F Melin scite author profile

The genomic rearrangements of six polyomavirus mutants selected on PCC4 embryonal carcinoma cells have been compared and their common characteristics pointed out. All mutants show a duplication which includes at least the adenovirus type 5 (Ad5) ElA-like enhancer core sequence plus a deletion of variable size and location. The presence of the second enhancer core sequence, the SV40-like enhancer, is not required for expression of the PyEC PCC4 phenotype. Two of these mutants are also able to express polyomavirus T antigen on F9 and LT1 cells. Multiadaptation seems to require the duplication of the Ad5 ElA-like core sequence, the maintenance of the SV40-like core sequence and a local change in DNA stability.

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Transcription enhancer factor-1 (TEF-1) DNA binding sites can specifically enhance gene expression at the beginning of mouse development.

Melin

Miranda

Montreau

et al. 1993

The EMBO Journal

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In an effort to identify transcriptional elements that are recognized at different stages of early mouse development, polyomavirus (PyV) enhancer mutations were selected for their ability to support PyV transcription and replication in various mouse undifferentiated embryonal carcinoma (EC) and embryonic stem (ES) cell lines. Several of these enhancer mutations were then isolated, sequenced and tested for their ability to stimulate the PyV early gene promoter in plasmid DNA that was either transfected into EC, ES and fibroblast cell lines, or injected into the nuclei of mouse 1‐cell and 2‐cell embryos. EC, ES and fibroblast cell lines showed clear preferences for different enhancer configurations, and cleavage‐stage embryos (2‐ to 8‐cell stage) strongly preferred the same enhancer configuration favored by ES cells. This ‘embryo responsive’ (ER) enhancer configuration was characterized by a tandem duplication of the region containing a single point mutation that created a DNA binding site for Transcription Enhancer Factor‐1 (TEF‐1). ER enhancers stimulated the PyV promoter up to 350‐fold in embryos, and were up to 74‐fold more active than the wild‐type PyV enhancer. Most of the activity from PyER enhancers could be duplicated in 2‐cell embryos by synthesizing only the tandemly repeated sequence. Comparison of these synthetic enhancers with ER enhancers confirmed that TEF‐1 DNA binding sites were highly preferred in ES cells and cleavage‐stage embryos, and suggested that ER enhancer activity resulted primarily from cooperative interaction between either two closely spaced TEF‐1 DNA binding sites or two TEF‐1 DNA binding sites separated by a third, as yet unidentified, transcription factor binding site. These results provide a prototype of a mammalian embryo responsive enhancer, and suggest that TEF‐1 plays an important role in activation of gene expression at the beginning of mammalian development.

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Isolation of polyomavirus mutants multiadapted to murine embryonal carcinoma cells

Melin¹,

Pinon²,

Kress³

et al. 1985

J Virol

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Polyomavirus mutants were isolated from PCC4 embryonal carcinoma cells infected with a variant strain of polyomavirus (ev 1001h) and were found to contain a tandem duplication overlapping the enhancers and the origin of replication. These mutants were able to infect several lines of embryonal carcinoma cells, including PCC4, F9, and LT1. The sequence and structure of one of these mutants are presented and compared with those of other PyEC PCC4 mutants previously described.

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Host range specificity of polyomavirus EC mutants in mouse embryonal carcinoma and embryonal stem cells and preimplantation embryos

Melin

Kemler

Kress

et al. 1991

J Virol

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New polyomavirus mutants (PyEC-C) selected on LT1 cells and exhibiting a strong cytopathic effect in all embryonal carcinoma (EC) cell lines tested have been isolated. They were derived by a sequence duplication event from a new multiadapted mutant isolated in PCC4 cells. A quantitative analysis of viral DNA replication and transcription in 3T6 and EC cell lines was performed to compare PyEC-C mutants and PyEC mutants previously isolated on F9 or PCC4 cell lines. Analysis of the results indicated that PyEC-C mutants were more efficient in all EC cell lines tested than all other PyEC mutants; on the contrary, they were less adapted to 3T6 cells than wild-type polyomavirus. In both 3T6 and EC cells, uncoupling between early transcription and viral DNA replication was observed; different viruses were shown to replicate with the same efficiency, while their levels of early transcripts differed by two orders of magnitude. Attempts to correlate the genome structure of the mutants with their biological properties indicate that duplication of protein-binding sequences is not the only event responsible for their phenotype. PyEC mutants were also analyzed with respect to their interactions with early mouse embryos and embryonal stem (ES) cell lines derived from the inner cell mass of blastocysts. They showed different degrees of expression in ES cells and preimplantation embryos. ES cells were most efficiently infected and lysed by mutants which exhibit both a multiadapted and a lytic phenotype in EC cells. Preimplantation embryos were not permissive to any PyEC mutants. However, EC-multiadapted mutants were infectious in blastocysts after two days of in vitro culture.

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F Melin

Common features of polyomavirus mutants selected on PCC4 embryonal carcinoma cells.

Transcription enhancer factor-1 (TEF-1) DNA binding sites can specifically enhance gene expression at the beginning of mouse development.

Isolation of polyomavirus mutants multiadapted to murine embryonal carcinoma cells

Host range specificity of polyomavirus EC mutants in mouse embryonal carcinoma and embryonal stem cells and preimplantation embryos

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