Steven Spiker scite author profile

The yeast ARS-1 element contains a scaffold attachment region (SAR) that we have previously shown can bind to plant nuclear scaffolds in vitro. To test effects on expression, constructs in which a chimeric P-glucuronidase (GUS) gene was flanked by this element were delivered into tobacco suspension cells by microprojectile bombardment. In stably transformed cell lines, GUS activity averaged 12-fold higher (24-fold on a gene copy basis) for a construct containing two flanking SARs than for a control construct lacking SARs. Expression levels were not proportional to gene copy number, as would have been predicted if the element simply reduced position effect variation. Instead, the element appeared to reduce an inhibitory effect on expression in certain transformants containing multiple gene copies. The effect on expression appears to require chromosomal integration, because SAR constructs were only twofold more active than the controls in transient assays.

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Nuclear scaffolds and scaffold-attachment regions in higher plants.

Hall

Allen

Loer

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

130

111

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DNA in the nuclei of eukaryotic organisms undergoes a hierarchy offolding to be packaged into interphase and metaphase chromosomes. The first level ofpackaging is the 11-nm nucleosome fiber, which is further coiled into a 30-nm fiber. Evidence from fungal and animal systems reveals the existence of higher order packaging consisting of loops of the 30-nm fibers attached to a proteinaceous nuclear scaffold by an interaction between the scaffold and specific DNA sequences called scaffold-attachment regions (SARs). Support for the ubiquitous nature of such higher order packaging of DNA is presented here by. our work with plants. We have isolated scaffolds from tobacco nuclei using buffers containing lithium diiodosalicylate to remove histones and then using restriction enzymes to remove the DNA not closely associated with the scaffold. We have used Southern hybridization to show that the DNA remaining bound to the scaffolds after nuclease digestion includes SARs flanking three root-specific tobacco genes. This assay for SARs is termed the endogenous assay because it identifies genomic sequences as SARs by their endogenous association with the scaffold. Another assay, the exogenous assay, depends upon the ability of scaffolds to specifically bind exogenously added DNA fragments containing SARs. The tobacco scaffolds specifically bind a well-characterized yeast SAR, and cloned DNA faments derived from the 3'-flanking regions ofthe root-specific genes are confirmed to contain SARs by this exogenous assay.The structure of the nucleosome core, a complex of eight histones and 146 base pairs (bp) of DNA wrapped around the outside, is now fairly well understood (1). Much less well understood is the structure of the 30-nm chromatin fiber and how these fibers are coiled and folded to form interphase and metaphase chromosomes (2). Central to many models of this "higher order" chromatin structure is the concept ofdomains formed by loops of the 30-nm fibers attached at their bases to a proteinaceous nuclear or chromosome scaffold. Early evidence for such a model came from electron micrographs of histone-depleted chromosomes and nuclei showing loops of DNA spilling out to form a halo (3-7). Mirkovitch et al. (8) showed that the loops were not randomly attached to the nuclear scaffold but that specific DNA regions were involved. These regions, which have been called scaffold attachment regions (SARs), have been partially characterized. The binding sites have been mapped to regions generally ranging from 300 to 1000 bp, which are generally A+T-rich.The domains formed by SAR-bounded loops may have functional, as well as structural, significance. It has long been realized that regions of DNase I-sensitive chromatin, which contain transcriptionally poised genes, are not confined to the genes themselves but rather extend over much larger domains (9-11). These DNase I-sensitive domains have been shown to correspond to SAR-bounded loop domains (12-14). Moreover, inconsistencies in the levels of expression of genes in transgenic...

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Use of matrix attachment regions (MARs) to minimize transgene silencing

Allen¹,

Spiker²,

Thompson³

2000

107

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Matrix attachment regions (MARs) are operationally defined as DNA elements that bind specifically to the nuclear matrix in vitro. It is possible, although unproven, that they also mediate binding of chromatin to the nuclear matrix in vivo and alter the topology of the genome in interphase nuclei. When MARs are positioned on either side of a transgene their presence usually results in higher and more stable expression in transgenic plants or cell lines, most likely by minimizing gene silencing. Our review explores current data and presents several plausible models to explain MAR effects on transgene expression.

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Molecular and cytogenetic analyses of stably and unstably expressed transgene loci in tobacco.

et al. 1997

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To study the influence of genomic context on transgene expression, we have determined the T-DNA structure, flanking DNA sequences, and chromosomal location of four independent transgene loci in tobacco. Two of these loci were stably expressed in the homozygous condition over many generations, whereas the other two loci became unstable after several generations of homozygosity. The stably expressed loci comprised relatively simple T-DNA arrangements that were flanked on at least one side by plant DNA containing AT-rich regions that bind to nuclear matrices in vitro. Of the unstably expressed loci, one consisted of multiple incomplete T-DNA copies, and the second contained a single intact T-DNA; in both cases, however, binary vector sequences were directly contiguous to a right T-DNA border. Fluorescence in situ hybridiration demonstrated that the two stably expressed inserts were present in the vicinity of telomeres.The two unstably expressed inserts occupied intercalary and paracentromeric locations, respectively. Results on the stability of transgene expression in F, progeny obtained by intercrossing the four lines and the sensitivity of the four transgene loci to inactivation in the presence of an unlinked " frans-silencing" locus are also presented. The findings are discussed in the context of repetitive DNA sequences and the allotetraploid nature of the tobacco genome.

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High-level transgene expression in plant cells: effects of a strong scaffold attachment region from tobacco.

et al. 1996

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We have previously shown that yeast scaffold attachment regions (SARs) flanking a chimeric 0-glucuronidase (GUS) reporter gene increased per-copy expression levels by 24-fold in tobacco suspension cell lines stably transformed by microprojectile bombardment. In this study, we examined the effect of a DNA fragment originally identified in a tobacco genomic clone by its activity in an in vitro binding assay. The tobacco SAR has much greater scaffold binding affinity than does the yeast SAR, and tobacco cell lines stably transformed with constructs containing the tobacco SAR accumulated greater than fivefold more GUS enzyme activity than did lines transformed with the yeast SAR construct. Relative to the control construct, flanking the GUS gene with plant SARs increased overall expression per transgene copy by almost 140-fold.In transient expression assays, the same construct increased expression only approximately threefold relative to a control without SARs, indicating that the full SAR effect requires integration into chromosomal DNA. GUS activity in individual stable transformants was not simply proportional to transgene copy number, and the SAR effect was maximal in cell lines with fewer than 4 0 transgene copies per tobacco genome. Lines with significantly higher copy numbers showed greatly reduced expression relative to the low-copy-number lines. Our results indicate that strong SARs flanking a transgene greatly increase expression without eliminating variation between transformants. We propose that SARs dramatically reduce the severity or likelihood of homology-dependent gene silencing in cells with small numbers of transgenes but do not prevent silencing of transgenes present in many copies.

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Steven Spiker

Scaffold attachment regions increase reporter gene expression in stably transformed plant cells.

Nuclear scaffolds and scaffold-attachment regions in higher plants.

Use of matrix attachment regions (MARs) to minimize transgene silencing

Molecular and cytogenetic analyses of stably and unstably expressed transgene loci in tobacco.

High-level transgene expression in plant cells: effects of a strong scaffold attachment region from tobacco.

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