Contributions to the cytology of endosperm in some angiosperms-VIII.Chrysanthemum carinatum L.

Cytological studies ofChrysanthemum carinatum have shown that the endosperm was free nuclear in the beginning, but, as the wall formation commenced very early, it was cellular for most of its life. The endosperm, in general, was triploid with 3n=27 chromosomes, but polyploidy (6n) and aneuploidy also occurred in a small number of cells.Although most of the nuclei in the main part of the endosperm were uniform in size and shape, they showed some variation in the haustorial region. The possible cause of this variation has been suggested to be endoduplication.Mitotic aberrations such as bridges, laggards and multipolar divisional stages appear to be the probable causes for the failure of endosperm in some of the immature seeds, resulting in a low seed set.     

The titan mutants of Arabidopsis are disrupted in mitosis and cell cycle control during seed development

We describe in this report a novel class of mutants that should facilitate the identification of genes required for progression through the mitotic cell cycle during seed development in angiosperms. Three non-allelic titan ( ttn ) mutants with related but distinct phenotypes are characterized. The common feature among these mutants is that endosperm nuclei become greatly enlarged and highly polyploid. The mutant embryo is composed of a few giant cells in ttn1 , several small cells in ttn2 , and produces a normal plant in ttn3 . Condensed chromosomes arrested at prophase of mitosis are found in the free nuclear endosperm of ttn1 and ttn2 seeds. Large mitotic figures with excessive numbers of chromosomes are visible in ttn3 endosperm. The ttn1 mutation appears to disrupt cytoskeletal organization because endosperm nuclei fail to migrate to the chalazal end of the seed. How double fertilization leads to the establishment of distinct patterns of mitosis and cytokinesis in the embryo and endosperm is a central question in plant reproductive biology. Molecular isolation of TITAN genes should help to answer this question, as well as related issues concerning cell cycle regulation, chromosome movement and endosperm identity in angiosperms.     

Cytomorphological study of Scutellaria platystegia (Lamiaceae) in Iran

Chromosome number, meiotic behaviour and morphological characters related to habit were studied in 10 populations of Scutellaria platystegia Juz. from S. sect. Lupulinaria native to Iran. All populations are diploid and has the chromosome number 2n = 2x = 22, which is consistent with the proposed base number of x = 11. This taxon displayed regular bivalent pairing and chromosome segregation at meiosis. However, some meiotic abnormalities observed included various degrees of fragmented chromosomes, laggards and bridges in anaphase I to telophase II, precocious division of centromeres in metaphase I or II, asynchronous nucleus and cytomixis. We evaluated and determined the population limits within S. platystegia, employing multivariant statistics. We found a striking association between meiotic behaviour and gross morphology. (© 2013 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Chiral mutagens: Cytogenetic effects on higher plants

The cytogenetic activity of chiral nitrosoalkilureas and their effect on winter soft wheat chromosomes (Triticum aestivum L.) have been investigated. A comparative analysis of the cytogenetic activity of the chiral nitrosoalkilureas—S(+)1-N-nitroso-1-N-methyl-3-N-sec-buthylurea (S(+)NMsBU) and R(−)-1-N-nitroso-1-N-methyl-3-N-sec-buthylurea (R(−)NMsBU)—on higher plants has been performed for the first time. According to the frequency of chromosome aberrations, stereoisomers S(+) are twice more active than stereoisomers R(−). In addition to the typical anaphase aberrations (fragments, bridges, and lagging chromosomes), other numerous mitosis pathologies have been found: C-mitosis, chromosome hyperspiralization and despiralization, unequal chromosome allocation between daughter nuclei, three-pole mitosis, etc. Such pathologies have not been found when treating with nitrosoethylurea and gamma rays.     

Endosperm responses to irradiated pollen in apples

Summary The cytological effects of pollen -irradiation at 50 and 100 krad on both embryo and endosperm development were studied in Malus × domestica. Fruit and seed set were reduced by increasing doses of pollen irradiation, while embryo sacs resulting from the treatments differed in number and morphology of endosperm nuclei and in the presence or absence of an embryo. Nuclear abnormalities, distinguished from normal nuclear behaviour in embryo sacs derived from unirradiated pollen, included enhanced numbers of polyploid restitution nuclei, bridges between nuclei, excluded metaphase chromosome fragments and disrupted mitotic synchrony. Generally, a high dose of pollen irradiation (100 krad) generated an all-or-nothing response in the embryo sac, either creating highly abnormal embryos and/or endosperms which aborted, or showing relatively normal development. Callus produced from excised cellular endosperm differed in average genome size, that derived from 100 krad pollen being smaller than that from unirradiated pollen.     

APOMIXIS IN EUPATORIUM TANACETIFOLIUM (COMPOSITAE)

Cytogenetics and embryological studies of male sterility have been reported for the first time in Eupatorium tanacetifolium Gill, ex H. et A. (Gyptis pinnatifida Cass.). This species produces viable seeds but abnormal pollen that is not shed by the anthers. There are great abnormalities in karyokinesis and cytokinesis in microsporogenesis that result in irregular sporads formed by 5–10 cells of variable size, shape, and chromosome number. There is an irregular distribution of chromosomes, due to absence of regular pairing and disjunction, presence of chromatinic bridges in most of telophases, and to succesive aberrant cytokinesis without formation of cell plate and with variably oriented walls. The two chromatids of each chromosome presumably remain joined until the end of the process. Somatic chromosome number of 2n = 30 is reported for one population of this species, an apomict taxon of probable triploid origin. Embryo-sac ontogeny is of the Antennaria type of diplospory, wherein embryo and endosperm development are parthenogenetic.     

Diploid endosperm formation in Tulipa spp. and identification of a 1:1 maternal-to-paternal genome ratio in endosperms of T. gesneriana L.

Most Liliaceae plants have the tetrasporic Fritillaria-type embryo sac and normally form diploid embryos and pentaploid endosperms derived from a 4:1 maternal-to-paternal genome ratio (4m:1p) after double fertilization. Here we characterize embryo sac and endosperm formation in Tulipa spp. of Liliaceae. Chromosome analysis using seeds derived from 2x × 2x crosses of Tulipa gesneriana (2n = 2x = 24) identified diploid chromosome number in the endosperm. Similarly, flow cytometric analysis confirmed diploid endosperm formation in T. gesneriana, T. fosteriana (2n = 2x = 24) and T. greigii (2n = 2x = 24). To further study the possible mechanism of diploid endosperm formation, we made interploidy crosses of triploid (2n = 3x = 36) × diploid in which aneuploid seeds with various chromosome numbers (2n = 25–36) were produced. Again, flow cytometric analysis confirmed the same ploidy level in both embryos and endosperms at all aneuploidy levels, suggesting that only a single haploid polar nucleus contributes to endosperm formation at fertilization. Histological observation further confirmed the physical separation of two polar nuclei by a large vacuole in the Fritillaria-type embryo sac of T. gesneriana that appeared to prevent the fusion of the two polar nuclei that originated at the micropylar and chalazal ends before fertilization. Taken together, these results indicate that diploid endosperms (1m:1p) are normally formed in Tulipa spp. by fusion of the micropylar polar nucleus (n) and a spermatid (n) but not by normal triple fusion. We also show that tulip endosperm partially overcomes the triploid block mechanism that occurs in interploidy crosses. Based on these observations, the possible role of triple nuclear fusion in double fertilization is discussed.     

Structure and DNA methylation pattern of partially heterochromatinised endosperm nuclei in Gagea lutea (Liliaceae)

Pentaploid endosperm nuclei in certain Gagea species exhibit large masses of sticky and dense chromatin, not observed in somatic nuclei. These heterochromatin masses most probably stem from the triploid chalasal polar nucleus of the embryo sac, thus representing an example of facultative heterochromatinisation in plants. In the present investigation, we studied the nuclei in Gagea lutea (L.) Ker-Gawl. endosperm tissue. The position of the heterochromatin in interphase nuclei was observed by confocal laser scanning microscopy (CLSM) and the DNA methylation status of the euchromatin and heterochromatin was analysed by immunolabelling with an antibody raised against 5-methylcytosine (anti-5-mC). In young endosperms, heterochromatin was relatively dispersed, occupying some peripheral and inner parts of the nuclei. In a later endosperm development, the nuclei became smaller and more pycnotic, and the heterochromatin masses were placed predominantly near the nuclear periphery. The distribution of anti-5-mC labelling on the heterochromatic regions was unequal: some parts appeared hypermethylated while other parts were, like the euchromatin, not labelled. During mitosis, the labelling intensity of all the chromosomes was approximately the same, thus indicating that there are no cytologically detectable methylation differences among the individual sets of chromosomes. However, differences in the anti-5-mC signal intensity along individual chromosomes were observed, resulting in banding patterns with highly positive bands apparently representing constitutive heterochromatic regions. From these results it is obvious that facultative heterochromatinisation, in contrast to constitutive heterochromatinisation, need not be strictly accompanied by a prominent DNA hypermethylation. Received: 24 April 1997 / Accepted: 28 July 1997     

Effects of heavy metal pollution on genetic variation and cytological disturbances in thePinus sylvestris L. population

This isoenzymatic and cytogenetic study has shown significant differences in genetic composition between two groups of Pinus sylvestris trees: tolerant and sensitive to heavy metal pollution. Total and mean numbers of alleles and genotypes per locus were higher in the pollution-sensitive group of trees, but heterozygosity (Ho) was lower in this group. Fixation index (F) indicates that trees tolerant for pollution were in the Hardy-Weinberg equilibrium, while the sensitive group had a significant excess of homozygosity. Cytological analyses demonstrated numerous aberrations of chromosomes in meristematic root tissue of seedlings developed from seeds collected from trees in the polluted area. The aberrations included chromosome bridges and stickiness, laggards, retarded and forward chromosomes, and their fragments. The mitotic index was markedly lower in this group of seedlings, as compared to the control. Both isoenzymatic and cytological analyses showed a significant influence of heavy metal ions on the genetic structure of the Pinus sylvestris population.     

Evaluating cadmium toxicity in the root meristem of <Emphasis Type="Italic">Pisum</Emphasis><Emphasis Type="Italic">sativum</Emphasis> L.

The effect of cadmium (Cd) was studied on root tips of Pisum sativum L. Seeds of P. sativum were treated with a series of concentrations ranging from 0.125, 0.250, 0.500 and 1.000 mM for 6 h. The effect of Cd was analyzed by studying the percentage seed germination, radicle length (RL), mitotic index (MI) and chromosomal aberrations (CAs) in root tip. The results revealed that Cd had significant impeding effect on the root meristem activity of P. sativum at 0.500 and 1.000 mM as noticed by reduction in seed germination percentage and RL compared to control. Furthermore, it also reduced MI in dose-related manner compared to control. Additionally, the variation in the percentage of mitotic abnormalities was observed. The overall percentage of aberrations generally increased with increasing concentrations of Cd. Among these abnormalities laggards, bridges, stickiness, precocious separation and fragments were most common. The obtained results demonstrated that the Cd treatment leads to a significant reduction in MI and increase in CAs. Overall results allow us to suggest that the Cd has clastogenic effect on the crop.     

Chromosome constitution and cell division in in vitro cultures ofZea mays L. endosperm

Summary Cultures of maize (Zea mays L.) endosperm grown in vitro for over 3 years were examined cytologically. Conditions of aneuploidy and polyploidy were noted. Chromosome numbers ranged from 21 to over 200, with 30 to 60 being observed most often. Although a few extra large cells with polyploid nuclei were scattered throughout the smear preparation, a large proportion of the interphase nuclei appeared similar in volume and probably contained a near normal complement of chromosomes. Anaphase bridges were the most commonly observed chromosome aberration. No cell divisions were observed the first 24 hr after transfer. From 2 to 8 days after transfer the proportion of cells in division was relatively constant with a mitotic index of approximately 5.5%. The proportion of cells in division began to decline 8 days after transfer and in the final sample taken after 13 days only 2.6% of the cells were in division. Examples of localized synchrony were observed and mitotic indices for individual cell clumps ranged from 0 to 17%. Authorized for publication on October 16, 1973 as paper number 4552 in the Journal Series of the Pennsylvania State Agricultural Experiment Station.     

Mutagens induced chromosomal damage in <Emphasis Type="Italic">Lablab purpureus</Emphasis> (L.) Sweet var. <Emphasis Type="Italic">typicus</Emphasis>

Cytological analysis with respect to meiotic behaviour is considered to be the one of the most dependable indices to estimate the potency of mutagens and to elucidate the response of various genotypes to a particular mutagen. Seeds of Lablab purpureus (L.) Sweet var. typicus cv. CO(Gb)14 were subjected to different doses/concentrations of gamma rays and EMS. The effects of different mutagenic treatments on meiosis were studied on treated and control plants. Various types of meiotic aberrations such as stickiness, clumping of chromosomes, laggards, ring chromosomes and precocious movements were observed in the mutagenic treatments. As increase in the concentration, the frequency of cells showing chromosomal aberrations shows a linear increase up to a certain level. However, the EMS treatments proved to be more effective in inducing meiotic aberrations as compared to gamma rays.     

A Comparative Cytogenetic Analysis between the Grasshopper Species Chromacris nuptialis and C. speciosa (Romaleidae): Constitutive Heterochromatin Variability and rDNA Sites

The chromosomes of Chromacris nuptialis and C. speciosa were comparatively analyzed using different cytogenetic techniques, in order to determine the level of karyotypic similarities and differences between the species. The results show similarities in chromosome number (2n = 23,X0) and acrocentric morphology. In some C. nuptialis individuals meiotic irregularities were detected involving the L₂ bivalent. This bivalent was delayed and presented anaphasic bridges and other aberrations. Differences in constitutive heterochromatin (CH) patterns and composition were observed through C-banding and fluorochromes staining. Silver nitrate staining revealed a single medium nucleolar organizer regions (NORs) pair, per species. Differences were also observed in NORs location, which was pericentromeric in C. nuptialis and proximal in C. speciosa. FISH using an rDNA probe confirmed the existence of ribosomal sites coinciding with active regions visualized by silver nitrate. The possible implications of the karyotype differences observed between both species are discussed.     

In vitro culture promotes partial autonomous endosperm development in unfertilized ovules of wild-type Arabidopsis thaliana var. Columbia

Partial endosperm development without paternal genome involvement was induced in unpollinated ovaries of wild-type Arabidopsis thaliana cultured in vitro. Unpollinated pistils were cultured on hormone-free Murashige and Skoog (MS) medium with addition of 6% sucrose and supplemented with: benzylaminopurine (BAP; 2 mg l^–1) combined with naphthylacetic acid (NAA; 0.1 mg l^–1), 2,4-dichlorophenoxyacetic acid (2,4-D; explants exposed to 1-h auxin shock 20 or 40 mg l^–1, and transferred to hormone-free MS medium). Initiation of autonomous endosperm (AE) development was induced on all media used in 54 ovules from 39 cultured ovaries (26%), with an average frequency of 1.4 ovules/ovary. The highest frequency of partial endosperm formation occurred on media combining the two growth regulators BAP and NAA (59% of ovaries had ovules with AE), although endosperm development was also induced on hormone-free medium (in 20.5% of ovaries). The number of AE nuclei ranged from 2 to ~50, depending on the day of culture and medium; neither cellularization nor differentiation on specific regions typical for endosperm of wild-type Arabidopsis, were noted. Fertilization independent endosperm most probably originated from the secondary nucleus, but involvement of the polar nuclei could not be excluded, as indicated by nuclear size and structure. In vitro conditions did not influence egg cell proliferation. Gynogenic embryos were observed neither in the ovules with autonomous endosperm nuclei nor in ovules without endosperm induction.     

Intergeneric gene transfer mediated by plant protoplast fusion

Summary In attempts at somatic transfer of plant genomes of reduced size, X-irradiated leaf protoplasts of parsley (Petroselinum hortense, 2n=22) were fused with cell culture protoplasts of a nuclear albino mutant of carrot (Daucus carota, 2n=18). Introduction of genes from the irradiated parsley nuclei into the carrot genome was shown by the correction of the albino defect and by the appearance of parsley isoenzymes in selected green tissues and plants. The cytological studies provided information on significant deviation from the amphidiploid chromosome number. The high frequency of cells with 2n=19, 2n=38 and regeneration of plants with 2n=19 chromosomes can indicate that the elimination of parsley chromosomes is incomplete. A correlation was found between the lethality of selected tissues and differentiated or undifferentiated stages of the cells.     

Contributions to the cytology of endosperm in some angiosperms

Cytological observations on the endosperm ofZephyranthes grandiflora have shown that the endosperm is triploid in general, with 3n=36 chromosomes, but that nuclei of higher polyploidy also occur. Wall formation started at 7 days after pollination and the 9 day old endosperm was completely cellular. Maximum variation in size and shape of nuclei was recorded in the 8 day old endosperm. No, similar variation was observed in the root tip nuclei. Polyploidy by endomitosis, and probably also by fusion of nuclei, together with aneuploidy may be responsible for the nuclear variation in the endosperm. The low seed setting has been attributed to the failure of endosperm resulting from the mitotic irregularities which characterized the collapsing endosperm.     

Nuclear fusions contribute to polyploidization of the gigantic nuclei in the chalazal endosperm of<Emphasis Type="Italic"> Arabidopsis</Emphasis>

Somatic polyploidization is recognized as a means to increase gene expression levels in highly active metabolic cells. The most common mechanisms are endoreplication, endomitosis and cell fusion. In animals and plants the nuclei of multinucleate cells are usually prevented from fusing. Here, we report that the nuclei from the syncytial cyst of the chalazal endosperm of Arabidopsis thaliana (L.) Heynh. are polyploid with some intermediate ploidy levels that cannot be attributed to endoreplication, suggesting nuclear fusion. Analysis of isolated nuclei, together with fluorescent in situ hybridization (FISH), revealed that nuclei from the chalazal endosperm are two or three times bigger than the nuclei from the peripheral endosperm and have a corresponding increase in ploidy. Together with the consistent observation of adjoined nuclei, we propose that nuclear fusion contributes, at least in part, to the process of polyploidization in the chalazal endosperm. Confocal analysis of intact seeds further suggested that free nuclei from the peripheral endosperm get incorporated into the chalazal cyst and likely participate in nuclear fusions.Abbreviations BAC Bacterial artificial chromosome - CZE Chalazal endosperm - DAPI 4,6-Diamino-2-phenylindole - FISH Fluorescent in situ hybridization - NOR Nucleolar organizing region - NCD Nuclear cytoplasmic domain - PEN Peripheral endosperm     

In vitro induction of a trisomic of Agave tequilana Weber var. Azul (Agavaceae) by para-fluorophenylalanine treatment

The effect of para-fluorophenylalanine (PFP) on the production of trisomic plants of Agave tequilana Weber var. Azul produced through somatic embryogenesis was investigated. Normal diploid plants with 2n = 2x = 60 were obtained in the control treatment and with 4 mg L⁻¹ PFP exposure, while use of 8 and 12 mg L⁻¹ PFP led to production of trisomics with 2n = 2x = 61. Normal diploid plants showed a bimodal karyotype with five pairs of large chromosomes and 25 pairs of small chromosomes. Trisomic plants also had a bimodal karyotype with a group of three chromosomes in position five of the chromosome set. More than 13 homologous chromosome pairs exhibited structural changes. Differences in chromosome arm ratio (long arm/short arm) were also found in eight chromosome pairs; all these aberrations in the chromosome complement of trisomic plants were probably caused by inversions, deletions, and/or duplications produced by high concentrations of PFP. The gross chromosome structural changes and the presence of a single extra chromosome could have been induced by the effect of PFP on the mitotic spindle by inducing nondisjunction of sister chromatids, resulting in hyperploids (2n + x) and hypoploids (2n − x). Flow cytometric analysis of nuclear DNA content was performed using nuclei isolated from young leaves of normal and trisomic plants. The 2C DNA content of 8.635 pg (1Cx = 4,223 Mbp of trisomic plants was different (p < 0.001) than that of normal plants (2C DNA = 8.389 pg (1Cx = 4,102 Mbp). The difference in genome size was correlated with the large structural changes in the trisomic plant genomes.