Core histone N-termini play an essential role in mitotic chromosome condensation.

We have studied the role of core histone tails in the assembly of mitotic chromosomes using Xenopus egg extracts. Incubation of sperm nuclei in the extracts led to the formation of mitotic chromosomes, a process we found to be correlated with phosphorylation of the N-terminal tail of histone H3 at Ser10. When the extracts were supplemented with H1-depleted oligosomes, they were not able to assemble chromosomes.

Developmentally regulated activity of CRM1/XPO1 during early Xenopus embryogenesis.

In this work, we have investigated the role of CRM1/XPO1, a protein involved in specific export of proteins and RNA from the nucleus, in early Xenopus embryogenesis. The cloning of the Xenopus laevis CRM1, XCRM1, revealed remarkable conservation of the protein during evolution (96.7% amino acid identity between Xenopus and human).

Placental teratoma--a case report.

A rare case of a mature placental teratoma in a 32-year-old woman is reported. We discuss the mechanism responsible for the development of this rare tumor in the placenta as well as the differential diagnostic difficulties encountered in fetus acardius amorphus, underlining the clinical significance of the exact diagnosis.

Ultraviolet laser footprinting of histone H1(0)-four-way junction DNA complexes.

We have used a new light footprinting technique to study the interaction of histone H1(0) and a deletion mutant delta CH1(0) (lacking H1(0) COOH-terminal domain) with a synthetic four-way junction DNA. This technique is based on a single 5-ns UV laser pulse and has the ability to map protein-DNA interactions within unperturbed complexes at time scales far faster than molecular rearrangements. We found both H1(0) and delta CH1(0) to affect the photoreactivity of specific guanine residues located on the central part of four-way junction DNA.

Control of the histone-acetyltransferase activity of Tip60 by the HIV-1 transactivator protein, Tat.

Tip60, a cellular histone-acetyltransferase, is known to interact with the HIV-1-encoded transactivator protein, Tat. In this work, we show that the interaction of Tat with Tip60 efficiently inhibits the Tip60 histone-acetyltransferase activity. Besides its histone-acetyltransferase activity, Tip60 can undergo an autoacetylation which is not affected by Tat interaction.

Elasticity measurements show the existence of thin rigid cores inside mitotic chromosomes.

Chromosome condensation is one of the most critical steps during cell division. However, the structure of condensed mitotic chromosomes is poorly understood. In this paper we describe a new approach based on elasticity measurements for studying the structure of in vitro assembled mitotic chromosomes in Xenopus egg extract.

Persistent interactions of core histone tails with nucleosomal DNA following acetylation and transcription factor binding.

In this study, we examined the effect of acetylation of the NH2 tails of core histones on their binding to nucleosomal DNA in the absence or presence of bound transcription factors. To do this, we used a novel UV laser-induced protein-DNA cross-linking technique, combined with immunochemical and molecular biology approaches. Nucleosomes containing one or five GAL4 binding sites were reconstituted with hypoacetylated or hyperacetylated core histones.

The globular domain of histone H1 is sufficient to direct specific gene repression in early Xenopus embryos.

One molecule of a linker histone such as histone H1 is incorporated into every metazoan nucleosome [1]. Histone H1 has three distinct structural domains: the positively charged amino-terminal and carboxy-terminal tails are separated by a globular domain that is similar to the winged-helix motif found in sequence-specific DNA-binding proteins [2]. The globular domain interacts with DNA immediately contiguous to that wrapped around the core histones [3,4], whereas the tail domains are important for the compaction of nucleosomal arrays [5].

Affinity purification of mammalian RNA polymerase I. Identification of an associated kinase.

Overlapping cDNA clones encoding the two largest subunits of rat RNA polymerase I, designated A194 and A127, were isolated from a Reuber hepatoma cDNA library. Analyses of the deduced amino acid sequences revealed that A194 and A127 are the homologues of yeast A190 and A135 and have homology to the beta' and beta subunits of Escherichia coli RNA polymerase I. Antibodies raised against the recombinant A194 and A127 proteins recognized single proteins of approximately 190 and 120 kDa on Western blots of total cellular proteins of mammalian origin.

Fine resolution of histones by two-dimensional polyacrylamide gel electrophoresis: developmental implications.

A two-dimensional electrophoresis for fine separation of histones is described in detail. The method is relatively simple and gives very reproducible results. In the first dimension the histones are separated by their charge in acid-urea gels, while in the second dimension the separation is based on both the charge and the differential affinity of histones to Triton in acid-urea-Triton gels.

Histone acetylation: influence on transcription, nucleosome mobility and positioning, and linker histone-dependent transcriptional repression.

We demonstrate using a dinucleosome template that acetylation of the core histones enhances transcription by RNA polymerase III. This effect is not dependent on an increased mobility of the core histone octamer with respect to DNA sequence. When linker histone is subsequently bound, we find both a reduction in nucleosome mobility and a repression of transcription.

What do linker histones do in chromatin?

Knockout experiments in Tetrahymena show that linker histone H1 is not essential for nuclear assembly or cell viability. These results, together with a series of biochemical and cell biological observations, challenge the existing paradigm that requires linker histones to be a key organizing component of higher-order chromatin structure. The H1 knockouts also reveal a much more subtle role for H1.

UV-laser crosslinking of proteins to DNA.

Photochemical crosslinking is now a powerful method for studying protein-nucleic acid interactions. UV light is a zero-length crosslinking agent that predominantly or exclusively crosslinks proteins to nucleic acids at their contact points. It can therefore provide strong evidence for close protein-nucleic acid interactions.

Main components of voltage-sensitive K+ currents of the human colonic smooth muscle cells.

The aim of the present study is to characterize voltage-sensitive macroscopic K+ current (IK) components in freshly isolated human colonic smooth muscle cells. IK components were studied by the conventional whole-cell voltage clamp method. We found two main components of IK.

[Problems in the diagnosis and treatment of solitary and multiple kidney cysts].

Over the period 1989-1994, thirty-three patients presenting solitary cysts, and 19--polycystosis undergo clinical study. A variety of examination and differential diagnostic methods are used, namely: echography, venous urography, gamma chamber scintigraphy, CAT and biochemical analysis of the cystic fluid. The listed methods contribute greatly to make exact diagnosis and undertake adequate treatment of the patients.

Remodeling somatic nuclei in Xenopus laevis egg extracts: molecular mechanisms for the selective release of histones H1 and H1(0) from chromatin and the acquisition of transcriptional competence.

The molecular mechanisms responsible for the remodeling of entire somatic erythrocyte nuclei in Xenopus laevis egg cytoplasm have been examined. These transitions in chromosomal composition are associated with the capacity to activate new patterns of gene expression and the re-acquisition of replication competence. Somatic linker histone variants H1 and H1 (0) are released from chromatin in egg cytoplasm, whereas the oocyte-specific linker histone B4 and HMG1 are efficiently incorporated into remodeled chromatin.

Histones associated with non-nucleosomal rat ribosomal genes are acetylated while those bound to nucleosome-organized gene copies are not.

Acetylation of histones bound to rat rRNA genes has been studied relative to their organization in chromatin, either as canonical nucleosomes, containing the inactive copies, or as anucleosomal nonrepeating structures, corresponding to the transcribed genes (Conconi, A., Widmer, R. M.

Evidence for a shared structural role for HMG1 and linker histones B4 and H1 in organizing chromatin.

The high mobility group proteins 1 and 2 (HMG1/2) and histone B4 are major components of chromatin within the nuclei assembled during the incubation of Xenopus sperm chromatin in Xenopus egg extract. To investigate their potential structural and functional roles, we have cloned and expressed Xenopus HMG1 and histone B4. Purified histone B4 and HMG1 form stable complexes with nucleosomes including Xenopus 5S DNA.

Nuclear assembly is independent of linker histones.

The role of linker histones in the assembly of functional nuclei was examined with the use of a cell-free extract of Xenopus eggs that transforms condensed sperm chromatin into DNA-replication-competent pronuclei. When linker histones were removed from the extract, the resultant pronuclei were indistinguishable from those formed in the complete extract. The assembly of functional nuclear membrane, nuclear lamina, and prereplication centers allowed identical DNA replication efficiencies.

Histone acetylation influences both gene expression and development of Xenopus laevis.

We examine the potential role of histone hyperacetylation in gene activation during Xenopus development using Trichostatin A, (TSA), a specific inhibitor of histone deacetylase. We find that TSA is very effective in inducing both core histone hyperacetylation and histone H1(0) gene expression in a Xenopus somatic cell line. In contrast, TSA does not induce histone hyperacetylation or histone H1(0) transcription in Xenopus oocytes.

Remodeling sperm chromatin in Xenopus laevis egg extracts: the role of core histone phosphorylation and linker histone B4 in chromatin assembly.

We find that the remodeling of the condensed Xenopus laevis sperm nucleus into the paternal pronucleus in egg extracts is associated with phosphorylation of the core histones H2A, H2A.X and H4, and uptake of a linker histone B4 and a HMG 2 protein. Histone B4 is required for the assembly of chromatosome structures in the pronucleus.