Peter Vollmayr scite author profile

Molecular mechanisms determining methylation patterns in eukaryotic genomes still remain unresolved. We have characterized, in Ascobolus, a gene for de novo methylation. This novel eukaryotic gene, masc1, encodes a protein that has all motifs of the catalytic domain of eukaryotic C5-DNA-methyltransferases but is unique in that it lacks a regulatory N-terminal domain. The disruption of masc1 has no effect on viability or methylation maintenance but prevents the de novo methylation of DNA repeats, which takes place after fertilization, through the methylation induced premeiotically (MIP) process. Crosses between parents harboring the masc1 disruption are arrested at an early stage of sexual reproduction, indicating that the activity of Masc1, the product of the gene, is crucial in this developmental process.

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Sexual Differentiation of the Spinal Nucleus of the Bulbocavernosus Is Not Mediated Solely by Androgen Receptors in Muscle Fibers

Niel

Shah

Lewis

et al. 2009

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The spinal nucleus of the bulbocavernosus (SNB) neuromuscular system is a highly conserved and well-studied model of sexual differentiation of the vertebrate nervous system. Sexual differentiation of the SNB is currently thought to be mediated by the direct action of perinatal testosterone on androgen receptors (ARs) in the bulbocavernosus/levator ani muscles, with concomitant motoneuron rescue. This model has been proposed based on surgical and pharmacological manipulations of developing rats as well as from evidence that male rats with the testicular feminization mutation (Tfm), which is a loss of function AR mutation, have a feminine SNB phenotype. We examined whether genetically replacing AR in muscle fibers is sufficient to rescue the SNB phenotype of Tfm rats. Transgenic rats in which wild-type (WT) human AR is driven by a human skeletal actin promoter (HSA-AR) were crossed with Tfm rats. Resulting male HSA-AR/Tfm rats express WT AR exclusively in muscle and nonfunctional Tfm AR in other tissues. We then examined motoneuron and muscle morphology of the SNB neuromuscular system of WT and Tfm rats with and without the HSA-AR transgene. We observed feminine levator ani muscle size and SNB motoneuron number and size in Tfm males with or without the HSA-AR transgene. These results indicate that AR expression in skeletal muscle fibers is not sufficient to rescue the male phenotype of the SNB neuromuscular system and further suggest that AR in other cell types plays a critical role in sexual differentiation of this system.

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Masc2, a C5-DNA-Methyltransferase from Ascobolus immersus with Similarity to Methyltransferases of Higher Organisms

Чернов

Vollmayr²,

Walter³

et al. 1997

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The filamentous fungus Ascobolus immersus represents an eukaryotic model organism to study genetic phenomena linked to DNA methylation. Following our previous characterization of a gene, masc1 from A. immersus, encoding the 'de novo' C5-DNA-methyltransferase (MTase), we report here the identification of a second MTase gene, masc2. The deduced peptide sequence of Masc2 is similar to previously identified eukaryotic MTases and distinct from Masc1 by having a large N-terminal domain in addition to the ubiquitous C-terminal catalytic domain. Following cloning of the gene, Masc2 was overexpressed and purified. Masc2 shows MTase activity with double stranded DNAs. Structural and biochemical properties of Masc2 suggest that it may function as a 'maintenance' MTase. With this finding, A. immersus represents so far the only eukaryotic organism in which two possibly synergistically operating MTases have been identified.

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Peter Vollmayr

A Gene Essential for De Novo Methylation and Development in Ascobolus Reveals a Novel Type of Eukaryotic DNA Methyltransferase Structure

Sexual Differentiation of the Spinal Nucleus of the Bulbocavernosus Is Not Mediated Solely by Androgen Receptors in Muscle Fibers

Masc2, a C5-DNA-Methyltransferase from Ascobolus immersus with Similarity to Methyltransferases of Higher Organisms

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