A chromosome rearrangement in Neurospora that produces segmental aneuploid progeny containing only part of the nucleolus organizer

In translocation T(ILVL)OY321 of Neurospora crassa a distal portion of the nucleolus organizer chromosome, including ribosomal DNA sequences and the nucleolus satellite, is interchanged with a long terminal segment of IL. When OY321 is crossed by Normal sequence, one-fourth of the meiotic products are segmental aneuploids that contain two copies of the long IL segment and that are deficient for the distal portion of the organizer. Each such product forms a nucleolus and is viable. The complementary aneuploid products are deficient for the IL segment and are therefore inviable. — In crosses of OY321xOY321, each product is capable of making two nucleoli; nucleoli formed by the separated nucleolus organizer parts usually fuse, but most 8-spored asci contain some nuclei in which two separate nucleoli can be seen. One nucleolus is then terminal on its chromosome while the second is interstitial and somewhat smaller. — In crosses of OY321 x Normal, half of the meiotic products are capable of making two nucleoli. However, only about 15% of 8-spored asci have one or more nuclei containing separate nucleoli. At pachytene and later in prophase I, the single fusion nucleolus is associated with three bivalent chromosome segments. Each nucleus of every ascus contains at least one nucleolus, even in asci where some nuclei display two nucleoli. — Crosses of Aneuploid x Normal are usually semibarren, producing a reduced number of ascospores, some of which are inviable. Some aneuploid cultures become fully fertile by reverting to a quasinormal sequence lacking a satellite. In some crosses of Aneuploid x Normal, individual asci may show at prophase I either complete loss, partial loss, or pycnosis of the translocated IL segment. This observation of pycnosis suggests chromosome inactivation. — Growth from aneuploid ascospores is initially slow, but can accelerate to the wild-type rate.     

Ribosomal genes not integrated into chromosomal DNA in Drosophila melanogaster

DNA obtained by a gentle lysis procedure from adult Drosophila melanogaster was analyzed by sucrose gradient sedimentation. The major portion of the DNA has an estimated weight of at least 5–10×10⁹ daltons. All of the ribosomal genes are present in this high molecular weight DNA in adult males with one nucleolus organizer or in adult females with two nucleolus organizers as shown by hybridizing fractions of the gradient with ribosomal RNA. In female adults with one nucleolus organizer instead of the usual two, 68% of the ribosomal genes are found in high molecular weight DNA and 32% are found in DNA of smaller size (3×10⁸ daltons). We propose that these latter genes are not integrated into the DNA of the chromosome.     

Actinomycin D effects on mitosis and chromosomes: sticky chromatids and localized lesions

When Indian muntjac and Chinese hamster cells in culture were treated with Actinomycin D (1 g/ml) for 1–2 hours, the sister chromatids, especially the distal segments, appeared to have difficulty separating in anaphase. The separated proximal segments progressively became stretched. The nucleolus organizer regions seemed to be most susceptible to stretching, and breaks in these regions were frequently observed. Electron microscopic observations showed that the sticky chromatids (and less frequently sticky chromosomes) contain connecting submicroscopic chromosome strands. When the treated cells were allowed to grow in a drug-free medium for several days, a high frequency of endoreduplicated mitotic figures was found. Chromosome and chromatid breaks and other aberrations were common, mainly localized at G band negative areas particularly nucleolus organizer regions.     

The structure and behavior of the nucleolus organizers in mammalian cells

The regularly occurring secondary constrictions on metaphase chromosomes of mammalian cells prove to be nucleolus organizers as expected. The expression of nucleolus organizers as secondary constrictions, however, varies from cell to cell and from tissue to tissue, including cultivation in vitro. Electron micrographs of the organizer region show that the nucleolus organizer at metaphase is not a constriction. The width of the organizer area is the same as the condensed chromosomal arms; but the filaments, which are the major components of this region, show a diameter of 50–70 Å. The condensed chromosome arms consist of filaments 150–200 Å in diameter. In some mammalian species, structures similar to the nucleolus organizer are located at the end of chromosomes. These may be terminal nucleolus organizers.Supported in part by Research Grants DRG-269 from Damon Runyon Memorial Fund for Cancer Research, E-286 from American Cancer Society, and HD-2590 from National Institutes of Health.     

The genes for ribosomal RNA in diploid and polytene chromosomes of Drosophila melanogaster

The proportion of the Drosophila genome coding for ribosomal RNA was examined in DNA from both diploid and polytene tissues of Drosophila melanogaster by rRNA-DNA hybridization. Measurements were made on larvae with one, two, three and four nucleolus organizer regions per genome. In DNA from diploid tissues the percent rDNA (coding for 28S and 18S ribosomal DNA) was found to be in proportion to the number of nucleolus organizers present. The number of rRNA genes within a nucleolus organizer therefore does not vary in response to changes in the number of nucleolus organizers. On the other hand, in DNA from cells with polytene chromosomes the percent rDNA remained at a level of about 0.1% (two to six times lower than the diploid values), regardless of either the number of nucleolus organizers per genome or whether the nucleolus organizers were carried by the X or Y chromosomes. This independence of polytene rDNA content from the number of nucleolus organizers is presumably due to the autonomous polytenization of this region of the chromosome. When the rDNA content of DNA from whole flies is examined, both the rDNA additivity of the diploid cells and the rDNA independence of polytene cells will affect the results. This is a possible explanation for the relative rDNA increase known to occur in X0 flies, but probably not for the phenomenon of rDNA magnification. — In further studies on DNA from larval diploid tissues, the following findings were made: 1) the Ybb-chromosome carries no rDNA; 2) flies carrying four nucleolus organizers do not tend to lose rDNA, even after eleven generations, and 3) the nucleolus organizer on the wild type Y chromosome may have significantly less rDNA than does that on the corresponding X chromosome.     

An investigation of some problems concerning nucleolus organizers in salamanders

Observed differences in the sizes of lampbrush nucleolus organizers in Plethodon cinereus have been shown by in situ hybridization to reflect true molecular differences in the numbers of ribosomal cistrons located at these organizers. Likewise, from in situ hybridization experiments on lampbrush and spermatocyte chromosomes it has been shown that animals may be, and indeed usually are, heterozygous with respect to the numbers of ribosomal cistrons on each half of the nucleolus bivalent. Filter hybridizations carried out on 33 males from a New Jersey population and 20 males from a Connecticut population have shown a 7.5-fold range in the numbers of ribosomal cistrons per diploid cell in the New Jersey population, and a 2.5-fold range in the Connecticut population. In view of the general heterozygosity of nucleolus organizers in these animals, the actual range in nucleolus organizer sizes in the New Jersey population is estimated to be at least 15-fold.     

Magnification of rRNA gene number in a Neurospora crassa strain with a partial deletion of the nucleolus organizer

Some progeny from crosses between the Neurospora crassa translocation strain T(IL VL)OY321 and normal sequence N. crassa strains are duplication strains with a partial deletion of the nucleolus organizer. Despite the deletion, these progeny are viable and produce a functional nucleolus. Quantification of rRNA gene number in these deletion progeny demonstrated a significant loss of rRNA genes, down to 60% of the parental wild-type level. Initially, all of these reduced nucleolus organizer (RNO) strains demonstrated a reduction in the rate of mycelial elongation in growth tubes. After several vegetative growth cycles some progeny reverted to the normal growth phenotype, and also showed an increase in the number of rRNA genes to approximately that of the wild type.     

Use of enlarged cells and nuclei for studying mitosis inNeurospora

Summary Mitotic division stages studied by light microscopy in differentNeurospora crassa cell types clearly resemble prophase, metaphase, anaphase, and telophase stages of higher eukaryotes. 1. When conidia are cultured in liquid medium containing 3.22 M ethylene glycol, they grow without cell division, forming giant spheres with multiple nuclei. In a few giant cells, nuclear numbers remain small (1 to 3) but the nuclei become very large. Seven large chromosomes are seen in some nuclei suggesting polyteny, 14 or more chromosomes are seen in other, very large nuclei, indicating polyploidy. Cell volume and nuclear volume are positively correlated in giant cells. Nuclear divisions are not synchronous within individual multinucleate giant cells. 2. Nuclear division stages were also observed in crosses heterozygous for the dominant mutant banana where haploid prefusion nuclei in late-forming croziers revert to mitosis. Swollen ascogenous hyphae become highly multinucleate after several rounds of mitosis. Mitosis is completely synchronous in nuclei of the same crozier cyst, providing replicate information for unambiguous identification of division stage. 3. Observations are also reported of mitosis in a cell-wall deficient slime strain. Previous observations on mitosis in large nuclei of the ascus are summarized for comparison. The nucleolus persists throughout mitosis in the giant cells, multinucleate reverted croziers, and in the cell-wall deficient slime strain. It is expelled from the dividing nuclei in the ascus. Spindles and spindle pole bodies, which are normally conspicuous in asci, are also seen in normal and reverted croziers, but they have not been clearly identified in the ethylene glycol-induced giant cells.     

The Location of the nucleolus organizer regions in Drosophila hydei

The positions of the nucleolus organizer regions in metaphase chromosomes of Drosophila hydei were detected by in situ hybridization experiments. In agreement with earlier conclusions the nucleolus of the X chromosome was found to originate in a terminal region of the heterochromatic arm. The Y chromosome contains two nucleolus organizers, one in a terminal position of the long arm, and the other in the short arm. The implications with respect to the evolution of the Y chromosome are discussed.     

Chromosome Rearrangements That Involve the Nucleolus Organizer Region in Neurospora

In ~3% of Neurospora crassa rearrangements, part of a chromosome arm becomes attached to the nucleolus organizer region (NOR) at one end of chromosome 2 (linkage group V). Investigations with one inversion and nine translocations of this type are reported here. They appear genetically to be nonreciprocal and terminal. When a rearrangement is heterozygous, about one-third of viable progeny are segmental aneuploids with the translocated segment present in two copies, one in normal position and one associated with the NOR. Duplications from many of the rearrangements are highly unstable, breaking down by loss of the NOR-attached segment to restore normal chromosome sequence. When most of the rearrangements are homozygous, attenuated strands can be seen extending through the unstained nucleolus at pachytene, joining the translocated distal segment to the remainder of chromosome 2. Although the rearrangements appear genetically to be nonreciprocal, molecular evidence shows that at least several of them are physically reciprocal, with a block of rDNA repeats translocated away from the NOR. Evidence that NOR-associated breakpoints are nonterminal is also provided by intercrosses between pairs of translocations that transfer different-length segments of the same donor-chromosome arm to the NOR.     

A case of trisomy 22 in Pongo pygmaeus.

A behaviorally and clinically abnormal female orangutan was analyzed cytologically using general banding techniques and by an alkaline silver method for staining nucleolus organizer regions. The karyotype had 49 chromosomes, including an extra chromosome 22 (49,XX + 22). No variant chromosome types or heterozygous structural rearrangements were found. Nine of the 14 large acrocentric chromosomes, Nos. 11--17, and three of the five presumptive human G-group equivalents, i.e., two of three chromosomes 22, and one chromosome from pair 23, exhibited positive silver staining of the nucleolus organizer region (NOR).     

Drosophila melanogaster has different ribosomal RNA sequences on S and Y chromosomes.

The primary structures of ribosomal RNAs transcribed from the nucleolus organizers on X and Y chromosomes of Drosophila melanogaster were compared by RNase T₁ fingerprints made with two different systems; i.e. homochromatography on DEAE-cellulose, and polyethyleneimine-cellulose thin-layer chromatography.Ribosomal RNA derived from the X-linked nucleolus organizer was obtained from a strain producing only female larvae and ribosomal RNA derived from the Y-linked nucleolus organizer was isolated from a mutant lacking the X-linked nucleolus organizer.No difference was detected between the fingerprints of 28 S RNA from these animals.In 18 S RNA, however, one oligonucleotide showed a remarkable difference in mobility. The structure of the X-linked organizer-specific oligonucleotide was 5′ U-C-U-U-U-U-U-U-C-C-U-A-U-G 3′, and that of the Y-linked organizer-specific oligonucleotide was 5′ U-C-U-C-U-U-U-U-C-C-U-A-U-G 3′, indicating one base substitution (U á3 C) between them.The absence of 5′-temninal phosphate in this oligonucleotide and available sequence data also suggest that these oligonucleotides did not come from either the 5′ or 3′ terminus of 18 S RNA.D. simulans, whose Y chromosome has no nucleolus organizer (Ritossa &; Atwood, 1966), showed an 18 S RNA fingerprint having only the X-linked organizer-specific oligonucleotide.We conclude from these results that in Drosophila the ribosomal RNA gene sequences are different for the two nucleolus organizers located on the X and Y chromosomes. The implications of those findings concerning the parallel evolution of these genes are discussed.     

Cytoplasmic Male Sterility in Nicotiana, Restoration of Fertility, and the Nucleolus. II. N. DEBNEYI Cytoplasm

Previously, it was shown that a fragment chromosome, apparently derived from the Nicotiana repanda chromosomal complement, restores to normal the morphology and fertility of the abortive and feminized anthers produced by plants that possess the N. tabacum genome in cytoplasm from N. repanda. Furthermore, that restorer chromosome organizes the nucleolus and inhibits the nucleolus-forming activity of the nucleolar organizers of N. tabacum chromosomes present in the same cells, particularly in pollen mother cells. To determine whether these relations are basic or only coincidental, restorer chromosomes for other cytoplasms are now being investigated. The present paper describes a study of a chromosome, presumably derived from N. debneyi, with partial restoring power. Acting in the cytoplasm of N. debneyi, it directs formation of morphologically normal anthers, without, however, restoring pollen fertility. We find that this chromosome also has a functioning nucleolar organizer, but only slightly inhibits the nucleolus-forming capacity of N. tabacum chromosomes. The suggestion of a relationship between the nucleolar apparatus and restoration of normal anthers is thus strengthened by the observation that restorers are found on nucleolus-forming chromosomes from two very distinct Nicotiana species, as well as in several comparable cases cited from the Triticinae. The manner in which the nucleolus, or its organizer, may direct defeminization and restoration of anther morphology is not known; suggestions were offered in the preceding paper in this series (Gerstel, Burns and Burk 1978).     

Differential giemsa staining of kinetochores and nucleolus organizer heterochromatin in mitotic chromosomes of higher plants

Differential Giemsa staining techniques have been used to stain kinetochores and nucleolus organizer heterochromatin in four species of higher plants. Using these techniques it has been possible to follow developmental changes of kinetochores through mitosis. In addition, these same techniques also have allowed the determination of the number and sites of nucleolus organizers in the various chromosome complements studied.     

Differences in the number of nucleolus organizers in Chironomus tepperi shown by in situ hybridization

Two stocks of Chironomus tepperi could be isolated. One stock, N(IV)⁺, contains nucleolus organizers in chromosome I and IV, whereas the other one, N(IV)^–, shows only one nucleolus in chromosome I. It is demonstrated by in situ hybridization with radioactive rRNA that the absence of the nucleolus in chromosome IV of stock N(IV)^– is not related to an inactivation of the nucleolar DNA, as might have been suggested, but is due to the lack of ribosomal cistrons.     

The nucleolar organizer of Plethodon cinereus cinereus (Green)

The lampbrush nucleolar organizers in P. c. cinereus are on the shorter arms of the 7th longest bivalent, near to the centromeres. The organizer consists of a non-chromomeric, Feulgen-negative section of the half bivalent axis inserted between typically chromomeric regions with normal lampbrush loops. The main axis of the organizer may appear double or single. The distributions and lengths of the double regions are variable. The axial strand of the organizer can be broken with DNase. Nucleolus-like objects are attached at irregular intervals along the organizer axis. The attached nucleoli closely resemble the free nucleoli in the same nucleus. Where free and attached nucleoli appear as beaded rings, the general characteristics and range of lengths of the attached rings are similar to those of the free rings. The attached rings occur singly, in pairs, or in clusters. The point of attachment of a ring is sometimes marked by a granule on the organizer axis. Pairs of attached nucleolar rings sometimes form double bridges in which the nucleoli extend linearly across a gap in the organizer axis. The length of the organizer varies from 20 μm to 300 μm, depending, at least in part, on the stage of oocyte development. The difference is a function of the length of the axial strand. Nucleolar organizers similar to that described for P. c. cinereus have been seen on the lampbrush bivalents of 7 other species of Plethodon and 2 species of Eurycea. In all of these, the 2 organizers of the nucleolus bivalents differ in length.     

Regulation of ribosomal RNA cistron number in a strain of Neurospora crassa with a duplication of the nucleolus organizer region

Some progeny from a cross of the translocation mutant T(VL→IVL)AR33 with wild-type Neurospora crassa are double nucleolus organizer (DNO) strains, usually displaying two distinct nucleolus organizer regions. The DNO strain is sterile but displays the same growth response as normal laboratory strains of Neurospora. We used DNA-DNA hybridization techniques to quantify the number of rRNA cistrons in the DNO mutant and its vegetative progeny. Comparisons of the rate of hybridization of genomic DNA from the parental AR33 strain and from the DNO strain showed that hybridization was more rapid for the DNO strain than for the parental strain. Successive vegetative progeny of the DNO strain displayed hybridization rates intermediate to those of the original DNO strain and the parental single nucleolus strain, indicating that the number of rRNA cistrons had decreased during vegetative propagation. Estimates of rRNA cistron number obtained from comparisons of the amount of single copy DNA and rDNA hybridized to genomic DNO and AR33 DNA at saturation indicate that the parental AR33 strain contains 225 copies of the rRNA repeat unit, while the DNO strain has approx. 440 copies. The number of rRNA cistrons decreases gradually in the successive vegetative progeny, approximating the parental haploid value by the eleventh vegetative transfer.     

Amounts of ribosomal DNA inAllium (Liliaceae)

Eight species ofAllium subgen.Allium sect.Allium have been studied at the cytological level by means of karyological analyses and at the biochemical level with regard to the proportions of ribosomal DNA. All the species have a basic genome of x = 8.A. sativum, A. commutatum, A. ampeloprasum, andA. vineale possess approximately 0.050% rDNA and two nucleolus organizer regions per basic chromosome set.A. sphaerocephalon andA. arvense have two nucleolus organizers, andA. amethystinum three nucleolus organizers per haploid (n = x) genome: the three species possess approximately 0.075% rDNA.A. acutiflorum has five nucleolus organizer regions per haploid genome and 0.121% rDNA. An attempt to relate these differences with functional and ecological characteristics indicates that evolutionary variation of rDNA proportions is not casual. Such data also can help to define systematic affinities and circumscribe infrageneric taxa.