Boveri's research at the Zoological Station Naples: Rediscovery of his original microscope slides at the University of Würzburg.

Eric Davidson once wrote about Theodor Boveri: "From his own researches, and perhaps most important, his generalized interpretations, derive the paradigms that underlie modern inquiries into the genomic basis of embryogenesis" (Davidson, 1985). As luck would have it, the "primary data" of Boveri's experimental work, namely the microscope slides prepared by him and his wife Marcella during several stays at the Zoological Station in Naples (1901/02, 1911/12 and 1914), have survived at the University of Würzburg. More than 600 slides exist and despite their age they are in a surprisingly good condition.

Historical roots of centrosome research: discovery of Boveri's microscope slides in Würzburg.

Boveri's visionary monograph 'Ueber die Natur der Centrosomen' (On the nature of centrosomes) in 1900 was founded primarily on microscopic observations of cleaving eggs of sea urchins and the roundworm parasite Ascaris. As Boveri wrote in the introductory paragraph, his interests were less about morphological aspects of centrosomes, but rather aimed at an understanding of their physiological role during cell division. The remarkable transition from observations of tiny dot-like structures in fixed and sectioned material to a unified theory of centrosome function (which in essence still holds true today) cannot be fully appreciated without examining Boveri's starting material, the histological specimens.

Visualizing protein interactions involved in the formation of the 42S RNP storage particle of Xenopus oocytes.

Background Information: During early phases of Xenopus oogenesis, 5S rRNA and tRNAs are stored in the cytoplasm of young oocytes in the form of a common RNA-protein complex termed the 42S particle. These storage particles comprise two kinds of proteins with different RNA binding specificities. The tRNA-binding protein 42Sp50 belongs to the EF1A (eukaryotic translation elongation factor 1A) family of translation elongation factors, while 42Sp43 is a diverged form of the transcription factor TFIIIA (transcription factor IIIA) and binds 5S rRNA.

p53 localizes to intranucleolar regions distinct from the ribosome production compartments.

The tumor suppressor p53 has been implicated in the regulation of ribosome biogenesis based on its inhibitory effect on RNA polymerase I (pol I)-dependent transcription. Consistent with this, p53 has been described in nucleoli, albeit under specific experimental conditions. Since data on the intranucleolar localization of p53 are controversial, we have analyzed in detail its subnucleolar distribution.

Assembly of nuclear pore complexes mediated by major vault protein.

During interphase growth of eukaryotic cells, nuclear pore complexes (NPCs) are continuously incorporated into the intact nuclear envelope (NE) by mechanisms that are largely unknown. De novo formation of NPCs involves local fusion events between the inner and outer nuclear membrane, formation of a transcisternal membranous channel of defined diameter and the coordinated assembly of hundreds of nucleoporins into the characteristic NPC structure. Here we have used a cell-free system based on Xenopus egg extract, which allows the experimental separation of nuclear-membrane assembly and NPC formation.

Intranucleolar sites of ribosome biogenesis defined by the localization of early binding ribosomal proteins.

Considerable efforts are being undertaken to elucidate the processes of ribosome biogenesis. Although various preribosomal RNP complexes have been isolated and molecularly characterized, the order of ribosomal protein (r-protein) addition to the emerging ribosome subunits is largely unknown. Furthermore, the correlation between the ribosome assembly pathway and the structural organization of the dedicated ribosome factory, the nucleolus, is not well established.

Expression of HMGA2 variants during oogenesis and early embryogenesis of Xenopus laevis.

The high mobility group proteins A2 (HMGA2) have been implicated in the control of cell proliferation and differentiation, in particular during embryogenesis. Here, we used Xenopus laevis to analyze HMGA2 gene expression patterns during oogenesis and early embryogenesis. We found two functional XlHMGA2 isoforms, which we named XlHMGA2alpha and XlHMGA2beta.

The chromatin remodelling complex WSTF-SNF2h interacts with nuclear myosin 1 and has a role in RNA polymerase I transcription.

Nuclear actin and myosin 1 (NM1) are key regulators of gene transcription. Here, we show by biochemical fractionation of nuclear extracts, protein-protein interaction studies and chromatin immunoprecipitation assays that NM1 is part of a multiprotein complex that contains WICH, a chromatin remodelling complex containing WSTF (Williams syndrome transcription factor) and SNF2h. NM1, WSTF and SNF2h were found to be associated with RNA polymerase I (Pol I) and ribosomal RNA genes (rDNA).

Dynamic interaction of HMGA1a proteins with chromatin.

High-mobility-group proteins A1 (HMGA1; previously named HMGI/Y) function as architectural chromatin-binding proteins and are involved in the transcriptional regulation of several genes. We have used cells expressing proteins fused to green fluorescent protein (GFP) and fluorescence recovery after photobleaching (FRAP) to analyze the distribution and dynamics of HMGA1a in vivo. HMGA1-GFP proteins localize preferentially to heterochromatin and remain bound to chromosomes during mitosis.

Developmental role of HMGN proteins in Xenopus laevis.

HMGN proteins are architectural chromatin proteins that reduce the compaction of the chromatin fiber, facilitate access to nucleosomes and modulate replication and transcription processes. Here we demonstrate that in Xenopus laevis, the expression and cellular location of the HMGN proteins are developmentally regulated and that their misexpression leads to gross developmental defects in post-blastula embryos. HMGN transcripts and proteins are present throughout oogenesis; however, the proteins stored in the cytoplasm are not associated with lampbrush chromosomes, and are rapidly degraded when oocytes mature into eggs.

On the formation of amplified nucleoli during early Xenopus oogenesis.

In Xenopus the genes for ribosomal RNA are selectively amplified during the early stages of oogenesis and give rise to over 1000 extrachromosomal nucleoli. These oocyte nucleoli are unique in that they contain very high copy numbers of rRNA genes, are not attached to chromosomes, and lack nonribosomal DNA. How the amplified rRNA genes induce the formation of multiple nucleoli is as yet poorly understood.

Autoantibodies to NOR 90/hUBF: longterm clinical and serological followup in a patient with limited systemic sclerosis suggests an antigen driven immune response.

We describe the clinical and serological followup of a 9-year-old girl with anti-nucleolar organizing region 90/human upstream-binding factor (anti-NOR 90/hUBF) who had features of systemic sclerosis over a period of 17 years, from childhood into adulthood. We review the associations of anti-UBF autoantibodies, and provide evidence that anti-NOR 90/UBF immune response is antigen driven.

A bisexually reproducing all-triploid vertebrate.

Green toads are common in the Palaearctic region, where they have differentiated into several taxa. The toads exist with variable amounts of ploidy, similar to other anuran species or reptiles. In vertebrate biology, the very rare occurrence of triploidy is coupled with infertility or unisexuality, or requires the coexistence of individuals of different ploidy in a reproductive community.

[Development of gametogonia in ektopically transplanted gonads of Triturus].

Homografts of gonads including fat-bodies show fusion of the fat-body with liver tissue. Thus, contact between gonad and liver is only indirect. The differentiation of the gametogonia follows the normal way of development.