A. Mes scite author profile

To define the minimal cis-acting sequences required for polyomavirus DNA replication (ori), we constructed a number of polyomavirus-plasmid recombinants and measured their replicative capacity after transfection of a permissive mouse cell line capable of providing polyomavirus large T antigen in trans (MOP cells). Recombinant plasmids containing a 251-base-pair fragment of noncoding viral DNA replicate efficiently in MOP cells. Mutational analyses of these viral sequences revealed that they can be physically separated into two genetic elements. One of these elements, termed the core, contains an adenine-thyminerich area, a 32-base-pair guanine-cytosine-rich palindrome, and a large T antigen binding site, and likely includes the site from which bidirectional DNA replication initiates. The other, termed ,B, is located adjacent to the core near the late region and is devoid of outstanding sequence features. Surprisingly, another sequence element named a, located adjacent to ,B but outside the borders of the 251-basepair fragment, can functionally substitute for 1. This sequence too contains no readily recognized sequence features and possesses no obvious homology to the ,B element. The three elements together occupy a contiguous noncoding stretch of DNA no more than 345 base pairs in length in the order a, 1B, and core. These results indicate that the polyomavirus origin for DNA replication comprises multiple genetic elements.

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Polyoma viral middle T-antigen is required for transformation

Mes¹,

Hassell²

1982

J Virol

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To determine whether small or middle T-antigen (or both) of polyoma virus is required for transformation, we constructed mutants of recombinant plasmids which bear the viral oncogene and measured the capacity of these mutants to transform rat cells in culture. Insertion and deletion mutations in sequences encoding small and middle T-antigens (79.7, 81.3, and 82.9 map units) rendered the DNA incapable of causing transformation by the focus assay. Similar mutations in sequences that encoded middle but not small T-antigen (89.7, 92.1, and 96.5 map units) generally abolished the transforming activity of the DNA. However, two mutants (pPdll-4 and pPdl2-7) that carried deletions at 92.1 map units retained the capacity to transform cells; pPdll-4 did so at frequencies equal to those of the parental plasmid, whereas pPdl2-7 transformed at 10% the frequency of its antecedent. From these studies we conclude that small T-antigen alone is insufficient to cause transformation and that middle T-antigen is required for transformation, either in combination with small T-antigen or by itself.

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Experimental infection with mouse adenovirus in adult mice

Veen

Mes

1973

Archiv f Virusforschung

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Establishment of two human cell strains from kidney and reticulosarcoma of lung

Veen

Bots

Mes

1958

Archiv f Virusforschung

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Preservation of human cell strains and of tissues by freezing

Veen

Mes

1958

Archiv f Virusforschung

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A. Mes

Polyomavirus origin for DNA replication comprises multiple genetic elements

Polyoma viral middle T-antigen is required for transformation

Experimental infection with mouse adenovirus in adult mice

Establishment of two human cell strains from kidney and reticulosarcoma of lung

Preservation of human cell strains and of tissues by freezing

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