Structural homologies and functional similarities between mammalian origins of replication and amplification promoting sequences

A patchwork interspersed sequence is present in a high copy number in the sheep genome

We have isolated a new interspersed sequence present in a high copy number in the ovine genome. This patchwork sequence, named 3.79 AS1, is part of a larger element encompassing similarities to constant region of reverse transcriptase and to art2 shared with the Bovine Dimer Driven Family (BDDF). The 3.79 AS1 sequence includes homologies to amplification promoting sequences (APS), to a potential origin of bidirectional DNA replication (OBR), to the Alu core sequence motif GGAGGC required for RNA polymerase III promoter function and to the ATGGCTGCCAT sequence that has been shown to be able to induce amplification-dependent transformation in murine cells. Fluorescent in situ hybridization experiments using probes derived from both ends of the 3.79 AS1 sequence showed a widespread signal over all sheep chromosomes, except the Y chromosome. We propose that the structural features of the 3.79 AS1 patchwork sequence, that is likely to be a subfamily of Bov B LINE that invaded the Artiodactyl genome prior to the separation of the Bovidae species, facilitated its massive amplification and dispersion in the ovine genome.

Tobacco ribosomal DNA spacer element stimulates amplification and expression of heterologous genes

Here we show that the cis-acting genetic element aps (amplification-promoting sequence), isolated from the nontranscribed spacer region of tobacco ribosomal DNA (rDNA), increases the level of expression of recombinant proteins. Transgenic tobacco plants, transformed with expression cassettes containing the herbicide-resistant acetolactate synthase (hr-ALS) gene or the green fluorescent protein (GFP) gene fused to the aps sequence, had greater levels of corresponding messenger RNAs (mRNAs) and proteins compared to transformants lacking aps. Analysis of transgenic plants showed that aps increased the copy number and transcription of the adjacent heterologous genes and, in the case of hr-ALS, enhanced the herbicide resistance phenotype. Both the increased transgene copy number and enhanced expression were stably inherited. These data provide the first evidence that the aps sequence can be used for gene amplification in transgenic plants and possibly other multicellular organisms.

Autonomous plasmid replication in Aspergillus nidulans: AMA1 and MATE elements

With few exceptions, in eukaryotic organisms the presence of a chromosomal replicator on a circular vector molecule is not sufficient to confer on it the ability to persist and replicate extrachromosomally. However, it is possible to isolate from genomes of some filamentous fungi DNA fragments which can provide extrachromosomal maintenance of plasmids. In Aspergillus nidulans, two functional classes of such sequences can be distinguished: effective plasmid replicators (e.g., AMA1) and transformation enhancers (e.g., ANS1 or MATEs), which apparently are able to initiate aberrant replication, leading to vector rearrangement and multimerization and eventually resulting in chromosomal integration. We discuss the similarity of these events to DNA amplification in other eukaryotes. A model is suggested which accounts for the formation of effective replicating plasmids as a result of sequence amplification. The model is based on the observation that in some organisms, including A. nidulans and Schizosaccharomyces pombe, duplication of an inefficient replicator enhances its efficiency dramatically. Some structural traits of transformation enhancers in A. nidulans imply a role for topoisomerases in amplification and replication of circular DNA molecules. We discuss practical applications of replicative vectors for gene cloning and expression studies.

Mapping of replication initiation sites in the mouse ribosomal gene cluster

We have used nascent strand determination analysis to map start sites of DNA replication in the mouse ribosomal gene cluster in which individual copies of the ribosomal genes are separated by intergenic spacer regions. One origin of bidirectional replication (OBR) was localized within a 3 kb region centered about 1.6 kb upstream of the rDNA transcription start site. At least one additional initiation site is situated near the 3' end of the transcription unit. Adjacent to the OBR at the transcription start site are located two amplification-promoting sequences, i.e., APS1 and APS2. Nuclease-hypersensitive sites were identified in both of the two APSs as well as in the OBR region, thus indicating that these sequences have an altered chromatin structure. In the OBR an intrinsically bent region, a purine-rich element and other prospective initiation zone components are found.

Multiple copies of MATE elements support autonomous plasmid replication in Aspergillus nidulans

The AMA1 sequence is an efficient plasmid replicator and transformation enhancer in Aspergillus nidulans. It comprises two long perfect inverted repeats (MATE elements) flanking a short, unique, central spacer. Subclone analysis indicates that the complete inverted duplication, but not the unique central spacer, is necessary for efficient plasmid replication. The smallest fragments able to affect transformation efficiency lie within the AT-rich portions of the inverted repeats. We demonstrate that two or more copies of the repeat in any relative orientation are able to perform the replicator function. A single copy of a MATE element increases transformation frequency to a modest extent but leads to multiple rearrangement, unstable integration or concatenation of vector molecules. Multimeric concatenates generated during this process are more sable mitotically, and when reisolated, transform the fungus at a much higher frequency than the original monomeric vector. Selection for multiple products which resemble amplified DNA in various eukaryotic systems.

Plasmid amplification-promoting sequences from the origin region of Chinese hamster dihydrofolate reductase gene do not promote position-independent chromosomal gene amplification

Initiation of DNA synthesis occurs with high frequency at oribeta, a region of DNA from the amplified dihydrofolate reductase (DHFR) domain of Chinese hamster CHOC 400 cells that contains an origin of bidirectional DNA replication (OBR). Recently, sequences from DHFR oribeta/OBR were shown to stimulate amplification of cis-linked plasmid DNA when transfected into murine cells. To test the role of oribeta/OBR in chromosomal gene amplification, linearized plasmids containing these sequences linked to a DHFR expression cassette were introduced into DHFR- CHO DUKX cells. After selection for expression of DHFR, cell lines that contain a single integrated, unrearranged copy of the linearized expression plasmid were identified and exposed to low levels of the folate analog, methotrexate (MTX). Of seven clonal cell lines containing the vector control, three gained resistance to MTX by 5 to 15-fold amplification of the integrated marker gene. Of 16 clonal cell lines that contained oribeta/OBR linked to a DHFR mini-gene, only 6 gained resistance to MTX by gene amplification. Hence, sequences from the DHFR origin region that stimulate plasmid DNA amplification do not promote amplification of an integrated marker gene in all chromosomal contexts. In addition to showing that chromosomal position has a strong influence on the frequency of gene amplification, these studies suggest that the mechanism that mediates the experiment of episomal plasmid DNA does not contribute to the early steps of chromosomal gene amplification.