Rosemary F. Bachvarova scite author profile

Rosemary F. Bachvarova

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45Publications

3,104Citation Statements Received

1,141Citation Statements Given

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Affiliations

Cornell University, Hostos Community College, Kettering University

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Disruption of the HNF-4 gene, expressed in visceral endoderm, leads to cell death in embryonic ectoderm and impaired gastrulation of mouse embryos.

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et al. 1994

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Expression of HNF-4, a transcription factor in the steroid hormone receptor superfamily, is detected only in the visceral endoderm of mouse embryos during gastrulation and is expressed in certain embryonic tissues from 8.5 days of gestation. To examine the role of HNF-4 during embryonic development, we disrupted the gene in embryonic stem cells and found that the homozygous loss of functional HNF-4 protein was an embryonic lethal. Cell death was evident in the embryonic ectoderm at 6.5 days when these cells normally initiate gastrulation. As assessed by expression of Bracbyury and HNF-3P, primitive streak formation and initial differentiation of mesoderm do occur, but with a delay of ~24 hr. Development of embryonic structures is severely impaired. These results demonstrate that the expression of HNF-4 in the visceral endoderm is essential for embryonic ectoderm survival and normal gastrulation.

Changes in state of adenylation and time course of degradation of maternal mRNAs during oocyte maturation and early embryonic development in the mouse

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1988

Developmental Biology

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Expression of transcription factor HNF-4 in the extraembryonic endoderm, gut, and nephrogenic tissue of the developing mouse embryo: HNF-4 is a marker for primary endoderm in the implanting blastocyst.

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et al. 1994

Proc. Natl. Acad. Sci. U.S.A.

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The expression of HNF-4 (hepatocyte nuclear factor 4) mRNA in p mtation mouse embryos was analyzed by in situ hybridization. Expression was found in the primary endoderm at embryonic day 4.5 and was restricted to the lumnar visceral endoderm cells of the yolk sac from day 5.5 to day 8.5. HNF-4 mRNA was first detected in embryonic tissues at day 8.5, in the liver diverticulum and the hindgut. At later times HNF-4 tranipts were observed in the mesonephric tubules, pancreas, stomach, and intestine and, still later, In the metanephric tubules ofthe developing kidney. This expression pattern suggests that HNF-4 has a role in the earliest stages of murine postimplantation development as well as in organogenesis.

The Expression Pattern of the c-kit Ligand in Gonads of Mice Supports a Role for the c-kit Receptor in Oocyte Growth and in Proliferation of Spermatogonia

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et al. 1993

Developmental Biology

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Expression of c-kit encoded at the W locus of mice in developing embryonic germ cells and presumptive melanoblasts

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1991

Developmental Biology

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Gene Expression During Oogenesis and Oocyte Development in Mammals

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1985

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Changes in total RNA, polyadenylated RNA, and actin mRNA during meiotic maturation of mouse oocytes

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et al. 1985

Developmental Biology

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Evolution of predetermined germ cells in vertebrate embryos: implications for macroevolution

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et al. 2003

Evolution and Development

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The germ line is established in animal embryos with the formation of primordial germ cells (PGCs), which give rise to gametes. Therefore, the need to form PGCs can act as a developmental constraint by inhibiting the evolution of embryonic patterning mechanisms that compromise their development. Conversely, events that stabilize the PGCs may liberate these constraints. Two modes of germ cell determination exist in animal embryos: (a) either PGCs are predetermined by the inheritance of germ cell determinants (germ plasm) or (b) PGCs are formed by inducing signals secreted by embryonic tissues (i.e., regulative determination). Surprisingly, among the major extant amphibian lineages, one mechanism is found in urodeles and the other in anurans. In anuran amphibians PGCs are predetermined by germ plasm; in urodele amphibians PGCs are formed by inducing signals. To determine which mechanism is ancestral to the tetrapod lineage and to understand the pattern of inheritance in higher vertebrates, we used a phylogenetic approach to analyze basic morphological processes in both groups and correlated these with mechanisms of germ cell determination. Our results indicate that regulative germ cell determination is a property of embryos retaining ancestral embryological processes, whereas predetermined germ cells are found in embryos with derived morphological traits. These correlations suggest that regulative germ cell formation is an important developmental constraint in vertebrate embryos, acting before the highly conserved pharyngula stage. Moreover, our analysis suggests that germ plasm has evolved independently in several lineages of vertebrate embryos.

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