InFusion cloning for the generation of biologically relevant HCV chimeric molecular clones

Barnabas King; Richard Urbanowicz; Alexander W. Tarr; Jonathan Ball; C. Patrick McClure

doi:10.1007/978-1-4939-8976-8_6

InFusion cloning for the generation of biologically relevant HCV chimeric molecular clones

Barnabas King, Richard Urbanowicz, Alexander W. Tarr, Jonathan Ball, C. Patrick McClure

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

1 Citation (Scopus)

Abstract

This chapter describes how to generate chimeric molecular cassettes that are ready to receive PCR-amplified E1/E2 genes using new DNA cloning technology. The method is divided into three sections: (1) generation of a ΔCore-NS2 cassette based upon the full-length JFH-1 molecular clone; (2) insertion of a “structural gene” fragment encoding the Core, p7, and NS2 genes of a given genotype reference sequence, to generate a ΔE1/E2 cassette; and (3) insertion of patient-isolated E1/E2 genes that are genotype-matched to the structural genes. The final assembled chimeric genomes can then be analyzed in the HCV cell culture system. These cassettes allow characterization of the extensive in vivo viral diversity without the need to isolate and clone whole virus genomes. This method can be readily applied to the study of other HCV genes and other viruses.

Original language	English
Title of host publication	Methods in Molecular Biology
Pages	93-104
Number of pages	12
DOIs	https://doi.org/10.1007/978-1-4939-8976-8_6
Publication status	Published - 1 Jan 2019
Externally published	Yes

Keywords

Chimeric virus
Full-length molecular clones
Hepatitis C virus
Patient-isolated E1/E2

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10.1007/978-1-4939-8976-8_6

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title = "InFusion cloning for the generation of biologically relevant HCV chimeric molecular clones",

abstract = "This chapter describes how to generate chimeric molecular cassettes that are ready to receive PCR-amplified E1/E2 genes using new DNA cloning technology. The method is divided into three sections: (1) generation of a ΔCore-NS2 cassette based upon the full-length JFH-1 molecular clone; (2) insertion of a “structural gene” fragment encoding the Core, p7, and NS2 genes of a given genotype reference sequence, to generate a ΔE1/E2 cassette; and (3) insertion of patient-isolated E1/E2 genes that are genotype-matched to the structural genes. The final assembled chimeric genomes can then be analyzed in the HCV cell culture system. These cassettes allow characterization of the extensive in vivo viral diversity without the need to isolate and clone whole virus genomes. This method can be readily applied to the study of other HCV genes and other viruses.",

keywords = "Chimeric virus, Full-length molecular clones, Hepatitis C virus, Patient-isolated E1/E2",

author = "Barnabas King and Richard Urbanowicz and Tarr, \{Alexander W.\} and Jonathan Ball and McClure, \{C. Patrick\}",

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AU - King, Barnabas

AU - Urbanowicz, Richard

AU - Tarr, Alexander W.

AU - Ball, Jonathan

AU - McClure, C. Patrick

PY - 2019/1/1

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AB - This chapter describes how to generate chimeric molecular cassettes that are ready to receive PCR-amplified E1/E2 genes using new DNA cloning technology. The method is divided into three sections: (1) generation of a ΔCore-NS2 cassette based upon the full-length JFH-1 molecular clone; (2) insertion of a “structural gene” fragment encoding the Core, p7, and NS2 genes of a given genotype reference sequence, to generate a ΔE1/E2 cassette; and (3) insertion of patient-isolated E1/E2 genes that are genotype-matched to the structural genes. The final assembled chimeric genomes can then be analyzed in the HCV cell culture system. These cassettes allow characterization of the extensive in vivo viral diversity without the need to isolate and clone whole virus genomes. This method can be readily applied to the study of other HCV genes and other viruses.

KW - Chimeric virus

KW - Full-length molecular clones

KW - Hepatitis C virus

KW - Patient-isolated E1/E2

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M3 - Chapter

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BT - Methods in Molecular Biology

ER -

InFusion cloning for the generation of biologically relevant HCV chimeric molecular clones

Abstract

Keywords

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