Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1

Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1 Publisher Pubmed

Kelishadi M ; Tabarraei A ; Azadmanesh K

Source: Journal of Virological Methods Published:2026

Abstract

Oncolytic viruses (OVs) constitute a promising class of cancer therapeutics engineered to selectively replicate in and lyse malignant cells while sparing normal tissues. Among these, recombinant Herpes Simplex Virus type 1 (HSV-1), generated through targeted deletion of immediate-early (IE) genes, has emerged as a leading candidate, with several vectors currently advancing to phase III clinical trials. Genetic alterations are typically introduced into the HSV-1 genome via homologous recombination using shuttle vectors; however, isolation of recombinant viruses from parental populations by plaque purification remains labor-intensive and technically demanding. This limitation primarily results from the low efficiency of homologous recombination and the frequent persistence of parental virus, which often exhibits a replicative advantage over recombinant variants. In this study, a novel purification protocol incorporating a GFP–PAC co-expression cassette was developed and optimized to enable simultaneous puromycin selection and fluorescence-based identification of recombinant viral constructs. This dual-selection approach significantly accelerates and simplifies the isolation of recombinant HSV-1, enhancing both efficiency and purity. The optimized protocol provides a robust, scalable strategy for generating recombinant HSV-1 with broad applicability in vaccine development, gene therapy, and fundamental virology research. © 2026 Elsevier B.V.

Style	Citing Format
MLA	Kelishadi M, Tabarraei A, Azadmanesh K. "Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1." Journal of Virological Methods, vol. 342, no. , 2026, pp. -.
APA	Kelishadi M, Tabarraei A, Azadmanesh K (2026). Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1. Journal of Virological Methods, 342(), -.
Chicago	Kelishadi M, Tabarraei A, Azadmanesh K. "Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1." Journal of Virological Methods 342, no. (2026): -.
Harvard	Kelishadi M, Tabarraei A, Azadmanesh K (2026) 'Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1', Journal of Virological Methods, 342(), pp. -.
Vancouver	Kelishadi M, Tabarraei A, Azadmanesh K. Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1. Journal of Virological Methods. 2026;342():-.
BibTex	@article{ author = {Kelishadi M and Tabarraei A and Azadmanesh K}, title = {Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1}, journal = {Journal of Virological Methods}, volume = {342}, number = {}, pages = {-}, year = {2026} }
RIS	TY - JOUR AU - Kelishadi M AU - Tabarraei A AU - Azadmanesh K TI - Optimization of a Gfp–Pac Co-Expression Cassette–Based Purification System for Efficient Construction and Rapid Screening of Recombinant Hsv-1 JO - Journal of Virological Methods VL - 342 IS - SP - EP - PY - 2026 ER -

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