Julia Andrew Emerson scite author profile

Julia Andrew Emerson

3Publications

47Citation Statements Received

91Citation Statements Given

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Affiliations

Howard Hughes Medical Institute, Princeton University, Carleton College

Publications

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Molecular Analysis of the Distal Enhancer of the Mouse α-Fetoprotein Gene

Millonig

Emerson

Levorse

et al. 1995

Molecular and Cellular Biology

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The mouse alpha-fetoprotein (AFP) gene is transcribed at high levels in the visceral endoderm of the yolk sac and fetal liver and at much lower rates in the endoderm of the fetal gut. Expression of the gene in vivo requires the presence of at least one of three enhancers which lie in its 5' flanking region. In this report, we establish that the most distal AFP enhancer directed consistent expression of a linked AFP minigene in all three endodermal tissues in transgenic mice. The enhancer is composed of three domains, each of which is essential for full enhancer function by transient transfection assays. DNase I footprinting identified three regions of the enhancer which are protected by human hepatoma nuclear extracts, one of which corresponded to a consensus site for HNF-3 binding. Site-directed mutations in this site caused a 10-fold reduction in enhancer function by transient transfection. In transgenic mice, however, the mutation resulted in sporadic expression of the transgene, dependent on the site of integration. A similar acquisition of position-dependent sporadic expression of the transgene was observed with a mutation in a second protein binding site, despite the fact that this mutation had very little effect on enhancer function as assessed by transient transfection. These studies underscore the value of examining the functions of specific protein binding sites in vivo.

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The zonal expression of α‐fetoprotein transgenes in the livers of adult mice

Emerson

Vacher

Cirillo

et al. 1992

Developmental Dynamics

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The developmental regulation of the a-fetoprotein (AFP) gene in liver results in high-level expression in the fetus, followed by dramatic transcriptional repression after birth. We have examined the mouse AFP gene for transcriptional control sequences that may be involved in its postnatal repression in liver. We showed previously that removal of a DNA region between positions -250 base pairs (bp) and -838 bp of the AFP gene resulted in the persistence of expression of an AFP minigene in the postpartum liver of transgenic mice (Vacher and Tilghman, Science 2501732-1735,1990). This study examines the distribution of these transgene transcripts in liver using in situ hybridization. We show that there is a zonal distribution of minigene transcripts in the adult livers of these animals. Hepatocytes surrounding the central veins express high levels of minigene transcripts, while hepatocytes in the intermediate and portal areas contain few, if any, transcripts. Quantitative RNAse protection analysis shows a decrease in transgene RNA levels after birth, consistent with repression in all but a small subset of hepatocytes. These results indicate that repression in the pericentral hepatocytes is dependent upon the presence of a cis-acting, negative-regulatory domain, which is located between the enhancers and the proximal promoter of the AFP gene. In contrast, this domain is not essential for complete repression of AFP transgenes in the intermediate zone and periportal hepatocytes. o 1992 Wiley-Liss, Inc.

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Developmental Regulation of α-Fetoprotein Expression in Intestinal Epithelial Cells of Transgenic Mice

Cirillo

Emerson

Vacher

et al. 1995

Developmental Biology

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The alpha-fetoprotein (AFP) gene is transcribed in most epithelial cells lining the fetal mouse small intestine, but transcription persists in only a subset of enteroendocrine cells representing less than 1% of the total intestinal epithelial cells in the adult. The decrease in AFP expression after birth is mediated in part by a repressor element lying between -838 and -250 bp of the AFP gene. Deletion of this element from AFP minigene constructs results in high-level minigene expression in the intestines of adult transgenic mice. Although high levels of AFP minigene RNA are expressed, the fetal pattern of expression is not maintained upon deletion of the repressor element. Instead, the number of cells in which the minigene is expressed increases from less than 1% to approximately 10% of the epithelial cells in the adult small intestine, and includes the majority of the goblet cells in addition to the enteroendocrine cells. In contrast, the pattern of AFP minigene expression in the enterocytes is unaffected by deletion of the repressor element and continues to decrease in the neonate. These studies indicate that the identified AFP repressor is active specifically in goblet cells. The decrease in AFP expression in the enterocytes may be mediated by a separate cis-acting element that is contained in the AFP minigene construct. Alternatively, it is possible that mature enterocytes lack some of the positive factors required for initiation and maintenance of minigene transcription in the absence of the identified negative element.

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