Abstract
Lentiviral vectors are unique and highly efficient genetic tools to incorporate genetic materials into the genome of a variety of cells whilst conserving biosafety. Their rapid acceptance made it necessary to improve existing protocols, including molecular engineering and cloning, production of purified lentiviral particles, and efficient infection of target cells. In addition to traditional protocols, which can be time-consuming, several biotechnology companies are providing scientists with commercially available lentiviral constructs and particles. However, these constructs are limited by their original form, tend to be costly, and lack the flexibility to re-engineer based on the ever-changing needs of scientific projects. Therefore, the current study organizes the existing methods and integrates them with novel ideas to establish a protocol that is simple and efficient to implement. In this study we, (i) generated an innovative site-directed nucleotide attachment/replacement and DNA insertion method using unique PCR primers, (ii) improved traditional methods by integrating plasmid clarification steps, (iii) utilized endogenous mRNA as a resource to construct new lentiviruses, and (iv) identified an existing purification method and incorporated it into an organized workflow to produce high-yield lentiviral particle collection. Finally, (v) we verified and demonstrated the functional validity of our methods using an infection strategy.
Highlights
Publisher’s Note: MDPI stays neutralLentiviral vectors are widely used for delivery of complex genetic structures, most commonly including miRNAs [1], siRNAs or shRNAs [2], fluorescent proteins [3], oncogenes, tumour suppressor genes, and stem-cell associated genes [4]
We describe a relatively straightforward procedure for DNA delivery to mammalian cells using lentiviral particles in vitro. This extended protocol is a combination of existing methods with innovative techniques of molecular engineering of lentiviral plasmids, production and purification of lentiviral particles, and infection of tumour cells lines
Our goal was to reduce the financial burden of acquiring new lentiviral plasmids or particles, expedite the time that is required for molecular cloning experiments, and provide researchers with a versatile system that can be utilized based on the needs of their projects
Summary
Lentiviral vectors are widely used for delivery of complex genetic structures, most commonly including miRNAs [1], siRNAs or shRNAs [2], fluorescent proteins [3], oncogenes, tumour suppressor genes, and stem-cell associated genes [4]. The expression levels of these transgenes have a relatively narrow range that is mostly determined by the number of copies delivered to each cell [6]. This feature makes it suitable to design experiments with different types of cell lines. The separation of cis-acting genes (genes that allow transfer of viral genome to target cells) from trans-acting with regard to jurisdictional claims in published maps and institutional affiliations
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