Homologous somatic association in radial metaphases of Crepis species

The chromosome arrangement in radial metaphases has been analyzed in root tips of Crepis capillaris (2n=6), C. taraxicifolia (2n=8) and C. rubra (2n=10) by using two statistical approaches: 1) measuring the distances between both members of each pair of homologues as the number of intervening chromosomes on the equatorial ring, and 2) applying a new statistical approach developed by Lacadena et al. (1977) which permits to analyze homologous somatic association considering as a whole the n chromosome pairs of the complement. The occurrence of somatic association of homologous chromosomes is clearly demonstrated with both approaches. Previous results obtained by other authors in different materials and with different statistical methods are discussed. The karyotypes of C. taraxifolia and C. rubra are described with numerical data.     

Somatic association of chromosomes in asynaptic genotypes of Avena sativa L.

The distribution of distances between homologous chromosomes in root tip cells of Avena sativa was studied in synaptic and asynaptic genotypes. The distances between homologous chromosomes were smaller than that calculated for two randomly distributed chromosomes, while non-homologous chromosomes did not deviate from the random theoretical distribution. The distances between homologous chromosomes in the asynaptic genotype were significantly greater than in synaptic plants. The loose association of homologous chromosomes in somatic tissue is correlated with the failure of chromosome pairing at meiosis in asynaptic plants.     

Somatic association of telocentric chromosomes carrying homologous centromeres in common wheat

Summary Measurements of distances between telocentric chromosomes, either homologous or representing the opposite arms of a metacentric chromosome (complementary telocentrics), were made at metaphase in root tip cells of common wheat carrying two homologous pairs of complementary telocentrics of chromosome 1 B or 6 B (double ditelosomic 1 B or 6 B). The aim was to elucidate the relative locations of the telocentric chromosomes within the cell. The data obtained strongly suggest that all four telocentrics of chromosome 1 B or 6 B are spacially and simultaneously co-associated. In plants carrying two complementary (6 B ^S and 6 B ^L) and a non-related (5 B ^L) telocentric, only the complementary chromosomes were found to be somatically associated. It is thought, therefore, that the somatic association of chromosomes may involve more than two chromosomes in the same association and, since complementary telocentrics are as much associated as homologous, that the homology between centromeres (probably the only homologous region that exists between complementary telocentrics) is a very important condition for somatic association of chromosomes. The spacial arrangement of chromosomes was studied at anaphase and prophase and the polar orientation of chromosomes at prophase was found to resemble anaphase orientation. This was taken as good evidence for the maintenance of the chromosome arrangement — the Rabl orientation — and of the peripheral location of the centromere and its association with the nuclear membrane. Within this general arrangement homologous telocentric chromosomes were frequently seen to have their centromeres associated or directed towards each other. The role of the centromere in somatic association as a spindle fibre attachment and chromosome binder is discussed. It is suggested that for non-homologous chromosomes to become associated in root tips, the only requirement needed should be the homology of centromeres such as exists between complementary telocentrics, or, as a possible alternative, common repeated sequences of DNA molecules around the centromere region.Dedicated to Professor Dr. Marcus M. Rhoades on his 70th birthday.     

An ordered arrangement of chromosomes in the somatic nucleus of common wheat Triticum aestivum L.

Spatial relationships between chromosomes of the same genome, both homologous and non-homologous, were studied in root-tip cells of common wheat, Triticum aestivum (2n = 6x = 42). Mean distance between members of all the 21 homologous pairs (seven in each of the three genomes) and of 45 out of the 63 possible non-homologous combinations of two (21 in each genome) were determined. To minimize disruption of nuclear chromosomal arrangement, the cells were pretreated with cold temperature either in tap water or in a physiological medium (White solution) and distances between cytologically marked chromosomes were measured at metaphase. Comparison of distances for homologues with those for non-homologues indicated clearly that, within each genome, the homologous chromosomes were significantly closer to one another than were the non-homologues. Distances between homologues were similar in all three genomes, as were distances between non-homologues. The data are consistent with the hypothesis that the chromosomes of each genome of common wheat are arranged in the somatic nucleus in a highly specific ordered pattern. In this hypothetical arrangement, homologous chromosomes are closely associated, while the nonhomologues occupy definite positions with respect to one another. The universality of the phenomenon and its cellular mechanism and biological significance are discussed.     

Satellite association of the nucleolar chromosomes in a plant

Summary A method for preparing chromosomes that included enzyme maceration and subsequent flame-drying allowed us to easily detect satellite association in the mitotic cells ofNothoscordum fragrans (2 n=19), which has six acrocentric nucleolar chromosomes in its chromosome complement. Of 593 metaphase plates examined, approximately 60% had satellite association. The number of chromosomes involved in the association varied from two to six, and the incidence decreased as the number of chromosomes involved in the association increased. Comparison of the same chromosomes stained with Giemsa and subsequently with silver demonstrated that the nucleolar organizing regions (NORs) that responded almost negatively to Giemsa and positively to silver was responsible for satellite association. The nucleoli may strongly correlate with satellite association since persistent nucleoli associated with a few metaphase chromosomes were sometimes found and the nucleoli had a strong tendency to fuse with each other at interphase. Four types of acrocentric chromosomes could be discriminated on the basis of the bands negatively staining with Hoechst. All four types were involved in satellite association and there were significant deviations from the expectation for random participation in the association.     

Evidence against somatic association in hexaploid wheat

In mitotic interphase nuclei, nucleolus-organizing regions of homologous chromosomes lay no closer to each other than nucleolus-organizing regions of non-homologous chromosomes. — Mitotic metaphase studies of distances between satellites and also between telocentrics showed no greater nearness of homologues than of non-homologues. — These studies fail to support the concept of somatic association in hexaploid wheat.     

Studies on pachytene and somatic chromosomes ofPhaseolus mungo L.

The pachytene and somatic chromosomes ofPhaseolus mungo L. (2n=22), were identified and classified on the basis of their relative length, arm ratio, chromomere pattern and nucleolar association. A comparison of the karyotypes during the somatic and pachytene stages, revealed that some chromosomes are of different relative lengths during the two phases. Thus, the two nucleolar organizer chromosomes are the 2nd and 3rd longest at somatic metaphase, but only 7th and 9th longest during pachytene. The pachytene chromosomes belong to the differentiated group.     

Cytology of meiosis in the triploid gynogenetic salamander Ambystoma tremblayi

Female meiosis was analyzed in the triploid gynogenetic salamander Ambystoma tremblayi to determine the mechanism by which a stable chromosome number is maintained in this unisexual species. Gross details of the reproductive cycle and the cytology of meiosis were analyzed in 20 specimens and 320 oocytes involving all stages from early diplotene to the beginning of anaphase II Ovulation apparently continues progressively involving a few oocytes at a time. Oocytes from the ovary contained chromosomes in diplotene, and diakinesis. The first metaphase was not observed since this stage occurs swiftly either immediately prior to or during ovulation. Oocytes in the most anterior region of the oviduct were in metaphase II, and those in the most posterior region were undergoing the beginning of anaphase II. Telophase II was not observed. Chromosome numbers obtained at all stages of prophase gave counts of approximately 42 bivalents, equivalent to the triploid somatic number known for this species. Similar numbers of dyads were obtained from metaphase II plates. This analysis supports earlier evidence suggesting that the triploid number of chromosomes in oocytes of A. tremblayi is doubled prior to meiosis, and the somatic number is later restored by two normal meiotic divisions.     

THE KARYOTYPES OF DIPLOID CESPITOSE ZINNIAS: A METHOD AND ANALYSIS

The karyotypes of the three diploid (n = 10) species of the subg. Diplothrix (Zinnia—Compositae) were compared to determine whether there were any demonstrable differences which could then be sought in their polyploid derivatives. Because many of the chromosomes in a set were too similar to distinguish confidently between them, a method of analysis was developed which measures the similarity of whole sets of chromosomes rather than individual ones. The method consists of measuring the distances between graph-plotted vertices representing arm lengths of chromosomes of real or paper hybrids and then comparing these distances by means of U tests with those similarly derived for the “parents.” This procedure obviates the need of attempting to identify morphologues (morphologically similar chromosomes) in a somatic diploid root-tip cell and to equate corresponding pairs of chromosomes from different cells of a single plant or from different species or hybrids. No demonstrable differences in the karyotypes of diploid cespitose zinnias were found. Analysis of previously published data by this method indicated that there has been a general non-objectivity and non-operationalism in the determination of homologous chromosomes, and a general but unwarranted assumption that morphologues are in reality genologues (genetically corresponding chromosomes).     

Some observations on the mode of division of somatic nuclei of Mucor and Allomyces

Summary A series of successive photographs of the division of the living nucleus in a germinating sporangiospore of Mucor fragilis has been obtained. In this sequence the nucleus is seen to divide directly by elongation and constriction. The nucleolus divides at the same time and in the same way. These observations agree with the finding, first made by Léger (1896) and several times confirmed since then, that the nuclei of Mucorales apparently divide without first arranging their chromosomes in a metaphase plate and without the help of a spindle apparatus.In stained preparations of Mucor chromosomes are not normally visible as separate entities but they can be clearly seen in Feulgen preparations of dividing somatic nuclei of Allomyces arbuscula. In contrast to Mucor the nucleolus of Allomyces is dissolved during division. The chromosomes seem to sort themselves out on their own and form new nucleoli. Metaphase plates and spindles have not been encountered.To Professor Dr. E. G. Pringsheim, teacher and friend, on his 80th bithday.     

The fate of multivalents during meiotic prophase in the hybrid Gibasis consobrina x G. karwinskyana Rafin. (Commelinaceae)

The chromosomes of the two closely related diploid species, Gibasis consobrina and G. karwinskyana (Commelinaceae; 2n=2x=10), are morphologically alike, yet form few chiasmate associations at metaphase I in the f₁ hybrid. During meiotic prophase, however, synaptonemal complexes join the majority of the chromosomes of the complement in complex multiple pairing configurations. The F₁ hybrid between different tetraploid genotypes of the same two species similarly forms multivalents during meiotic prophase, which are subsequently eliminated in favour of strictly homologous bivalents before metaphase I. One quadrivalent comprising interchange chromosomes inherited from one of the parents, usually persists to first metaphase. Evidently the resolution of multivalents to bivalents at first metaphase, which accounts for diploidisation, is not attributable to the elimination of multivalents per se, but of multivalents comprising chromosomes of limited homology.     

The absence of the somatic association of centromeres of homologous chromosomes in grass mitotic metaphases

Root-tip metaphases from Hordeum vulgare (19 cells), H. marinum (11 cells), Aegilops umbellulata (10 cells) and Zea mays (10 cells) were completely reconstructed from electron micrographs of serially sectioned nuclei. The identity of each chromosome was found by measuring the volumes of its two arms and the presence or absence of a secondary constriction at the nucleolar organising region. With the position of the centromere in three dimensions, these data were used to analyse the relative positions of homologous and heterologous centromeres. In 31 out of the 50 cells analysed, homologues were on average further apart than heterologues. Except for two nucleolar organising chromosomes, there was no evidence of any tendency for the distances between different homologue types to be differently distributed from distances between heterologues. Average distances between homologues of the single nucleolar organising chromosome (linkage group 6) of Zea (2n = 20) were lower than the average for heterologues and the interhomologue distances were distributed significantly differently from the separation distances of chromosome 6 to other chromosomes. Presumably this association occurred because of nucleolar fusion in the previous interphase. Homologues of one of the two nucleolar organising chromosomes of A. umbellulata were also distributed significantly differently from heterologues, with a tendency for homologues to lie farther apart than the average heterologous pair. These results do not support previous work using squashed and spread metaphase preparations (some including abnormal, marked chromosomes) for these species.     

Preferential somatic pairing between homologous heterochromatic regions of human chromosomes.

The cytidine analog 5-azacytidine (5-azaC) induces an undercondensation of the heterochromatin in human chromosomes 1, 9, 15, 16, and Y when it is added in low concentrations to the late S-phase of growing lymphocyte cultures. In interphase nuclei, these heterochromatic regions are frequently somatically paired. The somatic pairing configurations are preserved up to metaphase stage in the 5-azaC-treated cultures and are thus susceptible to a direct microscopical examination. The statistical analysis of 1,000 somatic pairing configurations from 5-azaC-treated cells showed that the somatic pairing between the heterochromatic regions of homologous chromosomes is preferred over that between nonhomologous chromosomes.     

中国金色果蝇复合种的染色体研究——Ⅱ.中国及日本金色果蝇复合种的体细胞同源染色体联会

对采自北京、上海等7个地区及来自日本的金色果蝇Ⅰ(Drosophila auraria)和金色果蝇Ⅲ(Orosophila triauraria)的三龄幼虫的脑神经节进行核型分析。发现在其有丝分裂的晚前期、中期阶段,4对同源染色体都在进行联会。联会发生的频率约为34％。XY染色体往往无联会的表现。常染色体联会时,各对染色体的常染色质区紧密靠拢,而着丝粒区则彼此稍有分开。 本文并提出了以每对同源染色体着丝粒距离的“R_d”值作为判断同源染色体联会的数量指标,通过随机取得的119个细胞的476个R_d值的分析,发现同源染色体联会频率与在显微镜下所观察的结果相吻合。 体细胞同源染色体联会,在双翅目昆虫的特殊现象和在真核生物及其他高等动、植物中作为一般现象的遗传进化意义,本文亦作了初步探讨。     

Chromosome doubling inTurnera ulmifolia (Turneraceae) induced by regeneration of plants from in vitro cultured leaf explants

Plants were regenerated from cultured excised leaf segments ofTurnera ulmifolia (2n = 6x = 30). Cytological studies have demonstrated that chromosome doubling occurred in 100% of the regenerated plants. Probably it was produced by endomitosis, induced by excess of auxins in relation to cytokinins. High bivalent and low quadrivalent frequency, and univalents to octovalents were observed in metaphase I; lagging chromosomes were also found. Probably, the presence of multivalents may be due to the pairing among homoeologous chromosomes because the mother plant is a segmental allohexaploid. The high bivalent frequency may have been caused by preferential pairing of identical chromosomes against the homologous.     

Meiosis-like reduction during somatic embryogenesis of Arabidopsis thaliana

Summary Somatic meiosis-like reduction was observed in some cells of the embryogenic callus of Arabidopsis thaliana. Two types were identified. One type was somatic chromosome reductional grouping, in wich the chromesomes in a cell were separated direetly at either prophase or metaphase. Chromosome reductional grouping happened more frequently in polyploid cells, and the morphology of the chromosomes did not show the role of the spindle fibers. The other type was somatic meiosis which was analogous to the process of gametogenesis, characterized by the pairing and synapsis of homologous chromosomes. The roles of somatic meiosis-like reduction in somatic embryogenesis and somaclonal variations are discussed     

Quantitative studies on the arrangement of human metaphase chromosomes

Summary The spatial relationships between the homologous pairs of chromosomes in the normal human colcemid-treated metaphase plate were tested by two different mathematical approaches: (a) determination of the distances between the centromeres of the homologous chromosomes compared to the mean distance of all centromeres of the mitosis in question; (b) measuring the distances of the different chromosomes from the center of the mitosis.The following results were obtained: (1) The arrangement of human metaphase chromosomes does not follow a normal distribution; the distribution is narrower and taller, probably due to an impairment of free chromosome spreading by the cell membrane. We believe that only in membraneless mitotic cells should the chromosome-spread correspond to a normal distribution under the same preparation conditions. (2) There is a positive correlation between decreasing chromosome size and decreasing mean distance between homologous chromosomes. (3) A close positive correlation exists between increasing chromosome size and increasing distance to the barycenter of the mitosis. (4) There is also a close positive correlation between the distance of homologous chromosome pairs and their distance from the center of the mitosis, i.e., with increasing distance from the center of the mitosis, the distance between the homologous partners increases. (5) The following statistically significant deviations from these rules could be established: (a) The large acrocentric chromosomes are closer associated, as one would expect from their size, probably due to their participation in the nucleolus organization; (b) in the female cell one of the two X chromosomes has an extremely peripheral localization; the X chromosomes are furthest apart of all pairs of homologous chromosomes; (c) the chromosome pairs 6 and 8 are relatively close together in spite of their peripheral position, suggesting a truc close association of the homologus partners; (d) the chromosome pair 18 has a more peripheral position than expected, and a relatively large mean distance between the homologous partners; (e) the chromosome pair 1 has a much more central position and a closer association than is expected from its size.     

Homologous and non-homologous chromosome associations by interchromosomal chromatin connectives in Ornithogalum virens

Based on interchromosomal chromatin connectives, a statistical analysis of homologous and non-homologous chromosome associations was made on mitotic metaphase chromosomes of Ornithogalum virens. The great majority of connectives involve constitutive heterochromatin, and connections between homologous chromosomes are twice as common as would be expected by chance. It is suggested that constitutive heterochromatin with similar DNA is involved in both homologous and non-homologous chromosome associations.     

Constitutive heterochromatin distribution in monocentric and polycentric chromosomes

Monocentric chromosomes of Vicia faba (2n=12) and polycentric chromosomes of Luzula purpurea (2n=6) and L. multiflora (2n=36) were studied by the C-banding technique. C-positive regions exhibited a restricted distribution in V. faba nuclei and were located near the centromeres of the chromosomes. Each chromosome had both a characteristic number and distribution of C-positive regions permitting homologue identification. L. purpurea and L. multiflora C-bands were much more numerous than those of V. faba and were widely distributed throughout both nuclei and chromosomes. Three distinct constitutive heterochromatin distribution patterns were present in L. purpurea metaphase chromosomes permitting homologous chromosome identification. One of three C-band distribution patterns was also evident in L. multiflora chromosomes.