The chromosomes of some lower chordates

The chromosomes of three species of lower chordates were examined using a squash technique on small pieces of testis. Ciona intestinalis, a tunicate of the order Enterogona, has fourteen pairs of minute chromosomes. Styela plicata, a tunicate of the order Pleurogona, has sixteen pairs of chromosomes whose total size is approximately twice that of the Ciona chromosomes and about 10% of that of a typical mammalian complement. The hagfish, Eptatretus stoutii, of the suborder Myxinoidea, order Cyclostomata, has twenty-four pairs of chromosomes and what appear to be one to four small supernumeraries in some animals. The hagfish chromosomes are large, approaching the size of a typical mammalian complement. These size relationships agree in general with a concept of a small ancestral vertebrate genome which evolved into the larger present day genomes through a series of duplications of genetic material.This work was supported in part by Grant No. 247-701 from the San Diego State College Foundation.     

Patterns of replication in the neo-sex chromosomes ofDrosophila nasuta albomicans

Drosophila nasuta albomicans (with 2n = 6), contains a pair of metacentric neo-sex chromosomes. Phylogenetically these are products of centric fusion between ancestral sex (X, Y) chromosomes and an autosome (chromosome 3). The polytene chromosome complement of males with a neo-X- and neo-Y-chromosomes has revealed asynchrony in replication between the two arms of the neo-sex chromosomes. The arm which represents the ancestral X-chromosome is faster replicating than the arm which represents ancestral autosome. The latter arm of the neo-sex chromosome is synchronous with other autosomes of the complement. We conclude that one arm of the neo-X/Y is still mimicking the features of an autosome while the other arm has the features of a classical X/Y-chromosome. This X-autosome translocation differs from the other evolutionary X-autosome translocations known in certain species ofDrosophila.     

Morphology of the pachytene chromosomes ofPennisetum purpureum schumach

The morphology of the pachytene chromosomes ofPennisetum purpureum was studied. On the basis of relative lengths and arm ratios it was possible to identify them individually. They are numbered 1 to 14 in the order of their decreasing lengths and diagnostic characters are given for each chromosome. The first and the fourteenth chromosomes, the longest and the shortest of the complement respectively, are the nucleolus organizing chromosome. In all the fourteen chromosomes the centromeres are flanked by deep staining regions. This feature is common to the two species.P. typhoides andP. purpureum. Seven out of the fourteen chromosomes have terminal knobs in their long arms. This is a feature in which it differs from the other seven chromosome species.Pennisetum typhoides. These knobs, however, are not present uniformly in all populations; material obtained from Ghana did not show these knobs.     

The control of wheat malate dehydrogenase by rye chromosomes

A quantitative analysis of malate dehydrogenase isozymes has been carried out in a hexaploid wheat Triticum aestivum variety Holdfast, a diploid rye Secale cereale variety King II, a series of seven addition lines each having the Holdfast wheat chromosome complement, and also a different homologous pair of King II rye chromosomes. In young shoots of three of these addition lines grown in a defined salts medium lacking sucrose, at least one isozyme activity was elevated. This did not occur in shoots grown in a medium containing 0.5% sucrose or in the Triticale possessing the full wheat and rye chromosomal complements grown in the absence of exogenous sucrose. On the basis of cellular localization and substrate inhibition studies, the particular isozyme activities enhanced by the rye chromosomes were indistinguishable from isozyme activities in Holdfast wheat and dissimilar to all malate dehydrogenase isozyme activities observed in King II rye. These results suggest that three different rye chromosomes produce gene products which can interact with the wheat malate dehydrogenase regulatory system.     

Molecular characterization and chromosomal localization of two families of satellite DNA in Prochilodus lineatus (Pisces,Prochilodontidae), a species with B chromosomes

Prochilodus lineatus, an abundant species in the Mogi-Guaçu river basin, represents a large part of the region's fishing potential. Karyotypic analyses based on classic cytogenetic techniques have revealed the presence of 54 meta-submetacentric type chromosomes, together with the occurrence of small supernumerary chromosomes with intra and interindividual variations. This paper describes the genomic organization of two families of satellite DNA in the P. lineatus genome. The chromosomal localization these two repetitive DNA families through fluorescence in situ hybridization (FISH) demonstrated that the SATH1 satellite DNA family, composed of approximately 900 bp, was located in the pericentromeric region of a group of chromosomes of the standard complement, as well as on all the B chromosomes. The SATH2 satellite family has a monomeric unit of 441 bp and was located in the pericentromeric regions of some chromosomes of the standard complement, but was absent in the B chromosomes. Double FISH analyses showed that these two families participate jointly in the pericentromeric organization of several chromosomes of this species. The data obtained in this study support the hypothesis that the B chromosomes derive from chromosomes of the standard complement, which are carriers of the SATH1 satellite DNA.     

Supernumerary chromosomes in the second outbreeding species of the wheat group

Meiosis was examined in PMC of 138 plants of the outbreeder Triticum speltoides (=Aegilops speltoides) and 175 plants of the closely related T. longissimum (= Ae. longissima), which is a selfer. Nine of the T. speltoides plants, originating fra two of the five Israeli populations under study, contained B chromosomes in addition to the normal complements (2n = 14). No supernumerary chromosomes were found in T. longissimum. — Plants were found carrying 1, 2 or 3 B chromosomes, which seem to be stable among PMC. Their size is 2/3 of the average length of the regular chromosomes, but otherwise they are similar in appearance. Pairing between Bs is common as bivalents and trivalents, but whether this association is ehiasmatic is not clear. There is a slight reduction in chiasma frequency of the regular complement in B-carriers compared to other plants from the same population. — The only other species in the wheat group reported to have B chromosomes in natural populations is also an outbreeder, namely T. tripsacoides (=Ae. mutica). The connection between outbreeding and B chromosomes might be significant.     

Ribosomal DNA is an effective marker of Brassica chromosomes

Simultaneous fluorescence in situ hybridisation with 5S and 25S rDNA probes enables the discrimination of a substantial number of chromosomes of the complement of all diploid and tetraploid Brassica species of the ”U-triangle”, and provides new chromosomal landmarks for the identification of some chromosomes of this genus which were hitherto indistinguishable. Twelve out of 20 chromosomes can be easily identified in diploid Brassica campestris (AA genome), eight out of 16 in Brassica nigra (BB genome), and six out of 18 in Brassica oleracea (CC genome). Furthermore, just two rDNA markers permit 20 out of 36 chromosomes to be distinguished and assigned to either the A or B genomes of the allotetraploid Brassica juncea, and 18 out of 38 chromosomes identified and assigned to the A or C genomes of the allotetraploid Brassica napus. The number of chromosomes bearing rDNA sites in the tetraploids is not in all cases simply the sum of the numbers of sites in their diploid ancestors. This observation is discussed in terms of the phylogeny and variability within the genomes of the species of this group. Received: 13 September 2000 / Accepted: 1 February 2001     

The chromosomes of Puschkinia libanotica during mitosis

The chromosome complement of Puschkinia libanotica is described. In addition to five pairs of A chromosomes plants may possess up to 7 B chromosomes. Part of the long arm of the B chromosome gives rise to a heterochromatic mass in interphase nuclei and this can be seen to be a double structure in G₁ nuclei and a quadruple structure in G₂ nuclei. It is believed that these configurations represent the pre- and post-replication forms of subchromatids in the heterochromatic segment of the B chromosome. Microdensitometry of metaphase chromosomes shows that the segment of the B chromosome that is heterochromatic during interphase has no more DNA per unit volume than any of the euchromatic A chromosomes.     

Differential staining of plant chromosomes with Giemsa

Simple Giemsa staining techniques for revealing banding patterns in somatic chromosomes of plants are described. The value of the methods in the recognition of heterochromatin was demonstrated using five monocotyledonous and two dicotyledonous species. In Trillium grandiflorum the stronger Giemsa stained chromosome segments were shown to be identical with the heterochromatic regions (H-segments) revealed by cold treatment. Preferential staining of H-segments was also observed in chromosomes from three species of Fritillaria and in Scilla sibirica. Under suitable conditions the chromosomes of Vicia faba displayed a characteristic banding pattern and the bands were identified as heterochromatin. The Giemsa techniques proved to be more sensitive than Quinacrine fluorescence in revealing a longitudinal differentiation of the chromosomes of Crepis capillaris, where plants with and without B-chromosomes were examined. Again all chromosome types had their characteristic bands but there was no difference in Giemsa staining properties between the B-chromosomes and those of the standard complement.     

Localization of ribosomal RNA genes on human acrocentric chromosomes

Summary Clonal derivatives of a human heteroploid cell line, with different numbers of acrocentric chromosomes, show different rDNA contents. A linear relationship has been found between the rDNA content and the relative mass of the acrocentric chromosomes (D+G) expressed as the ratio between the mass of their DNA and the mass of the DNA of the whole chromosomal complement. The results suggest that human rRNA genes are located exclusively on the chromosomes of the groups D and G and that all these chromosomes contain rRNA genes.     

Studies on the chromosomes of genusNycticebus

The karyotypes of three species (N. coucang, N. intermedius, andN. pygmaeus) of genusNycticebus, collected from the southern Yunnan of China, have been studied. All individuals from three species possess 2n=50 chromosomes, and all chromosomes in their complement are biarm chromosomes. The karyotype of slow loris (N. coucang) is characterized by having a secondary constriction and Ag-NORs in the short arms of pair No. 1. The G-banding patterns of three species are very similar. Three species are found to have multiple Ag-NORs. InN. coucang, NORs were observed on five pairs (Nos. 1, 6, 9, 15, and 23) and inN. intermedius andN. pygmaeus, NORs were found on four pairs (Nos. 6, 9, 15, and 20). This finding indicates that slow lorises, as primitive primates, also have multiple NOR-bearing chromosomes. Finally, the classification of genusNycticebus by karyotype analysis is discussed, and our results suggest that there are at least two valid species, namely:N. coucang andN. pygmaeus.     

Heterochromatic banding patterns in the chromosomes ofBrimeura (Liliaceae)

The two species of the genusBrimeura (Liliaceae),B. amethystina andB. fastigiata, show a strikingly disjunct geographical distribution. Both species have a bimodal chromosome complement, 2n = 28, which includes 10 large (L) and 18 small (S) chromosomes. Most of the L-chromosomes possess heterochromatic segments which show enhanced quinacrine fluorescence. The resulting banding patterns are species-specific. Two triploid plants have been found inB. fastigiata.     

Ultrastructure and division behaviour of dinoflagellate chromosomes

Chromosomes of Prorocentrum triestinum and P. micans have similar substructural and morphometrical values as revealed by electron microscopy of thin sections. However, differences were found between the species in mean length, volume and numerical density of chromosomes, and the volume of the chromosome complement, the nuclear volume and the chromosome number. When examined by a whole-mount procedure both Prorocentrum species have left-handed screw-like chromosomes which end in differentiated telomeres. The chromosomes divide sequentially from one telomere towards the other, presenting a Y and finally a V configuration. At the region where each chromosome divides nascent sister chromatids are connected by two bridges. Sister chromatids have similar quantitative values when compared with each other and with the still undivided chromosome, which suggests that both replication and division take place as coupled events.Supported by CAICYT, grant 2409/83     

The classification of the chromosomes of rye (Secale cereale L.): A translocation tester set

The difficulties encountered in classifying the seven chromosomes of rye (Secale cereale L.) are discussed. Unequivocal classification is possible only with a standard testing system such as a translocation tester set. In the present paper a set is described which contains seven reciprocal translocations. Each chromosome participates at least once. The translocated chromosomes can be visually recognized. The size of the chromosome arms was measured and is expressed as % of the total complement length. Which chromosomes were involved in the translocations was studied by using a special graphic method based on the arm ratios of the mitotic chromosomes, and also by intercrossing followed by an analysis of the meiotic cofigurations in the F₁'s.     

The pachytene chromosomes of Ipomoea crassicaulis

Summary The detailed morphology of the pachytene chromosomes and microsporogenesis have been studied in a diploid (2 n=30) American species, Ipomoea crassicaulis (Bth) B. L. Robinson. Idiogram of the pachytene chromosomes is presented and taking advantage of the extreme precision that pachytene analysis can lend, karyological characteristics of the haploid complement have been worked out in detail and individual chromosomes are identified. The course of meiosis was normal and over ninety five percent of pollen were found stainable. The urgent need for extending similar studies to other taxa in this economically important genus for unravelling phyletic relationships has been stressed.

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Zusammenfassung Bei der diploiden amerikanischen Ipomoea crassicaulis (Bth) B.L. Robinson (2 n=30) wird die Morphologie der Pachytänchromosomen und die Mikrosporogenese untersucht. Das Idiogramm der Pachytänchromosomen wird aufgestellt und unter Ausnutzung der großen Präzisionsmöglichkeit der Pachytänanalyse werden die charakteristischen Daten des haploiden Chromosomensatzes erarbeitet und alle Chromosomen identifiziert. Die Meiose verläuft normal und liefert zu mehr als 95% guten Pollen. Die Notwendigkeit umfassender ähnlicher Untersuchungen bei anderen taxonomischen Einheiten aus dieser wirtschaftlich wichtigen Gattung zwecks Klärung phylogenetischer Beziehungen wird nachdrücklich hervorgehoben.

     

In situ methylation of insect chromosomes with methylase HpaII

A method of in situ DNA methylation with the prokaryotic methylase HpaII has been developed on fixed mitotic and meiotic chromosomes of the insect species Baetica ustulata. Incorporation of methyl groups into the chromosomal DNA is revealed by autoradiography using a labelled substrate and by its ability to prevent endonuclease digestion. The method allows direct visualization of clusters of methylatable CCGG sites. The distribution of these clusters in the chromosome complement of Baetica shows two separate domains of heterochromatic DNA which differ in their methylation patterns. Each is distributed at equivalent locations in both homologous and nonhomologous chromosomes. The existence of two compartments, one methylated and the other unmethylated, in the heterochromatic DNA could be interpreted as a remnant of the ancestral echinoderm-like pattern of methylation.     

The chromosomes and relationships of Welwitschia mirabilis

Summary W. mirabilis is unique in the plant kingdom by having a very peculiar habit. Its karyotype is very asymmetrical. Two of the chromosomes in the complement are satellited and this coincides with 2 nucleoli in the metabolic nuclei. The longest pair in the complement is nearly 3.25 times longer than the shortest pair. Between the two extremes there is a gradual transition in size in the karyotype. Such a karyotype has no relation (quantitative or qualitative) with those in Ephedra and Gnetum. Arguments have been advanced against interrelating Ephedra and Welwitschia through hermaphrodite flowers. Such flowers appear to be due to the sex polymorphism ensuing as the result of tetraploidy (in originally diploid-dioecious species) and do not represent therefore the ancestral condition. Only after these abnormalities are discovered in diploids they will represent atavistic mutations and then alone phyletic reliance can be placed in them. In view of the strong morphological differences the few resemblances between the three genera are possibly due to parallel evolution, because many of these are also found in other gymnosperms. The best arrangement is to treat the three genera as belonging to three distinct orders under one class.     

C banding in polytene chromosomes of Simulium ornatipes and S. melatum (Diptera: Simuliidae)

Polytene and mitotic chromosomes of Simulium ornatipes and S. melatum were subjected to C banding procedures. In both species polytene chromosomes consistently show C banding of centromere regions, telomeres, nucleolar organiser and, unexpectedly, numerous interstitial sites. The interstitial C banding sites correspond to morphologically single polytene bands. Their response is graded and independent of band size. Interstitial C bands in S. ornatipes are scattered throughout the complement, whereas in S. melatum they are clustered. Supernumerary heterochromatic segments in S. ornatipes also exhibit strong C banding and inverted segments can differ from standard in C banding pattern. — Mitotic chromosomes of both species show a single centric C band with indications of two weak interstitial bands in S. ornatipes, suggesting that many C band regions, detectable in polytene chromosomes, are not resolved by present techniques in mitotic chromosomes. — Contrary to current opinion that C banding is diagnostic for constitutive heterochromatin, the interstitial C band sites of polytene chromosomes are regarded as euchromatic. Conversely, the heterochromatic pericentric regions of S. ornatipes are not C banded. — It appears that polytene chromosomes offer a promising system for the elucidation of C banding mechanisms.     

An efficient screening for terminal deletions and translocations of barley chromosomes added to common wheat

As a prerequisite to determine physical gene distances in barley chromosomes by deletion mapping, a reliable, fast and inexpensive approach was developed to detect terminal deletions and translocations in individual barley chromosomes added to the chromosome complement of common wheat. A refined fluorescence in situ hybridization (FISH) technique subsequent to N-banding made it possible to detect subtelomeric repeat sequences (HvT01) on all 14 chromosome arms of barley. Some chromosome arms could be distinguished individually based on the number of FISH signals or the intensity of terminal FISH signals. This allowed the detection and selection of deletions and translocations of barley chromosomes (exemplified by 7H and 4HL), which occurred in the progeny of the wheat lines containing a pair of individual barley chromosomes (or telosomes) and a single so-called gametocidal chromosome (2C) of Aegilops cylindrica. This chromosome is known to cause chromosomal breakage in the gametes in which it is absent. Terminal deletions and translocations in barley chromosomes were easily recognized in metaphase and even in interphase nuclei by a decrease in the number of FISH signals specific to the subtelomeric repeat. These aberrations were verified by genomic in situ hybridization. The same approach can be applied to select deletions and translocations of other barley chromosomes in wheat lines that are monosomic for the Ae. cylindrica chromosome 2C.     

Somatic chromosomes of Bubulcus ibis (L.) (Cattle-Egret): A case of reciprocal translocation

The somatic chromosome complement of Bubulcus ibis consists of six pairs of macrochromosomes, twenty-three pairs of microchromosomes and a pair of sex chromosomes. The Z-chromosome is comparable in size to autosome pairs 3 and 4, from which it is difficult to distinguish, and the W-chromosome is indistinguishable from the larger microchromosomes. The chromosome complement of one individual was found to deviate from the normal because of structural heterozygosity involving a member of chromosome pair 1 and a microchromosome.