T-DNA-tagged chromosome 12 in donor Lycopersicon esculentum × L. pennellii is retained in asymmetric somatic hybrids with recipient Solanum lycopersicoides

Summary Asymmetric somatic hybrid plants were recovered after fusing irradiated mesophyll protoplasts of donor Lycopersicon esculentum × L. pennellii (EP) interspecific hybrid with callus-derived protoplasts of recipient Solanum lycopersicoides. EP plant A54 had been previously transformed by an agrobacterium vector, and the T-DNA insert mapped to the L. esculentum chromosome 12. The T-DNA insert conferred kanamycin resistance to EP that was subsequently used to select cell fusion products and recover asymmetric hybrid plants that retained tagged chromosome 12. Doses of 50- and 100-Gy irradiation promoted the elimination of only a few donor chromosomes. At 200 Gy, the regenerated plants had ploidy levels higher than tetraploid. However, the T-DNA tagged chromosome 12 was always retained in the asymmetric hybrid plants tested. Likewise, all plants from the 100-Gy series, with the exception of number 160, were mixoploid in the root-tip cells. Such mixoploid asymmetric somatic hybrids could be stabilized by inducing adventitious shoots on leaf strips cultured on shoot regeneration medium containing kanamycin. The asymmetric hybrid plants did not produce viable seed when self-pollinated or backcrossed to tomato or S. lycopersicoides. Present address: Department of Biology, University College of London, Gower Street, London, UK     

The positional control of mitosis and cytokinesis in higher-plant cells

The present work establishes a correlation between cell length and patterns of mitotic microtubular assemblies in Allium cepa L. root meristems. Binucleate cells were formed by a short caffeine treatment which aborted the formation of the phragmoplast during telophase. The largest binucleate cells (about 50 μm in length) behaved as two contiguous mononucleate cells in their next mitosis: they developed two preprophase bands (PPBs), one around each nucleus, where two spindles and two phragmoplasts were subsequently formed. On the other hand, the shortest binucleate cells (about 36 μm in length) formed a single PPB at the site of the aborted phragmoplast and, in the medium-sized cells (about 44 μm) in which the single PPB formed around the nucleus possessing the largest cytoplasmic environment, the two mitotic spindles and the new phragmoplasts moved to, or were assembled in the position of the phragmoplast that had been aborted one cycle earlier. Some rules derive from these observations. First of all, the aborted phragmoplast left a signal for microtubule positioning which was still operative one cycle later, in two-thirds of the bimitoses. Also, that formation of the PPB is dispensable. Moreover, its development does not always predict the future division plane, because of the presence of competing old signals which are stronger than those shed by the PPB in the same mitosis, but which fade away with distance. Finally, the positional signals were reinforced when the ratio of monomeric to fibrillar actin was increased by cytochalasin D during their shedding. When this drug was given simultaneously with caffeine, the frequency of bimitoses which, one cycle later, developed spindles and phragmoplasts in the positions of the old phragmoplast increased. On the other hand, those frequencies dropped in relation to control when the cytochalasin D treatment took place during bimitosis, indicating that at this time the treatment reinforced the signals produced in bimitosis itself. Received: 3 February 1997 / Accepted: 4 June 1997     

The role of irradiation dose and DNA content of somatic hybrid calli in producing asymmetric plants between an interspecific tomato hybrid and eggplant

Highly asymmetric somatic hybrid plants were obtained by PEG/DMSO fusion of gamma-irradiated mesophyll protoplasts of the kanamycin-resistant (KmR⁺) interspecific hybrid Lycopersicon esculentum x L. pennellii (EP) with mesophyll protoplasts of Solanum melongena (eggplant, E). Elimination of the EP chromosomes was obtained by irradiating the donor genome with different doses of gamma rays (100, 250, 500, 750 and 1000 Gy). The selection of somatic hybrid calli was based on kanamycin resistance; EP and E protoplasts did not divide due to the irradiation treatment and sensitivity to kanamycin, respectively. KmR⁺ calli were recovered following all irradiation doses of donor EP protoplasts. The hybrid nature of the recovered calli was confirmed by PCR amplification of the NptII gene, RAPD patterns and Southern hybridizations using potato ribosomal DNA and pTHG2 probes. Ploidy levels of calli confirmed as hybrid were further analyzed by flow cytometry. Such analyses revealed that the vast majority of hybrid calli that did not regenerate shoots were 5–9n polyploids. The three asymmetric somatic hybrid plants obtained were regenerated only from callus with a ploidy level close to 4n, and such calli occurred only when the donor EP had been exposed to 100 Gy. The amount of DNA in somatic hybrid calli, from 100-Gy exposure, was found by dot blot hybridization with the species-specific probe, pTHG2, to be equivalent with 3.1–25.8% of the tomato genome. Thus, DNA contained in 3.8–13.2 average-size tomato chromosomes was present in these hybrid calli. The asymmetric somatic hybrid plants had the eggplant morphology and were regenerated from one hybrid callus that contained an amount of tomato DNA equivalent to 6.29 average-size tomato chromosomes.     

Competitive behaviour of umbilicate lichens – an experimental approach

The lichens Lasallia pustulata and Umbilicaria spodochroa grow in dense monospecific or mixed populations on the coastal cliffs of southern Scandinavia. Attached to the substrate by only a thin central holdfast, their shield-shaped thalli compete for light and space for growth by overlapping each other. Matched pair experiments in the laboratory and field observations of interacting pairs show that different behavioural responses to precipitation tend to result in the margins of U. spodochroa overlapping those of L. pustulata within a few minutes. The behaviour is apparently caused by different capacities for water absorption in the upper and lower cortices of the species. An initial period of repeated encounter caused by thallus expansion and contraction during precipitation will be followed by a period in which U. spodochroa grows to overlap L. pustulata more and more. When the overlapping lichens are wet, flexible and photosynthetically active, the thallus above rests directly on the upper surface of the one below. Very little light is transmitted through thalli of U. spodochroa, and the shaded parts of L. pustulata are retarded in their growth and die off. Received: 29 August 1996 / Accepted: 19 April 1997     

Characterization of chromosome instability in interspecific somatic hybrids obtained by X-ray fusion between potato (Solanum tuberosum L.) and S. brevidens Phil

Summary Asymmetric somatic hybrids between Solanum tuberosum L. and S. brevidens Phil. have been obtained via the fusion of protoplasts from potato leaves and from cell suspension culture of S. brevidens. The wild Solanum species served as donor after irradiation of its protoplasts with a lethal X-ray dose (200 Gy). Selection of the putative hybrids was based on the kanamycin-resistance marker gene previously introduced into the genome of Solanum brevidens by Agrobacterium-mediated gene transfer. Thirteen out of the 45 selected clones exhibited reduced morphogenic potential. The morphological abnormalities of the regenerated plantlets were gradually eliminated during the extended in vitro culture period. Cytological investigations revealed that the number of chromosomes in the cultured S. brevidens cells used as protoplast source ranged between 28–40 instead of the basic 2n=24 value. There was a high degree of aneuploidy in all of the investigated hybrid clones, and at least 12 extra chromosomes were observed in addition to the potato chromosomes (2n=48). Interand intraclonal variation and segregation during vegetative propagation indicated the genetic instability of the hybrids, which can be ascribed to the pre-existing and X-ray irradiation-induced chromosomal abnormalities in the donor S. brevidens cells. The detection of centromeric chromosome fragments and long, poly-constrictional chromosomes in cytological preparations as well as non-parental bands in Southern hybridizations with restriction fragment length polymorphism (RFLP) markers revealed extensive chromosome rearrangements in most of the regenerated clones. On the basis of the limited number of RFLP probes used, preferential loss of S. brevidens specific markers with a non-random elimination pattern could be detected in hybrid regenerants.     

A comparison of the effects of various spindle toxins on metaphase arrest and formation of micronuclei in cell-suspension cultures ofNicotiana plumbaginifolia

The effects of the spindle toxins colchicine, oryzalin and amiprophos-methyl (APM) on metaphase arrest, chromosome scattering, and on the induction and yield of micronuclei were compared in suspension cells ofNicotiana plumbaginifolia (kanamycin-resistant “Doba” line). The inhibition of spindle formation is stronger with oryzalin and APM than with colchicine, which resulted in a more efficient accumulation of meta-phases with well-scattered chromosomes, allowing the isolation of single chromosomes. Further, APM and oryzalin treatments resulted in a higher frequency of micro-nucleated cells and greater yield of micronuclei than after colchicine treatment. The different actions of the chemicals on the functioning of the spindle, development of nuclear membranes around the chromosomes, formation of micronuclei and fusion of micronuclei, resulting in restitution nuclei, are discussed.     

Asymmetric somatic hybrids of Brassica: partial transfer of B. campestris genome into B. oleracea by cell fusion

Summary To examine the possibility of producing asymmetric somatic hybrids of Brassica having a complete genome of one species and a part of the other, we fused inactivated B. oleracea protoplasts with X-irradiated B. campestris protoplasts. The plants obtained were studied with regard to their morphology, isozymes and chromosomes. The morphology of the hybrids was similar to B. oleracea in 9 out of 22 hybrids studied and the rest showed the intermediate phenotype of the parents. Analysis of three isozymes, leucine aminopeptidase, acid phosphatase and esterase indicated that ten hybrids lost B. campestris-specific bands in one or more of the three isozymes examined. The chromosome analysis showed that 90% of the hybrids were aneuploids. In addition, abnormal chromosomes were often found in root tip cells. These results suggested that the hybrids obtained were asymmetric in nature and resulted from elimination of B. campestris chromosomes by X-ray irradiation.     

Meiosis: vive la difference!

The application of molecular and modern cell biological techniques is beginning to show that the classical picture of the meiotic process is an oversimplification. The comparison of different species and analysis of mutants have recently demonstrated that many of the features previously thought to be an integral part of meiosis can be altered in their timing or even entirely dispensed with. In plants, differences in the meiotic pathway have been observed, by using methods for 3-D optical imaging, between the polyploids maize and wheat. The fact that two such closely related species differ may be the result of different mechanisms for dealing with polyploidy or may be species differences, but shows that a detailed understanding of the process in the particular species of interest is necessary.     

p53-Independent Apoptosis and p53-Dependent Block of DNA Rereplication Following Mitotic Spindle Inhibition in Human Cells

We have studied the response of human transformed cells to mitotic spindle inhibition. Two paired cell lines, K562 and its parvovirus-resistant KS derivative clone, respectively nonexpressing and expressing p53, were continuously exposed to nocodazole. Apoptotic cells were observed in both lines, indicating that mitotic spindle impairment induced p53-independent apoptosis. After a transient mitotic delay, both cell lines exited mitosis, as revealed by flow-cytometric determination of MPM2 antigen and cyclin B1 expression, coupled to cytogenetic analysis of sister centromere separation. Both cell lines exited mitosis without chromatid segregation. K562 p53-deficient cells further resumed DNA synthesis, giving rise to cells with a DNA content above 4C, and reentered a polyploid cycle. In contrast, KS cells underwent a subsequent G1 arrest in the tetraploid state. Thus, G1 arrest in tetraploid cells requires p53 function in the rereplication checkpoint which prevents the G1/S transition following aberrant mitosis; in contrast, p53 expression is dispensable for triggering the apoptotic response in the absence of mitotic spindle.     

The maize homologue of the cell cycle checkpoint protein MAD2 reveals kinetochore substructure and contrasting mitotic and meiotic localization patterns

We have identified a maize homologue of yeast MAD2, an essential component in the spindle checkpoint pathway that ensures metaphase is complete before anaphase begins. Combined immunolocalization of MAD2 and a recently cloned maize CENPC homologue indicates that MAD2 localizes to an outer domain of the prometaphase kinetochore. MAD2 staining was primarily observed on mitotic kinetochores that lacked attached microtubules; i.e., at prometaphase or when the microtubules were depolymerized with oryzalin. In contrast, the loss of MAD2 staining in meiosis was not correlated with initial microtubule attachment but was correlated with a measure of tension: the distance between homologous or sister kinetochores (in meiosis I and II, respectively). Further, the tension-sensitive 3F3/2 phosphoepitope colocalized, and was lost concomitantly, with MAD2 staining at the meiotic kinetochore. The mechanism of spindle assembly (discussed here with respect to maize mitosis and meiosis) is likely to affect the relative contributions of attachment and tension. We support the idea that MAD2 is attachment-sensitive and that tension stabilizes microtubule attachments.