William Davies scite author profile

In a small fraction of mammalian genes--at present estimated at less than 1% of the total--one of the two alleles that is inherited by the offspring is partially or completely switched off. The decision as to which one is silenced depends on which allele was inherited from the mother and which from the father. These idiosyncratic loci are known as imprinted genes, and their existence is an evolutionary enigma, as they effectively nullify the advantages of diploidy. Although they are small in number, these genes have important effects on physiology and behaviour, and many are expressed in the brain. There is increasing evidence that imprinted genes influence brain function and behaviour by affecting neurodevelopmental processes.

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Xlr3b is a new imprinted candidate for X-linked parent-of-origin effects on cognitive function in mice

Davies

et al. 2005

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Imprinted genes show differential expression between maternal and paternal alleles as a consequence of epigenetic modification that can result in 'parent-of-origin' effects on phenotypic traits. There is increasing evidence from mouse and human studies that imprinted genes may influence behavior and cognitive functioning. Previous work in girls with Turner syndrome (45,XO) has suggested that there are X-linked parent-of-origin effects on brain development and cognitive functioning, although the interpretation of these data in terms of imprinted gene effects has been questioned. We used a 39,XO mouse model to examine the influence of the parental origin of the X chromosome on cognitive behaviors and expression of X-linked genes in brain. Our findings confirm the existence of X-linked imprinted effects on cognitive processes and identify a new maternally expressed imprinted gene candidate on the X chromosome, Xlr3b, which may be of importance in mediating the behavioral effects.

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Visuospatial attentional functioning in mice: interactions between cholinergic manipulations and genotype

Humby

Laird

Davies

et al. 1999

Eur J of Neuroscience

173

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Attentional functioning in mice was assessed in an analogue of the five-choice serial reaction time task in which the requirement was to detect brief visual stimuli presented across five spatial locations. Two hybrid strains of mice were assessed; F1 C57Bl/6xDBA/2 and C57Bl/6x129sv. Both strains acquired the task to high levels of performance with, in particular, no problems due to premature responding. At performance, systematic manipulation of the task parameters indicated a pattern of effects consistent with the task, taxing aspects of visuospatial attention. There were some differential effects of task manipulations at baseline across strain. However, the pattern of effects suggested these were likely to be the result of effects on factors other than attentional functioning per se, such as behavioural reactivity and inhibition. There was evidence in both strains of specific, centrally mediated effects of scopolamine on attentional functioning, with the C57Bl/6xDBA/2 hybrid showing greater sensitivity to the drug manipulation. Specific effects on discriminative accuracy were observed at doses of 0.02 and 0.2 mg/kg scopolamine. At the 2 mg/kg dose, large reductions in accuracy were associated with large effects on other measures, including omissions and response latencies, suggestive of nonspecific effects on task performance. These data indicate, for the first time, the utility of operant methods in assessing visuospatial attentional functioning in mice. They confirm the importance of cholinergic mechanisms in attentional processes across species, and suggest interactions between cholinergic mechanisms and genotype in the expression of attentional phenotypes.

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Imprinted gene expression in the brain

Davies

Isles

Wilkinson

2005

Neuroscience & Biobehavioral Reviews

146

118

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It is not all hormones: Alternative explanations for sexual differentiation of the brain

Davies¹,

Wilkinson²

2006

Brain Research

138

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William Davies

Genomic imprinting effects on brain development and function

Xlr3b is a new imprinted candidate for X-linked parent-of-origin effects on cognitive function in mice

Visuospatial attentional functioning in mice: interactions between cholinergic manipulations and genotype

Imprinted gene expression in the brain

It is not all hormones: Alternative explanations for sexual differentiation of the brain

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