Twists and turns: a scientific journey.

In this perspective I look back on the twists and turns that influenced the direction of my scientific career over the past 40 years. From my early ambition to be a chemist to my training in Philadelphia and Bethesda as a molecular biologist, I benefited enormously from generous and valuable mentoring. In my independent career in Philadelphia and Princeton, I was motivated by a keen interest in the changes in gene expression that direct the development of the mammalian embryo and inspired by the creativity and energy of my students, fellows, and research staff.

Rescuing US biomedical research from its systemic flaws.

The long-held but erroneous assumption of never-ending rapid growth in biomedical science has created an unsustainable hypercompetitive system that is discouraging even the most outstanding prospective students from entering our profession--and making it difficult for seasoned investigators to produce their best work. This is a recipe for long-term decline, and the problems cannot be solved with simplistic approaches. Instead, it is time to confront the dangers at hand and rethink some fundamental features of the US biomedical research ecosystem.

Elongation of the Kcnq1ot1 transcript is required for genomic imprinting of neighboring genes.

The imprinted gene cluster at the telomeric end of mouse chromosome 7 contains a differentially methylated CpG island, KvDMR, that is required for the imprinting of multiple genes, including the genes encoding the maternally expressed placental-specific transcription factor ASCL2, the cyclin-dependent kinase CDKN1C, and the potassium channel KCNQ1. The KvDMR, which maps within intron 10 of Kcnq1, contains the promoter for a paternally expressed, noncoding, antisense transcript, Kcnq1ot1. A 244-base-pair deletion of the promoter on the paternal allele leads to the derepression of all silent genes tested.

Phosphoenolpyruvate carboxykinase and the critical role of cataplerosis in the control of hepatic metabolism.

Background: The metabolic function of PEPCK-C is not fully understood; deletion of the gene for the enzyme in mice provides an opportunity to fully assess its function.

Methods: The gene for the cytosolic form of phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.

Functional characterization of a novel Ku70/80 pause site at the H19/Igf2 imprinting control region.

The imprinted expression of the H19 and Igf2 genes in the mouse is controlled by an imprinting control center (ICR) whose activity is regulated by parent-of-origin differences in methylation. The only protein that has been implicated in ICR function is the zinc-finger protein CTCF, which binds at multiple sites within the maternally inherited ICR and is required to form a chromatin boundary that inhibits Igf2 expression. To identify other proteins that play a role in imprinting, we employed electrophoresis mobility shift assays to identify two novel binding sites within the ICR.

Functional characterization of a testis-specific DNA binding activity at the H19/Igf2 imprinting control region.

The DNA methylation state of the H19/Igf2 imprinting control region (ICR) is differentially set during gametogenesis. To identify factors responsible for the paternally specific DNA methylation of the ICR, germ line and somatic extracts were screened for proteins that bind to the ICR in a germ line-specific manner. A specific DNA binding activity that was restricted to the male germ line and enriched in neonatal testis was identified.

An engineered 800 kilobase deletion of Uchl3 and Lmo7 on mouse chromosome 14 causes defects in viability, postnatal growth and degeneration of muscle and retina.

The Acrg minimal region is a 1.5-1.7 Mb domain defined by genetic complementation among deletions generated around Ednrb on chromosome 14 in mice.

Gatm, a creatine synthesis enzyme, is imprinted in mouse placenta.

To increase our understanding of imprinting and epigenetic gene regulation, we undertook a search for new imprinted genes. We identified Gatm, a gene that encodes l-arginine:glycine amidinotransferase, which catalyzes the rate-limiting step in the synthesis of creatine. In mouse, Gatm is expressed during development and is imprinted in the placenta and yolk sac, but not in embryonic tissues.

A differentially methylated region within the gene Kcnq1 functions as an imprinted promoter and silencer.

The imprinted gene cluster on mouse distal chromosome 7 contains a differentially methylated CpG island that maps within the Kcnq1 gene that has been shown to be required for the imprinting of multiple genes. To evaluate models for how this imprinting control region (ICR) regulates imprinting, we have characterized it structurally and functionally. We show that the region contains a promoter for a paternally expressed anti-sense transcript, Kcnq1ot1, and we define the extent of the minimal promoter.

CTCF maintains differential methylation at the Igf2/H19 locus.

Genomic imprinting relies on establishing and maintaining the parental-specific methylation of DNA elements that control the differential expression of maternal and paternal alleles. Although the essential DNA methyltransferases have been discovered, proteins that regulate the sequence-specific establishment and maintenance of allelic methylation have not been identified. One candidate regulator of methylation, the zinc-finger protein CTCF, binds to the imprinting control region (ICR) of the genes Igf2 (encoding insulin-like growth factor 2) and H19 (fetal liver mRNA; refs.

Clock regulatory elements control cyclic expression of Lunatic fringe during somitogenesis.

Somitogenesis requires a segmentation clock and Notch signaling. Lunatic fringe (Lfng) expression in the presomitic mesoderm (PSM) cycles in the posterior PSM, is refined in the segmenting somite to the rostral compartment, and is required for segmentation. We identify distinct cis-acting regulatory elements for each aspect of Lfng expression.

A human H19 transgene exhibits impaired paternal-specific imprint acquisition and maintenance in mice.

Genomic imprinting, the differential expression of autosomal genes based on their parent of origin, is observed in all eutherian mammals that have been examined. In most instances the genes that are imprinted in one species are imprinted in others as well, suggesting that imprinting predated eutherian radiation. For example, the RNA-coding H19 gene is repressed upon paternal inheritance in all species examined to date.

Candidate genes required for embryonic development: a comparative analysis of distal mouse chromosome 14 and human chromosome 13q22.

Mice homozygous for the Ednrb(s-1Acrg) deletion arrest at embryonic day 8.5 from defects associated with mesoderm development. To determine the molecular basis of this phenotype, we initiated a positional cloning of the Acrg minimal region.