Gibson assembly reactions were directly transfected into cells for virus production. By generating cDNA by RT-PCR from field samples, this approach can be extremely useful for rapid generation of viral clones that preserve viral sequence diversity.…”

Section: Infectious Cdna Clone Generation By Gibson Assemblymentioning

confidence: 99%

Deciphering the biology of porcine epidemic diarrhea virus in the era of reverse genetics

et al. 2016

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Emergence of the porcine epidemic diarrhea virus (PEDV) as a global threat to the swine industry underlies the urgent need for deeper understanding of this virus. To date, we have yet to identify functions for all the major gene products, much less grasp their implications for the viral life cycle and pathogenic mechanisms. A major reason is the lack of genetic tools for studying PEDV. In this review, we discuss the reverse genetics approaches that have been successfully used to engineer infectious clones of PEDV as well as other potential and complementary methods that have yet to be applied to PEDV. The importance of proper cell culture for successful PEDV propagation and maintenance of disease phenotype are addressed in our survey of permissive cell lines. We also highlight areas of particular relevance to PEDV pathogenesis and disease that have benefited from reverse genetics studies and pressing questions that await resolution by such studies. In particular, we examine the spike protein as a determinant of viral tropism, entry and virulence, ORF3 and its association with cell culture adaptation, and the nucleocapsid protein and its potential role in modulating PEDV pathogenicity. Finally, we conclude with an exploration of how reverse genetics can help mitigate the global impact of PEDV by addressing the challenges of vaccine development.

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“…They allow high-throughput simultaneous and scarless assembly of multiple DNA fragments into a plasmid vector in a single reaction using 3′- to 5′-exonuclease to generate complementary single-stranded DNA overhangs in the insert and vector sequences in vitro . Because they are flexible, time-saving, and highly efficient, these sequence- and ligation-independent methods have been used successfully to reconstruct several RNA virus genomes, including influenza A virus [ 45 ], dengue virus [ 46 ], West Nile virus [ 47 ], porcine reproductive and respiratory syndrome virus [ 48 ], LMV [ 12 ], and tomato blistering mosaic virus (ToBMV) [ 49 ]. However, they have not been used in the construction of infectious cDNA clones for PLDMV so far.…”

Section: Introductionmentioning

confidence: 99%

Rapid Construction of Stable Infectious Full-Length cDNA Clone of Papaya Leaf Distortion Mosaic Virus Using In-Fusion Cloning

Tuo

Shen

et al. 2015

Viruses

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Papaya leaf distortion mosaic virus (PLDMV) is becoming a threat to papaya and transgenic papaya resistant to the related pathogen, papaya ringspot virus (PRSV). The generation of infectious viral clones is an essential step for reverse-genetics studies of viral gene function and cross-protection. In this study, a sequence- and ligation-independent cloning system, the In-Fusion® Cloning Kit (Clontech, Mountain View, CA, USA), was used to construct intron-less or intron-containing full-length cDNA clones of the isolate PLDMV-DF, with the simultaneous scarless assembly of multiple viral and intron fragments into a plasmid vector in a single reaction. The intron-containing full-length cDNA clone of PLDMV-DF was stably propagated in Escherichia coli. In vitro intron-containing transcripts were processed and spliced into biologically active intron-less transcripts following mechanical inoculation and then initiated systemic infections in Carica papaya L. seedlings, which developed similar symptoms to those caused by the wild-type virus. However, no infectivity was detected when the plants were inoculated with RNA transcripts from the intron-less construct because the instability of the viral cDNA clone in bacterial cells caused a non-sense or deletion mutation of the genomic sequence of PLDMV-DF. To our knowledge, this is the first report of the construction of an infectious full-length cDNA clone of PLDMV and the splicing of intron-containing transcripts following mechanical inoculation. In-Fusion cloning shortens the construction time from months to days. Therefore, it is a faster, more flexible, and more efficient method than the traditional multistep restriction enzyme-mediated subcloning procedure.

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Generation of porcine reproductive and respiratory syndrome virus by in vitro assembly of viral genomic cDNA fragments

Cited by 11 publications

References 21 publications

Home-made enzymatic premix and Illumina sequencing allow for one-step Gibson assembly and verification of virus infectious clones

Home-made enzymatic premix and Illumina sequencing allow for one-step Gibson assembly and verification of virus infectious clones

Deciphering the biology of porcine epidemic diarrhea virus in the era of reverse genetics

Rapid Construction of Stable Infectious Full-Length cDNA Clone of Papaya Leaf Distortion Mosaic Virus Using In-Fusion Cloning

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