P. W. J. Rigby scite author profile

The murine oct-3 gene encodes a transcription factor containing a POU-specific domain and a homeodomain. In marked contrast to other homeodomain-encoding genes, oct-3 is expressed in the totipotent and pluripotent stem cells of the pregastrulation embryo and is down-regulated during differentiation to endoderm and mesoderm, suggesting that it has a role in early development. The oct-3 gene is also expressed in primordial germ cells and in the female germ line.

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The regulation of myogenin gene expression during the embryonic development of the mouse.

Yee¹,

Rigby²

1993

Genes & Development

392

287

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The myogenic program can be activated in cultured cells by each of four basic-helix-loop-helix (bHLH) transcription factors, the expression of which is strictly controlled, both temporally and spatially, during embryonic development. To begin to understand the mechanisms by which these regulators ~re regulated themselves, we have used transgenic animals to define the minimal sequences required for the complete recapitulation of the temporal and spatial expression pattern of the myogenin gene during embryogenesis. We show that this can be achieved with only 133 bp of 5'-flanking DNA and identify two essential motifs, which are consensus binding sites for the bHLH proteins and for the proteins of the RSRF family. We show further that these sequences, when juxtaposed to a heterologous promoter, are capable of imposing the myogenin expression pattern. We conclude that the proper regulation of myogenin requires a bHLH protein, most probably Myf-5, the only myogenic bHLH factor known to be present in the embryo at the time that myogenin is activated, and an RSRF-Iike binding activity. Furthermore, the expression pattern of a mutant myogenin promoter lacking the RSRF site reveals the existence of at least two populations of cells within the myotomes and of novel rostrocaudal gradients of expression.

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McrA and McrB restriction phenotypes of someE.colistrains and implications for gene cloning

Raleigh¹,

et al. 1988

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The McrA and McrB (modified cytosine restriction) systems of E. coli interfere with incoming DNA containing methylcytosine. DNA from many organisms, including all mammalian and plant DNA, is expected to be sensitive, and this could interfere with cloning experiments. The McrA and B phenotypes of a few strains have been reported previously (1-4). The Mcr phenotypes of 94 strains, primarily derived from E. coli K12, are tabulated here. We briefly review some evidence suggesting that McrB restriction of mouse-modified DNA does occur in vivo and does in fact interfere with cloning of specific mouse sequences.

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Mapping of Mutational Alterations in DNA with S1 Nuclease: The Location of Deletions, Insertions and Temperature-sensitive Mutations in SV40

Shenk¹,

Rhodes²,

Rigby³

et al. 1974

Cold Spring Harbor Symposia on Quantitative Biology

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McrA and McrB restriction phenotypes of someE.colistrains and implications for gene cloning

Raleigh¹,

Murray²,

Revel³

et al. 1995

Nucl Acids Res

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P. W. J. Rigby

A POU-domain transcription factor in early stem cells and germ cells of the mammalian embryo

The regulation of myogenin gene expression during the embryonic development of the mouse.

McrA and McrB restriction phenotypes of someE.colistrains and implications for gene cloning

Mapping of Mutational Alterations in DNA with S1 Nuclease: The Location of Deletions, Insertions and Temperature-sensitive Mutations in SV40

McrA and McrB restriction phenotypes of someE.colistrains and implications for gene cloning

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