Influence of triethyl lead on neurofilaments in vivo and in vitro.

The influence of triethyl lead chloride (TriEL) on the organization of neurofilaments in vivo was studied by indirect immunofluorescence microscopy employing mouse neuroblastoma cells (Neuro-2a). TriEL induces perinuclear coil formation of neurofilaments in those cells. The rearrangements observed are not correlated with significant changes of the microtubular system.

Changes in the organization of non-epithelial intermediate filaments induced by triethyl lead chloride.

The in vivo effect of triethyl lead chloride (TriEL) (10(-6)-10(-8) M) on the organization of non-epithelial intermediate filaments (vimentin and desmin filaments) was studied by indirect immunofluorescence microscopy employing different mammalian cell lines. The in vitro effect of TriEL on filament formation as well as on the structure of preformed filaments was investigated by electron microscopy. TriEL induces perinuclear coil formation of intermediate filaments in SV40-transformed human fibroblasts and baby hamster kidney (BHK21) cells.

Solid-phase iodination: in vitro labeling with 125I of proteins bound to nitrocellulose and substituted Sepharose.

A solid-phase iodination method is described which employs either nitrocellulose paper, phenyl- and octyl-Sepharose beads, or octyl hydroxylapatite as matrices to adsorb proteins. Nitrocellulose lends itself to cases where denaturation of the iodinated proteins due to the use of chaotropic reagents or strong acids for protein elution can be tolerated. On the other hand, substituted Sepharoses, preferably octyl-Sepharose, should be used when preservation of the biological activity of the iodinated protein molecules is required; immunoglobulins and protein A, for instance, could be recovered as functionally active molecules because they were extracted from the hydrophobic matrices under nondenaturing conditions.

Protein transfer from fixed, stained, and dried polyacrylamide gels and immunoblot with protein A-gold.

The method of electrophoretically transferring proteins from fixed and stained polyacrylamide gels onto nitrocellulose paper has been reevaluated. It is shown that the tedious destaining of gels is not necessary because Coomassie brilliant blue, although it binds tenaciously to nitrocellulose paper, does not reduce the transfer efficiency of proteins. However, its presence impairs the visibility of proteins as detected, for instance, by the immunogold technique.

Antibodies to the most tightly bound proteins in eukaryotic DNA. Formation of immuno-complexes with 'nuclear matrix' components.

Chromosomal DNA is associated with polypeptides covalently bound to internal DNA ends. Since these polypeptides can only be released from chromosomal DNA by enzymes or other agents hydrolysing phosphodiester bonds they were termed 'the most tightly bound' (MTB) polypeptides in DNA. Antibodies developed against the MTB polypeptides are shown to form immunocomplexes with major 'nuclear matrix' polypeptides as well as with polypeptides which are still associated with 'nuclear matrix' DNA isolated by means of SDS/proteinase K and phenol.

Phosphodiester bonds between polypeptides and chromosomal DNA.

Polypeptides co-purifying with DNA in alkali are covalently bound to DNA. DNA purified by treatment with alkali, sodium dodecyl sulphate and phenol absorbed 125I under conditions designed to radioiodinate exclusively tyrosine and histidine in peptides. A significant amount of the absorbed 125I remained associated with DNA during treatment with phenol as well as during precipitation with ethanol from neutral and alkaline solutions.

Granules 25-30 nm in diameter: basic constituent of the nuclear matrix, chromosome scaffold, and nuclear envelope.

Rat liver nuclear matrix and similar structures derived from isolated Chironomus polytene chromosomes, nuclear envelopes, and intranuclear bodies of frog late oocytes (the karyospheres) were studied by electron microscopy with platinum shadowing and negative staining. We have shown that the treatment of whole nuclei, nuclear envelopes, polytene chromosomes, or karyospheres with nonionic detergent, high salt, and RNase and DNase followed by dilute alkali or hyaluronidase digestion reveals numerous rather uniform granules 25-30 nm in diameter. With omission of the nucleases the granules appear to be associated with DNA strands mostly organized in loops.

Effect of salt-treatment on manually isolated polytene chromosomes from Chironomus tentans.

A method for the rapid manual isolation of polytene chromosomes and nuclear membranes from salivary glands of Chironomus tentans is presented and the analysis of some of their RNA and protein components before and after treatment with 2 M salt solutions is summarized.--After salt-incubation the chromosomes still display a considerable number of bands which stain with ethidium bromide and which are sensitive to treatment with DNase, RNase, trypsin, and proteinase K, to a lesser extent with pronase and papain. Analysis of the iodinated residual proteins on SDS gels yield three major and two minor bands (MW between 50,000 and 70,000 dalton) which were also shown to be present in interphase chromosomes of Ehrlich ascites cells which had been treated similarly and are also tightly bound constituents of DNA prepared according to Gross-Bellard et al.

RNA polymerase B (or II) in heat induced puffs of Drosophila polytene chromosomes.

Using indirect immunofluorescence visualization techniques we investigated the distribution of RNA polymerase B (or II) and histone H1 at heat shock puff loci in Drosophila melanogaster polytene chromosomes at different times during and after heat shock. After heat treatments of from 5 to 45 min, the heat shock puff displayed intense fluorescence when stained for RNA polymerase B, but relatively little fluorescence when stained for histone H1. Returning heat shocked larvae to room temperature resulted in the appearance of a distinctive pattern of RNA polymerase-associated fluorescence in the heat shock puff at 87C, presumably reflecting events associated with the inactivation and regression of this puff.

Distribution of RNA polymerase on Drosophila polytene chromosomes as studied by indirect immunofluorescence.

Using indirect immunofluorescence visualization techniques we investigated the in situ distribution of RNA polymerase B on Drosophila melanogaster polytene chromosomes. The enzyme was found at many sites distributed throughout the genome in a pattern clearly distinct from that observed for histone H1, but it was especially concentrated in puffs induced by heat shock.