Summary
Abstract
Introduction
Protocol
Representative Results
Discussion
Acknowledgements
Materials
References
Immunology and Infection
This protocol describes the recovery of infectious Zika virus from a two-plasmid infectious cDNA clone.
Infectious cDNA clones allow for genetic manipulation of a virus, thus facilitating work on vaccines, pathogenesis, replication, transmission and viral evolution. Here we describe the construction of an infectious clone for Zika virus (ZIKV), which is currently causing an explosive outbreak in the Americas. To prevent toxicity to bacteria that is commonly observed with flavivirus-derived plasmids, we generated a two-plasmid system which separates the genome at the NS1 gene and is more stable than full-length constructs that could not be successfully recovered without mutations. After digestion and ligation to join the two fragments, full-length viral RNA can be generated by in vitro transcription with T7 RNA polymerase. Following electroporation of transcribed RNA into cells, virus was recovered that exhibited similar in vitro growth kinetics and in vivo virulence and infection phenotypes in mice and mosquitoes, respectively.
Zika virus (ZIKV; Family Flaviviridae: Genus Flavivirus) is a mosquito-borne flavivirus that arrived in Brazil in 2013-14 and was subsequently associated with a massive outbreak of febrile illness that spread throughout the Americas1. In addition, ZIKV has been linked with severe disease outcomes, such as Guillain-Barré syndrome in adults and microcephaly in fetuses and neonates2. Little was known about ZIKV before its rapid spread in the western hemisphere. This included a lack of molecular tools, thus hindering mechanistic research. Molecular tools for viruses, such as infectious cDNA clones, fac....
1. Transform and Recovery of Infectious Clone Plasmids
The protocol described here allows for the recovery of infectious clone-derived Zika virus. Manipulating the two-plasmid infectious clone system is straightforward when performed with care, as compared to full-length versions which are highly unstable (data not shown). After digestion and ligation of the two distinct pieces, capped RNA is produced using in vitro transcription with T7 polymerase which is then electroporated into Vero cells (Figure 1)........
Here we describe a method for the recovery of a bipartite infectious cDNA clone system for ZIKV. Previously described clones for ZIKV suffer from either attenuation or require the addition of introns, making plasmids larger and preventing rescue in insect cells. Infectious virus can be recovered using the two-plasmid clone system in either mammalian or insect cells (data not shown). In addition, virus recovered from this system behaves similarly to wild-type virus in several cell lines, in an immunocompromised mouse mode.......
The authors would like to thank Kristen Bullard-Feibelman, Milena Veselinovic and Claudia Rückert for their assistance in characterizing the clone-derived virus. This work was supported in part by grants from the National Institute of Allergy and Infectious Diseases, NIH under grants AI114675 (BJG) and AI067380 (GDE).
....Name | Company | Catalog Number | Comments |
NEB Stable CompetentE. coli | New England BioLabs | C3040H | |
Carbenicillin, Disodium Salt | various | ||
Zyppy Plasmid Miniprep Kit | Zymo Research | D4036 | |
ZymoPURE Plasmid Maxiprep Kit | Zymo Research | D4202 | |
SalI-HF | New England BioLabs | R3138S | 20,000 units/ml |
NheI-HF | New England BioLabs | R3131S | 20,000 units/ml |
ApaLI | New England BioLabs | R0507S | 10,000 units/ml |
EcoRI-HF | New England BioLabs | R3101S | 20,000 units/ml |
BamHI-HF | New England BioLabs | R3136S | 20,000 units/ml |
HindIII-HF | New England BioLabs | R3104S | 20,000 units/ml |
illustra TempliPhi 100 Amplification Kit | GE Healthcare Life Sciences | 25640010 | |
NucleoSpin Gel and PCR Clean-up | Macherey-Nagel | 740609.5 | |
Shrimp Alkaline Phosphatase (rSAP) | New England BioLabs | M0371S | 1,000 units/ml |
Alkaline Phosphatase, Calf Intestinal (CIP) | New England BioLabs | M0290S | 10,000 units/ml |
T4 DNA Ligase | New England BioLabs | M0202S | 400,000units/mL |
HiScribe T7 ARCA mRNA Kit | New England BioLabs | E2065S | |
Vero cells | ATCC | CCL-81 | |
ECM 630 High Throughput Electroporation System | BTX | 45-0423 | Other machines are acceptable. |
LB Broth with agar (Miller) | Sigma | L3147 | Can be homemade as well. |
Terrific Broth | Sigma | T0918 | Can be homemade as well. |
Petri Dish | Celltreat | 229693 | |
Culture Tubes | VWR International | 60818-576 | |
T75 flasks | Celltreat | 229340 | |
T182 flasks | Celltreat | 229350 | |
1x PBS | Corning | 21-040-CV | |
RPMI 1640 with L-glutamine | Corning | 10-040-CV | |
DMEM with L-glutamine and 4.5 g/L glucose | Corning | 10-017-CV | |
Fetal Bovine Serum (FBS) | Atlas Biologicals | FP-0500-A | |
Tragacanth Powder | MP Bio | MP 104792 | |
Crystal Violet | Amresco | 0528-1006 | |
Ethanol Denatured | VWR International | BDH1156-1LP | |
6 well plate | Celltreat | 229106 | |
12 well plate | Celltreat | 229111 | |
Sequencing Oligos | IDT | see table 1 | |
Qubit 3.0 | ThermoFisher | Qubit 3.0 | other methods are acceptable. |
Qubit dsDNA BR Assay Kit | ThermoFisher | Q32850 | other methods are acceptable. |
Qubit RNA HS Assay Kit | ThermoFisher | Q32852 | other methods are acceptable. |
Class II Biosafety Cabinet | Varies | N/A | This is necessary for live-virus work. |
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