Immunological visualization of 5-methylcytosine-rich regions in Indian Muntjac metaphase chromosomes

Regions rich in 5-methylcytosine were localized in male metaphase chromosomes of the Indian muntjac deer (Muntiakus muntjak). Chromosomes were ultraviolet irradiated and subsequently photooxidized in the presence of methylene blue to induce maximum DNA denaturation. Following treatment with anti 5-methylcytosine antibody (anti 5-MeC), regions of antibody binding were visualized by an immunofluorescence or immunopreoxidase staining procedure. All chromosomes showed some level of antibody binding along their length and at centromeric regions, with intense binding evident in the centromere of chromosome 3 and the elongated centromeric "neck" of chromosome 3-X. The Y chromosome displayed low levels of antibody binding. The banding pattern observed with anti 5-MeC is the reverse of that obtained by quinacrine staining.     

Comparison of homologous polytene chromosomes in Phaseolus coccineus embryo suspensor cells: morphological,autoradiographic and cytophotometric analyses

The functional behaviour of unpaired homologous polytene chromosomes (2n=22), was investigated in nuclei of Phaseolus coccineus embryo suspensor cells. Observations were carried out on the morphological level and after ³H-thymidine and ³H-uridine autoradiography. Histone and total protein contents in the chromatin were also investigated. It was shown that corresponding regions of homologous chromosomes may show different functional structures. ³H-thymidine incorporation demonstrated differences between homologues in both DNA synthesis leading to chromosome endoreduplication (polytenization) and DNA amplification (extra DNA synthesis). ³H-uridine autoradiography showed that homologous regions in a given chromosome pair may display three labeling patterns: i) both regions labeled; ii) both regions unlabeled; iii) one region labeled and the other unlabeled. These three states are found to occur in different cells of one and the same embryo suspensor. Differences between homologous chromosome regions were also found in the ratios between DNA and protein contents in their chromatin. These results, which show that the functional activity of homologous chromosomes of the same complement may greatly differ, are discussed in relation to the characteristics of the system investigated.     

The location of 5S RNA genes in lampbrush polytene chromosomes from Drosophila

Drosophila polytene chromosomes were transformed into lampbrush-like structures by exposure to solutions of alkali-urea. In this process, the chromosomes shorten and widen, and the bands (chromomeres) extend laterally into loops leaving a central core between the paired homologues. The expanded polytene chromosomes are very similar in appearance to the true lampbrush chromosomes of amphibian oocytes and to ordinary chromosomes in pachytene. The denaturing effects of alkali-urea were partially counteracted by return of the treated chromosomes to Ringer solution. These observations are interpreted in terms of recent findings on protein backbones in chromosomes, and indicate that chromosomes generally may have very similar basic organization, despite differences due to species, polyteny and degree of condensation. To gain more information on the specific location of a structural gene, ¹²⁵I-labelled low molecular weight (containing 5S RNA) was hybridized in situ to normal and lampbrush-like polytene chromosomes. Autoradiography showed silver grain distribution for 5S RNA consistent with hybridization primarily to the loop regions of the lampbrush chromosomes rather than the core. This provides further indirect evidence that structural genes like 5S RNA may be located on the bands (chromomeres) and not the interbands of normal polytene chromosomes.     

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.     

Modification of the DNA content in translocated regions of Drosophila polytene chromosomes

The DNA content of translocated polytene chromosome regions in Drosophila melanogaster is affected by heterochromatic position effect. Microdensitometric studies on w ^m258-21 translocation heterozygotes showed (Hartmann-Goldstein and Cowell, 1976; Cowell and Hartmann Goldstein, 1980) that band region 3D1-E2, adjacent to the breakpoint, contained less DNA than the homologous non-translocated region whereas the neighbouring 3C1-10 region contained more DNA than its non-translocated counterpart. In the nuclei selected for measurement the translocated X chromosome was morphologically euchromatic, but both regions undergo heterochromatisation in other nuclei within the same salivary gland. To explore the relationship between changes in DNA content and heterochromatisation, the effect on DNA content of two known modifiers of heterochromatisation has now been studied. Larvae cultured at 15° C, which exhibit more heterochromatisation than those grown at 25° C, have the same relative DNA contents as at the higher temperature. The addition of a Y chromosome markedly reduced heterochromatisation; in XXY larvae there was no difference between the DNA contents of translocated and non-translocated 3D1-E2 regions, and in region 3C1-10 the percentage excess of DNA in the translocated homologue was approximately double that found in XX larvae. The relationship between replication behaviour and compaction suggested by these results is discussed.     

Immunological identification of a chromocenter-associated protein in polytene chromosomes of Drosophila

An antiserum directed against a non-histone chromosomal protein was found to stain preferentially the heterochromatic chromocenter of the polytene chromosomes of the salivary glands of several Drosophila species. The highly condensed α-heterochromatin stained most prominently. The chromocenter-associated antigen probably consists of a single polypeptide of molecular weight of 38000. This protein may play a role in the specific chromatin condensation of this chromosomal region.     

Identification of left-handed Z-DNA by indirect immunofluorescence in polytene chromosomes of Chironomus thummi thummi

In this work, antibodies against Z-DNA were used to stain polytene chromosomes of Chironomus thummi thummi. By indirect immunofluorescence we report the first identification of left-handed conformation of DNA in a band region. The Chironomus pattern also contrasts with the general staining observed in Drosophila. In Chironomus the antibodies to Z-DNA bind to one interband region of the chromosome II and two bands regions of the chromosome IV.     

Salicyloylaspartate as an endogenous component in the leaves of Phaseolus vulgaris

An amide conjugate of o-methoxybenzoic acid and aspartic acid has been isolated from bean leaves. After extraction and methylation of plant material, this compound was isolated as two isomeric monoethyl monomethyl esters. The ethylation of the aspartyl carboxyl groups was shown to be a likely result of an extraction procedure utilising acidified ethanol, the methylation of the aromatic hydroxy of the methoxy group to be due to the derivatisation procedure. Studies with pentafluorobenzylation confirmed that the endogenous compound is o-hydroxybenzoylaspartate.     

Activity banding of human chromosomes as shown by histone acetylation

The expression of genes in mammalian cells depends on many factors including position in the cell cycle, stage of differentiation, age, and environmental influences. As different groups of genes are expressed, their packaging within chromatin changes and may be detected at the chromsomal level. The organization of DNA within a chromosome is determined to a large extent by the positively charged, highly conserved histones. Histone subtypes and the reversible chemical modifications of histones have been associated with gene activity. Active or potentially active genes have been associated with hyperacetylated histones and inactive genes with nonacetylated histones. Sodium butyrate increases the acetylation levels of histones in cell cultures and acts as both an inducer of gene activity and as a cell-cycle block. We describe a method to label the interphase distribution of DNA associated with various histone acetylation stages on chromosomes. Nucleosomes from untreated and butyrate-treated HeLa cells were fractionated by their acetylation level and the associated DNA labeled, and hybridized to normal human chromosomes. In the sodium butyrate-treated cells the resulting banding patterns of the high- and low-acetylated fractions were strikingly different. DNA from low-acetylated chromatin labeled several pericentric regions, whereas hybridization with DNA from highly acetylated chromatin resulted in a pattern similar to inverse G-bands on many chromsomes. The results from noninduced cells at both high and low acetylation levels were noticeably different from their induced counterparts. The capture and hybridization of DNA from interphase chromatin at different acetylation states provides a “snap-shot” of the distribution of gene activity on chromosomes at the time of cell harvest. Edited by: P.B. Moens     

Species relationships in Bulnesia as shown by seed protein electrophoresis

The seed proteins of seven species of Bulnesia were studied by polyacrylamide electrophoresis. Some of the bands are characteristic and constant “markers” of each species; these allow the unequivocal identification of their electrophoregrams. In total 84 different bands were identified. These were treated numerically by cluster analysis. There were no constant differences between geographic races of B. arborea from Colombia and Venezuela. The electrophoregram of B. carrapo shows differences with that of B. arborea giving support to the idea that both taxa are separate allopatric species. The species pair B. foliosa-B. schickendantzii present the most similar electrophoregrams; this determines a short taxonomic distance between them in the phenogram. The Prim network shows the supposedly more primitive species (B. arborea, B. carrapo and B. bonariensis) well separated from the more advanced group (B. schickendantzii, B. foliosa and B. retama). B. sarmientoi, however, appears as rather distant and unrelated from all other taxa. In general, the results from protein electrophoresis agree with results from a previous numerical study based on 43 morphological characters.     

Correspondence of silver banding with rRNA hybridization sites in polytene chromosomes of Rhynchosciara hollaenderi

The ammonical silver banding technique has been used to stain the polytene chromosomes of Rhynchosciara hollaenderi. The initial regions to stain black with this technique are regions which hybridize with rRNA. The pattern of silver staining in the NOR of the X-chromosome corresponds closely with the regional clumping of grains observed after in situ hybridization with rRNA. This region of the X-chromosome is much more active than any other rRNA hybridizing region in the formation of nucleoli and is also Ag-banded more frequently. This implies that regions most active in rRNA production may preferentially Ag-band. The use of this technique to study the production of nucleoli and micronucleoli in sciarid polytene chromosomes is discussed as are the potential contributions of these chromosomes to arriving at a better understanding of the mechanisms of silver banding.     

Duplications in the polytene chromosomes of Drosophila auraria

A study of the salivary gland chromosomes of two strains of Drosophila auraria has revealed a suprisingly high number of inverted tandem duplications and one triplication. The possible origin and significance of these are discussed.     

Extent of polyteny in the pericentric heterochromatin of polytene chromosomes of pseudonurse cells of otu (ovarian tumor) mutants of Drosophila melanogaster

In the polytene nuclei of germ-line cells (ovarian pseudonurse cells) of Drosophila melanogaster females mutant for otu ¹¹ (ovarian tumor), the pericentric heterochromatin is much more abundant than in somatic salivary gland cells. This is due to the degree of heterochromatin compaction (and consequently the level of underreplication) being lower in the nurse cells than in the salivary gland cells. The lower level of compaction probably results in a very low degree of position effect gene inactivation in the ovarian nurse cells.