X‐chromosome Inactivation and Developmental Patterns in Mammals

Lyon, Mary F.

doi:10.1111/j.1469-185x.1972.tb00969.x

Cited by 622 publications

(179 citation statements)

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“…This difference in gene dosage is "compensated" in mammals and in Drosophila, so that males and females produce equal amounts of enzymes from such sex-linked genes. In male Drosophila compensation is achieved by transcription of X-linked genes at twice the female rate (Lucchesi, 1973); in mammals, one of the X-chromosomes in every somatic cell of the female is inactivated, so that females have the same effective gene dose as males (Lyon, 1972). Neither of these mechanisms has been demonstrated to occur in other organisms.…”

Section: Introductionmentioning

confidence: 99%

Absence of dosage compensation for a sex-linked enzyme in butterflies (Heliconius)

Johnson

Turner

1979

Heredity

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SUMMARY6-phosphogluconate dehydrogenase (6PGD) is sex-linked in Heliconius butterflies. Within each of two species tested, the specific activity of 6PGD in males (the homogametic sex) is approximately twice that in females. This confirms that sex-linked genes in lepidoptera, as in birds, are not dosage-compensated. This absence of dosage compensation may be the basis for the frequent femalelimitation of mimicry, and explains the peculiarity that the loci involved are never sex-linked, whereas male-limited sexual characters can be both sex-linked and autosomal.

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Section: Introductionmentioning

confidence: 99%

Absence of dosage compensation for a sex-linked enzyme in butterflies (Heliconius)

Johnson

Turner

1979

Heredity

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“…Such analysis in rodent livers suggests that hepatocytes randomly allocate their progeny in liver development and regeneration (Iannaccone et al, 1987;Khokha et al, 1994;Ng and Iannaccone, 1992). We have immunohistochemically demonstrated that, in spf ash (sparse-fur with abnormal skin and hair)-heterozygous mouse liver (DeMars et al, 1976;Hodges and Rosenberg, 1989;Ohtake et al, 1987), ornithine transcarbamylase (OTC) expression is mosaic in hepatocytes because of the random inactivation of either the X chromosome carrying the spf ash gene or the wild-type gene (Lyon, 1961(Lyon, , 1972Wareham and Williams, 1986), and that the mosaic pattern can be analyzed in both two and three dimensions (Shiojiri et al, 1997). Analysis of the OTC mosaic pattern in the fetal mouse liver, where biliary cell differentiation occurs, may be helpful in resolving the issues mentioned above.…”

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confidence: 92%

Cell Lineage Analysis during Liver Development Using the spfash-Heterozygous Mouse

Shiojiri

Inujima

Ishikawa

et al. 2001

Laboratory Investigation

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SUMMARY:Biliary epithelial cells differentiate from periportal hepatoblasts during fetal mouse liver development. It remains to be determined whether each hepatoblast is equivalent for differentiation into hepatocytes and biliary epithelial cells in normal liver development. To resolve this question, the mosaic pattern of ornithine transcarbamylase (OTC) expression was analyzed in the hepatoblast population of spf ash (sparse-fur with abnormal skin and hair)-heterozygous fetal mouse livers, in which random inactivation of either the X chromosome carrying the spf ash gene (causing OTC deficiency) or its wild-type gene occurs. Aggregates (patches) of OTC-positive hepatoblasts showed very complex patterns, and their shapes and size distributions were similar in sections from periportal regions and nonperiportal regions of the fetal liver in which bile duct differentiation by periportal hepatoblasts occurred. Average sizes of periportal patches were larger than those of nonperiportal patches because of the presence of more hemopoietic cells in the latter region. The OTC mosaicism in periportal bile duct progenitors and hepatoblast islands of other liver parenchyma was also similar. These results suggest that the growth patterns of hepatoblasts are similar in both periportal and nonperiportal regions. Isolated three-dimensional patches comprising hepatoblasts giving rise to only biliary epithelial cells or hepatoblasts giving rise to both hepatocytes and biliary epithelial cells were observed in periportal regions. In nonperiportal regions, patches consisting of hepatoblasts differentiating into hepatocytes were also seen. Thus, it is likely that there are three lineages for the developmental fates of hepatoblasts: hepatoblasts giving rise to only biliary epithelial cells, hepatoblasts giving rise to only hepatocytes, and hepatoblasts giving rise to both of them. (Lab Invest 2001, 81:17-25).

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“…In mammals, dosage compensation is achieved by inactivation of one of the X-chromosomes in the somatic cells of the female (the homogametic sex), so equalising the gene dose in males and females (Lyon, 1972). In Drosophila, an alternative mechanism of dosage compensation (dosage compensation sensu strictu) has evolved, whereby the effective dose of X-linked genes is equalised in the two sexes by an increased rate of transcription in the male (Lucchesi, 1973).…”

Section: Introductionmentioning

confidence: 99%

Dosage compensation of the sex-linked enzyme phosphoglucomutase in the orthoptera

Hebbert

1984

Heredity

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SUMMARYSex-linkage of phosphoglucomutase (PGM) is widespread in the Orthoptera. For each of three species studied (representing the two suborders), the specific activity of PGM in males (the heterogametic sex) is almost identical to that in females, providing direct evidence that the difference in gene dose of a sex-linked locus in males and females is compensated in the Orthoptera. The Orthoptera is only the third group for which compensation has been demonstrated. Dosage compensation has been investigated in three orders of insects: it is present in Orthoptera and Diptera but absent in Lepidoptera. It is postulated that dosage compensation arose or was present in related archopteran ancestors and has been secondarily lost in Lepidoptera, possibly in association with female heterogamety in this group.

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X‐chromosome Inactivation and Developmental Patterns in Mammals

Cited by 622 publications

References 172 publications

Absence of dosage compensation for a sex-linked enzyme in butterflies (Heliconius)

Absence of dosage compensation for a sex-linked enzyme in butterflies (Heliconius)

Cell Lineage Analysis during Liver Development Using the spfash-Heterozygous Mouse

Dosage compensation of the sex-linked enzyme phosphoglucomutase in the orthoptera

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