A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.

A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.

We introduce a simple and universal cloning plasmid system for gene expression in prokaryotic (Escherichia coli) and mammalian cells. This novel system has two expression modes: the (subcloning) prokaryotic and mammalian modes. This system streamlines the process of producing mammalian gene expressi...

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Main Authors: Manabu Murakami, Takayoshi Ohba, Agnieszka M Murakami, Chong Han, Kenji Kuwasako, Shirou Itagaki
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0216169
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spelling doaj-607e7e1e73964ca9b4d41206d0fa29d02021-03-03T20:42:13ZengPublic Library of Science (PLoS)PLoS ONE1932-62032019-01-01145e021616910.1371/journal.pone.0216169A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.Manabu MurakamiTakayoshi OhbaAgnieszka M MurakamiChong HanKenji KuwasakoShirou ItagakiWe introduce a simple and universal cloning plasmid system for gene expression in prokaryotic (Escherichia coli) and mammalian cells. This novel system has two expression modes: the (subcloning) prokaryotic and mammalian modes. This system streamlines the process of producing mammalian gene expression plasmids with desired genes. The plasmid (prokaryotic mode) has an efficient selection system for DNA insertion, multiple component genes with rare restriction sites at both ends (termed "units"), and a simple transformation to mammalian expression mode utilizing rare restriction enzymes and re-ligation (deletion step). The new plasmid contains the lac promoter and operator followed by a blunt-end EcoRV recognition site, and a DNA topoisomerase II toxin-originated gene for effective selection with isopropyl-β-D-thiogalactoside (IPTG) induction. This system is highly efficient for the subcloning of blunt-end fragments, including PCR products. After the insertion of the desired gene, protein encoded by the desired gene can be detected in E. coli with IPTG induction. Then, the lac promoter and operator are readily deleted with 8-nucleotide rare-cutter blunt-end enzymes (deletion step). Following re-ligation and transformation, the plasmid is ready for mammalian expression analysis (mammalian mode). This idea (conversion from prokaryotic to mammalian mode) can be widely adapted. The pgMAX system overwhelmingly simplifies prokaryotic and mammalian gene expression analyses.https://doi.org/10.1371/journal.pone.0216169
collection DOAJ
language English
format Article
sources DOAJ
author Manabu Murakami
Takayoshi Ohba
Agnieszka M Murakami
Chong Han
Kenji Kuwasako
Shirou Itagaki
spellingShingle Manabu Murakami
Takayoshi Ohba
Agnieszka M Murakami
Chong Han
Kenji Kuwasako
Shirou Itagaki
A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.
PLoS ONE
author_facet Manabu Murakami
Takayoshi Ohba
Agnieszka M Murakami
Chong Han
Kenji Kuwasako
Shirou Itagaki
author_sort Manabu Murakami
title A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.
title_short A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.
title_full A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.
title_fullStr A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.
title_full_unstemmed A simple and dual expression plasmid system in prokaryotic (E. coli) and mammalian cells.
title_sort simple and dual expression plasmid system in prokaryotic (e. coli) and mammalian cells.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2019-01-01
description We introduce a simple and universal cloning plasmid system for gene expression in prokaryotic (Escherichia coli) and mammalian cells. This novel system has two expression modes: the (subcloning) prokaryotic and mammalian modes. This system streamlines the process of producing mammalian gene expression plasmids with desired genes. The plasmid (prokaryotic mode) has an efficient selection system for DNA insertion, multiple component genes with rare restriction sites at both ends (termed "units"), and a simple transformation to mammalian expression mode utilizing rare restriction enzymes and re-ligation (deletion step). The new plasmid contains the lac promoter and operator followed by a blunt-end EcoRV recognition site, and a DNA topoisomerase II toxin-originated gene for effective selection with isopropyl-β-D-thiogalactoside (IPTG) induction. This system is highly efficient for the subcloning of blunt-end fragments, including PCR products. After the insertion of the desired gene, protein encoded by the desired gene can be detected in E. coli with IPTG induction. Then, the lac promoter and operator are readily deleted with 8-nucleotide rare-cutter blunt-end enzymes (deletion step). Following re-ligation and transformation, the plasmid is ready for mammalian expression analysis (mammalian mode). This idea (conversion from prokaryotic to mammalian mode) can be widely adapted. The pgMAX system overwhelmingly simplifies prokaryotic and mammalian gene expression analyses.
url https://doi.org/10.1371/journal.pone.0216169
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