Anticipation of deteriorating health and information avoidance.

We integrate anticipatory utility and endogenous beliefs about future negative health shocks into a life-cycle model of physiological aging. Individuals care about their future utility derived from their health status and form endogenous beliefs about the probability of a negative health shock. We calibrate the model with data from gerontology and use the model to predict medical testing decisions of individuals.

The gender gap in mortality: How much is explained by behavior?

In developed countries, women are expected to live about 4-5 years longer than men. In this paper, we develop a novel approach to gauge the extent to which gender differences in longevity can be attributed to gender-specific preferences and health behavior. We set up a physiologically founded model of health deficit accumulation and calibrate it using recent insights from gerontology.

The status of Wnt signalling regulates neural and epidermal fates in the chick embryo.

The acquisition of neural fate by embryonic ectodermal cells is a fundamental step in the formation of the vertebrate nervous system. Neural induction seems to involve signalling by fibroblast growth factors (FGFs) and attenuation of the activity of bone morphogenetic protein (BMP). But FGFs, either alone or in combination with BMP antagonists, are not sufficient to induce neural fate in prospective epidermal ectoderm of amniote embryos.

Activation of the beta globin locus by transcription factors and chromatin modifiers.

Locus control regions (LCRs) alleviate chromatin-mediated transcriptional repression. Incomplete LCRs partially lose this property when integrated in transcriptionally restrictive genomic regions such as centromeres. This frequently results in position effect variegation (PEV), i.

Nuclear factors GT-1 and 3AF1 interact with multiple sequences within the promoter of the Tdc gene from Madagascar periwinkle: GT-1 is involved in UV light-induced expression.

Plant secondary metabolites of the terpenoid indole alkaloid (TIA) class comprise several compounds with pharmaceutical applications. A key step in the TIA biosynthetic pathway is catalysed by the enzyme tryptophan decarboxylase (TDC), which channels the primary metabolite tryptophan into TIA metabolism. In Catharanthus roseus (Madagascar periwinkle), the Tdc gene is expressed throughout plant development.

Mechanisms of developmental control of transcription in the murine alpha- and beta-globin loci.

We have characterized mRNA expression and transcription of the mouse alpha- and beta-globin loci during development. S1 nuclease and primary transcript in situ hybridization analyses demonstrate that all seven murine globin genes (zeta, alpha1, alpha2, epsilony, betaH1, betamaj, and betamin) are transcribed during primitive erythropoiesis, however transcription of the zeta, epsilony, and betaH1 genes is restricted to the primitive erythroid lineage. Transcription of the betamaj and betamin genes in primitive cells is EKLF-dependent demonstrating EKLF activity in embryonic red cells.

Chromatin interaction mechanism of transcriptional control in vivo.

We have used a kinetic analysis to distinguish possible mechanisms of activation of transcription of the different genes in the human beta globin locus. Based on in situ studies at the single-cell level we have previously suggested a dynamic mechanism of single genes alternately interacting with the locus control region (LCR) to activate transcription. However, those steady-state experiments did not allow a direct measurement of the dynamics of the mechanism and the presence of loci with in situ primary transcript signals from two beta-like genes in cis has left open the possibility that multiple genes in the locus could initiate transcription simultaneously.

The dynamics of globin gene expression and gene therapy vectors.

The most important level of regulation of the beta-globin genes is by activation of all of the genes by the Locus Control Region (LCR) and repression of the early genes by an as yet unknown factor acting on sequences flanking the genes. Superimposed on this is a mechanism in which the early genes (epsilon and gamma) suppress the late genes (delta and beta) by competition for the interaction with the LCR. Although this extra level of gene regulation is quantitatively of less importance than the direct repression mechanism, it has important implications and has provided an excellent assay system to probe the regulation of transcription at the single cell level.

The effect of distance on long-range chromatin interactions.

We have used gene competition to distinguish between possible mechanisms of transcriptional activation of the genes of the human beta-globin locus. The insertion of a second beta-globin gene at different points in the locus shows that the more proximal beta gene competes more effectively for activation by the locus control region (LCR). Reducing the relative distance between the genes and the LCR reduces the competitive advantage of the proximal gene, a result that supports activation by direct interaction between the LCR and the genes.

The dynamics of globin gene expression and gene therapy vectors.

The most important level of the regulation of the beta-globin genes is by activation of all of the genes by the locus control region (LCR). Part of the developmental regulation of the locus is achieved by competition of the genes for the interaction with the LCR. Although this level of gene regulation is quantitatively of less importance than the direct repression mechanism for the early genes, it has important implications and has provided an excellent assay to probe the regulation of transcription at the single cell level.

The dynamics of globin gene expression and position effects.

We have used gene competition to study the regulation of the human beta-globin locus in transgenic mice as a model system of a multigene locus. The locus is regulated by the locus control region (LCR), which is required for the expression of all the genes. Analysis of the locus at the single-cell level shows that the LCR appears to interact directly with the genes via a looping mechanism.

Mechanisms of developmental regulation in globin loci.

Recent advances in the study of globin gene switching in the context of the complete locus have contributed greatly to our understanding of the mechanisms of developmental regulation. It has become clear that the interactions between the distant locus control region and the individual globin genes, as well as the trans-acting factors and physical parameters that affect these interactions, are crucial determinants in the developmental modulation of globin gene expression. This review concentrates on recent advances in the highly studied human beta-globin locus and will compare and contrast data from the human alpha-globin locus as well as the alpha and beta loci from other species where appropriate.

The role of EKLF in human beta-globin gene competition.

We have investigated the role of erythroid Kruppel-like factor (EKLF) in expression of the human beta-globin genes in compound EKLF knockout/human beta-locus transgenic mice. EKLF affects only the adult mouse beta-globin genes in homozygous knockout mice; heterozygous mice are unaffected. Here we show that EKLF knockout mice express the human epsilon and gamma-globin genes normally in embryonic red cells.

Heterochromatin effects on the frequency and duration of LCR-mediated gene transcription.

Locus control regions (LCRs) are responsible for initiating and maintaining a stable tissue-specific open chromatin structure of a locus. In transgenic mice, LCRs confer high level expression on linked genes independent of position in the mouse genome. Here we show that an incomplete LCR loses this property when integrated into heterochromatic regions.