Abstract
A plasmid with a replication initiation region (IR) and a matrix attachment region (MAR) initiates gene amplification in mammalian cells at a random chromosomal location. A mouse artificial chromosome (MAC) vector can stably carry a large genomic region. In this study we combined these two technologies with the clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated nuclease (Cas)9 strategy to achieve targeted amplification of a sequence of interest. We previously showed that the IR/MAR plasmid was amplified up to the extrachromosomal tandem repeat; here we demonstrate that cleavage of these tandem plasmids and MAC by Cas9 facilitates homologous recombination between them. The plasmid array on the MAC could be further extended to form a ladder structure with high gene expression by a breakage–fusion–bridge cycle involving breakage at mouse major satellites. Amplification of genes on the MAC has the advantage that the MAC can be transferred between cells. We visualized the MAC in live cells by amplifying the lactose operator array on the MAC in cells expressing lactose repressor-green fluorescent protein fusion protein. This targeted amplification strategy is in theory be applicable to any sequence at any chromosomal site, and provides a novel tool for animal cell technology.
Highlights
Gene amplification plays a critical role in the malignant transformation of human cells
We previously found that plasmids with a mammalian replication initiation region (IR) and matrix attachment region (MAR) are spontaneously and efficiently amplified in transfected mammalian cells, generating double minutes (DMs) and/or homogeneously staining regions (HSRs) [4,5]
We transferred the mouse artificial chromosome (MAC) from A9 cells to Chinese hamster ovary (CHO) DG44 cells and screened 32 clones by polymerase chain reaction (PCR) followed by fluorescence in situ hybridization (FISH) (Supplementary Figures S2 and 3); CD/M2 #44 cells were used in subsequent experiments
Summary
Gene amplification plays a critical role in the malignant transformation of human cells. We previously found that plasmids with a mammalian replication initiation region (IR) and matrix attachment region (MAR) are spontaneously and efficiently amplified in transfected mammalian cells, generating DMs and/or HSRs [4,5]. The plasmid is initially amplified at an extrachromosomal site and generates a large circle comprising transfected plasmid sequences arranged as a direct repeat [5]. The large circle appears as cytogenetically visible DMs and may be integrated into the chromosome arm, possibly at a double-stand break [11,12]. We combined IR/MAR gene amplification, mouse artificial chromosome (MAC), and clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated nuclease (Cas) technologies to efficiently amplify a sequence of interest on the MAC. This method can in theory be used to amplify any sequence at any chromosomal target site
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