Somatic embryogenesis and plant regeneration in Cyphomandra betacea (Cav.) Sendt

Callus cultures with globular proembryogenic structures were induced from zygotic embryos and hypocotyl segments of Cyphomandra betacea on MS medium supplemented with 2,4-D. Proembryogenic structures produced somatic embryos and plantlets on regulator-free basal medium. Pieces of embryogenic callus subcultured on medium with the same original composition gave rise to new globular structures and the potential for plantlet regeneration has been maintained for over a year. The histological examination of these proembryogenic structures suggested that somatic embryos arise from single cells. Regenerated plants are phenotypically normal, having diploid chromosome numbers (2n = 24).     

Chromosomal variation in immature embryo derived calluses of barley (Hordeum vulgare L.)

Summary Chromosome counts of ten morphogenic and seven non-morphogenic immature embryo derived calluses of barley,Hordeum vulgare L. cv. Himalaya, were determined. Morphogenic calluses carried the normal chromosome complement (2n=2x=14) in a majority of the cells. A low frequency of haploid (2n=x=7), triploid (2n=3x=21), tetraploid (2n=4x=28) and octoploid (2n=8x=56) cells were also observed. In contrast, non-regenerability of a callus was attributed to the cells having numerical and structural chromosomal changes. In these calluses, aneuploid cells around diploid, triploid, and tetraploid chromosome numbers predominated. It has been demonstrated that chromosomal changes were induced during the culture and that they did not pre-exist in the cultured barley embryos. Based on this study, it is suggested that chromosome analysis of a non-regenerable callus should be conducted before altering the media composition.     

Cytogenetic studies of Haplopappus gracilis in both callus and suspension cell cultures

Summary Investigations have been carried out on karyotype change in both callus and suspension cell cultures of Haplopappus gracilis (2n=4). It has been found that polyploidization arises directly in culture to give up to six times the normal diploid chromosome number in some cultures. In polyploid cultures, both chromosome loss and chromosome rearrangements occur to give rise to aneuploid karyotypes displaying chromosomes which differ in morphology from the diploid set. Whole or partial chromosome loss has been observed in the form of lagging chromosomes and chromosome bridges at anaphase, and micronuclei, ring chromosomes and chromosome fragments at other stages in mitosis. C-banded preparations have confirmed the occurrence of chromosomal rearrangements. Comparative investigations suggest that (i) more polyploidy occurs in callus cultures than in suspension cell cultures, and (ii) the presence of cytokinin (kinetin) in the culture medium may reduce the extent of karyotype change.     

Rapid and stable propagation ofOrnithogalum umbellatum L. in long term culture

Callus cultures were raised from bulb scale segments ofOrinthogalum umbellatum L. (Liliaceae), on a Murashige and Skoog (1962) medium (MS) with 8 mg/l naphthaleneacetic acid (NAA). Bulbous shoots developed from calli after 2 months using MS medium with 2 mg/l NAA and 0.5 mg/l N⁶ - benzyladenine (BA). Shoots were also induced directly from scales of regenerated bulb used as secondary explants on MS medium supplemented with 0.5 mg/l BA. Shoots developed roots in 1/2 - strength MS medium. Regenerants multiplied rapidly in 1/2-MS liquid medium. Chromosome instability was reduced in callus grown on 2 mg/l NAA compared to callus grown on 8 mg/l NAA. Callus retained regeneration potential for 5 years in this modified MS medium. The chromosome analysis of regenerants dervied from callus, even from long term culture of 5 years, revealed only diploid cells with normal karyotype comprising 2n=46 chromosomes. Stable nature of callus and regenerants were further confirmed by cytophotometry. This procedure can be applied for securing stable regenerants on a mass scale inO. umbellatum.     

Nuclear DNA content and phytohormone requirements of normal, crown gall and habituated tissues of Nicotiana tabacum var. White Burley

Determination of the nuclear DNA content of leaves and normal, habituated and Crown gall callus tissues of Nicotiana tabacum var. White Burley were performed using cytophotometry on Feulgen stained preparations. Several aspects concerning the reliability of the Feulgen technique for DNA determinations were investigated.Crown gall callus tissue used in this study had both a higher nuclear DNA content and chromosome number than normal callus (3.2C versus 2.5C). Both have a higher DNA content than the diploid tobacco leaf cells (2C).The normal callus tissue failed to grow on medium without indole acetic acid and kinetin when cultured in tubes. From this normal callus two habituated lines growing without both phytohormones were selected by culturing the normal callus first in the absence of either indole acetic acid or kinetin. Changing the culture conditions of the normal callus by using culture flasks instead of tubes resulted in a remarkably faster growth rate of the tissue. This was accompanied by an acquisition of the habituation characteristics since it was possible now to grow this tissue also directly on medium lacking both phytohormones. All habituated tissues showed a higher nuclear DNA content compared to the normal callus tissue from which they were derived. Interestingly, one of the tissues acquired a nuclear DNA content not different from that of Crown gall tissue. By changing the culture conditions of Crown gall callus tissue no concomitant change in nuclear DNA content occurred.The results suggest a correlation between the acquisition of a special chromosome complement and the loss of phytohormone requirement resulting in autonomous growth.     

THE ROOTING OF LIQUID-GROWN ASPEN CALLUS

Liquid-grown callus was used to study the nutritional requirements for rooting of a triploid form of normally diploid quaking aspen (Populus tremuloides Michx.). In modified Wolter's liquid medium, tan rough-surfaced spheres of callus grew rapidly when supplied with a high concentration of 2,4-D (0.5 mg/liter), but light-yellow uniformly smooth and firm spheres grew more slowly with a low level of 2,4-D (0.04 mg/liter) plus kinetin. When tissue was grown uncut in liquid for 1, 2, or 3 months, then subcultured to a low-2,4-D agar medium, rooting increased primarily with the age of the source tissue rather than the initial explant size. The surface of the youngest tissue source was almost smooth, but free columnar proliferations extended out from the surface for two or three cells in 2-month-old tissue and for three to six cells in the 3-month-old tissue. The relationship of increased rooting with increased surface cell-proliferation of older tissue was not determined anatomically.     

The early ontogeny of embryoids and callus from pollen and subsequent organogenesis in anther cultures of Datura metel and rice

Summary Haploidy induction through anther culture has been examined in Datura metel and rice with a view to tracing the precise sequence of development of the pollen, either directly or through an intervening callus, into an embryo and seedling. In D. metel, the vegetative cell of the young pollen grain assumes the major role in formation of embryos whereas the generative cell and its few derivatives degenerate. Embryos and seedlings arising directly from pollen without an intervening callus phase always proved to be haploids, whereas those differentiating from pollen-derived callus gave haploid, diploid and even triploid plants. Cytological analysis of callus tissue showed cells of various ploidy levels ranging from haploid to triploid, and in rare instances even with higher chromosome numbers.In rice anther cultures the embryoids arose from an initial callus phase. Of 15 different rice cultivars tried, only four produced a callus, and in only one, was there differentiation of plants, both haploid and diploid ones. Among other species tried, egg plant has also yielded plantlets through a callus phase whereas only callus production has been achieved in jute, tea and petunia. No response has been obtained in wheat, maize, cotton and coconut.Coconut milk (CM) appears to be the most important component of the medium for the initial induction of embryoids and callus in anther cultures of most of the species tried. However, further growth and differentiation of plants may require a simpler medium; in D. metel, continued culture on CM led to dedifferntiation.Dedicated to the memory of the late Dr. J. P. Nitsch.     

Flow cytometric analyses in embryogenic and non-embryogenic callus lines of Cyclamen persicum Mill.: relation between ploidy level and competence for somatic embryogenesis

Embryogenic and non-embryogenic callus lines derived from the same diploid Cyclamen persicum genotype (`Purple Flamed') were analyzed by flow cytometry and compared to the initial plant material. The DNA content of the diploid plant in the greenhouse was 1.12 pg DNA/2C as estimated in relation to the internal standards tomato nuclei and chicken erythrocytes. In both callus lines the majority of cells contained the same amount of DNA as the initial plant, indicating that no polyploidization has taken place after 5 years of culture on medium containing 2.0 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D) and 0.8 mg/l 6-(γ-γ-dimethylallylamino)purine(zip). Thus, our data suggest that in Cyclamen callus lines there was no strict correlation between the ploidy level and the ability to produce somatic embryos. Furthermore, following the proportion of cells in the three phases of the cell cycle (G0/G1, S, G2/M) during one subculture period of 4 weeks revealed high division activity within the first 2 weeks for both callus lines cultured on the 2,4-D-containing medium. However, when transferred to hormone-free medium, the division activity of the embryogenic cell line decreased markedly, corresponding to the differentiation of somatic embryos. In contrast, for the non-embryogenic callus an increase in cells in the G2/M phase was observed. Received: 22 November 1996 / Revision received: 6 January 1997 / Accepted: 20 February 1997     

Regeneration of Heracleum candicans Wall Plants from Callus Cultures through Organogenesis

Callus was initiated from petiole explants of Heracleum candicans on MS medium fortified with BAP and 2,4-D ( 0.5 mg I^-1 each). Maximum shoot differentiation from callus occurred on MS medium containing 1 mg I^-1 BAP and 0.2 mg I^-1 NAA. The regenerated shoots were rooted on MS medium supplemented with 1 mg I^-1 IBA. The rooted plants were transferred to the field after successful hardening in pots containing vermiculite. All regenerated plants were diploid with 2n=22 chromosomes in their root tip cells.     

The Induction of Endosperm Plantlets and Their Ploidy of Barley in Vitro

The endosperm callus has been induced from immature endosperm of barley (Hordeum vulgare L.) on the MS medium supplemented with auxin. When the callus was transferred to the medium supplemented with lower concentration of auxin, the differentiation of shoots began to occur. The regenerated plantlets can be green, albino and whitegreen stripe. The chromosome number in the cells from same root tip of endosperm plantlet is very unstable. They can be euploid (2n=7, 14, 21, 28) or aneuploid (2n = 8, 9, 10, 13).     

Morphogenesis in Relation to Chromosomal Constitution in Long-term Plant Tissue Cultures

A number of strains of callus tissues derived from 1-mm root tips of the garden pea, Pisum sativum L., cultivated on a complex medium containing yeast extract and 2, 4-D for eight years, were tested periodically for their capacity to initiate roots. Chromosomal cytological analyses accompanied each test. It was found that during the prolonged period of subculture there was a progressive loss of organ-forming Capacity in all tissue strains. At the outset all callus tissues could be stimulated to form normal diploid roots. After several years of continuous subculture, some callus tissues formed normal tetraploid roots. Still later, these callus tissues lost completely the capacity to initiate roots. This loss was paralleled by increasing abnormalities in the chromosomal constitution, including higher chromosome numbers and greater frequency of aneuploidy. Early in subculture normal diploid and tetraploid divisions were present in the callus tissues. Later, higher polyploids at 8n and 16n were more frequent, as well as aneuploids around these numbers. Some tissue strains after prolonged cultivation showed a wide range of chromosome numbers at the higher ploidy levels but completely lacked diploid divisions. It is suggested that the loss in organ-forming capacity is correlated with the increase in abnormality of chromosomal constitution. Differentiation of certain characteristic cell types was unaffected by these changes.     

Ploidy-dependent genomic stability in the tissue cultures of ornamental Phlox drummondii Hook

Comparisons of the chromosome numbers, 2C nuclear DNA amounts and karyomorphology were made in explant cultures of diploid (2n = 2x = 14) and autotetraploid (2n = 4x = 28) Phlox drummondii. In 6–36 week old calli derived from diploid internodal segment explants, and in cells of root tips regenerated from such callus, marked differences were observed in chromosome number. The chromosome numbers ranged from 2n = 14 to 2n = 100 and DNA amounts from 8.20 to 63.20 pg in the diploid derived callus, while the extent of variation was much reduced in the regenerated roots. In contrast, the autotetraploid cultures were characterised by the maintenance of the same chromosome number and DNA amounts as the mother plant. Modified chromosome structures were not apparent in any of the cultures. The possible reasons for the chromosomal instability at the diploid level and stability at the tetraploid level are discussed.     

Shoot Regeneration from Cultured Leaf Explants of Lycium barbarumand Agrobacterium-Mediated Transformation1

A method for fast plant regeneration via organogenesis directly from Lycium barbarumleaf explants has been developed. The key factor for shoot regeneration was the presence of benzyladenine (BA) in the medium. NAA could only induce root formation and explant callusing. Murashige and Skoog (MS) medium supplemented with 2 mg/l BA and 0.5 mg/l NAA is the most efficient condition for shoot formation, with up to 92.6% shoot regeneration and no callus formation. All adventitious shoots cultured on MS medium supplemented with 1 mg/l IAA formed an extensive root system. Regenerated plants were morphologically normal and were also proved to be diploid (2n = 24). Using the optimized regeneration system, the genetic transformation of L. barbarumwas carried out mediated by Agrobacterium tumefaciensEHA101(pIG121Hm). 11.8% leaf explants produced kanamycin-resistant shoots after infection by A. tumefaciens.The putative transgenic nature of plants was confirmed by GUS assay and PCR analysis. Expression of the nptIIgene in the regenerated plants was also detected by observing the callus formation by leaf pieces on MS medium containing 0.2 mg/l 2,4-D and 0–100 mg/l kanamycin.     

Karyology of a marine population of Gyratrix hermaphroditus (Turbellaria,Rhabdocoela) and chromosomal evolution in this species complex

Karyology and reproductive biology of a marine population of the species complex Gyratrix hermaphroditus, from Roscoff (Brittany, France), have been investigated. A diploid complement of six chromosomes was determined from spermatogonial mitotic figures. One chromosome pair is metacentric, the second is intermediate between meta- and submetacentric, and the third is subtelocentric.In this population, regular meiosis occurs in both female and male germ lines, and the animals reproduce only by means of amphimictic eggs. Certain specimens of the population showed the elimination of one of the three bivalents during the first meiotic division in spermatogenesis. It seems that such animals produce normal and aneuploid sperm simultaneously; the aneuploid sperm are not capable of fertilization.The Roscoff population differs in its karyotype (2n = 6) from freshwater populations, which are either diploid (2n = 4) or polyploid (3n = 6, 4n = 8). These results suggest that aneuploidy played a role in the differentiation of freshwater populations from an originally marine species complex.     

Cytogenetics of protoplast cultures of Brachycome dichromosomatica and Crepis capillaris and regeneration of plants

Summary Callus derived protoplasts of Brachycome dichromosomatica (2n=2x=4) and Crepis capillaris (2n=2x=6) have been regenerated into karyologically normal plants, i.e. plants without visible alterations of the diploid chromosome set. However, metaphase analysis of protoplast cultures derived from both callus as well as mesophyll cells showed karyological changes in the overwhelming majority of cells in both species leading to multinucleated, polyploid and aneuploid cells. Furthermore, callus derived protoplasts sometimes exhibited changes at the chromosome level as indicated by translocations. The vast majority of aberrant karyotypes arose from failures during mitosis and cytokinesis, pointing to inadequate microtubules as a possible underlying cause. Karyological events of the kind described herein greatly affect the plating efficiency of isolated protoplasts and the viability of protoplast derived calli. Plant regeneration, although demonstrated in this study for the first time in both species, seems to be limited to rarely occurring, protoplast-derived colonies with a relatively stable genome. Our experiments, performed with chromosomal model species, emphasize the need for controlled, non-mutagenic culture conditions.     

玉米未成熟胚乳愈伤组织和器官的发生及其倍性变化的初步研究

本试验在附加和不附加外源激素的MS培养基上,均得到了玉米未成熟胚乳愈伤组织。愈伤组织在附加外源激素的MS培养基上达到器官分化,获得了发育正常的和许多畸形的胚乳植株。所得到的愈伤组织细胞和植株根尖细胞染色体数目和倍性是不稳定的,二者有相同的趋向,其中有整倍体的细胞(2n=10,20,30,40,50),也有各种非整倍体的细胞(2n=5—49)。     

Induction of mitosis in polytene nuclei and hormonal effect on nuclear changes during callus initiation in diploid Urginea indica Kunth. (liliaceae)

Bulb scale and inflorescence explants of Urginea indica Kunth. (2n=20) were cultured in vitro on modified Murashige & Skoog's medium with different hormonal composition. Media containing 2,4-dichlorophenoxy-acetic acid (2,4-D) (2 and 4 mgl^–1) and -naphthalene-acetic acid (NAA) (2 mgl^–1) could induce callus in inflorescence explants. Combination of 2,4-D (4 mgl^–1) + NAA (2 mgl^–1) + Kinetin (2 mgl^–1) only could induce callus formation in scale explants. The bulb scale explants contained mostly diploid cells while the inflorescence explants contained cells with nuclear DNA content ranging from 2C to 64C. The lowest karyological heterogeneity was recorded in callus derived from bulb scale and in callus derived from inflorescence induced with NAA. The highest variability was recorded on media with 2,4-D alone. Induction of division, probably of the pre-existing polytenic nuclei in the inflorescence explant, has been suggested to be the cause of origin of polyploid cells in such cases.     

Karyotype stability in long-term callus derived plants ofCrepis tectorum L.

The study of in vitro growth of Crepis tectorum revealed 100 % callusing and 40 % plantlet regeneration. The root and leaf used as explants showed the normal diploid (2n=8) chromosome constitution. In one month old culture 95 % callus cells were diploid. The callus maintained in 2,4-D 1 mg 1-1 for two years showed 62 % diploid, 5 % tetraploid and 33 % hyperdiploid cells. The differentiation of shoot occurred in two year old calli after subeulturing in 2 mg I-1 BAP and the potentiality of regeneration was retained for more than one year. The leaf-tips of regenerated plants were homogeneous and identical to the donor plant both in number and morphology of chromosomes.     

Haploid callus and regeneration of plants from anthers of Digitalis purpurea L.

Summary Production of callus from anthers of D. purpurea was obtained on several basal media supplemented with various amounts of auxins. Chromosome counts showed that the callus produced was haploid when the anthers 1) were of a dark-brown to black color, and 2) were cultured in the late tetrad stage of microspore development. Subsequent differentiation to plants at high frequencies was possible only 1) when the anthers had been cultured on the medium of Nitsch and Nitsch (Science 163, 85–87; 1969) supplemented with 5 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D), 2) when the callus was transferred to the same medium but without 2,4-D, and 3) when it was cultured under continuous light from fluorescent lamps. Proliferation of the callus and regeneration of plants did not diminish through as many as 20 subcultures. The high frequency of regenerates permits the propagation of a distinct geno-type to a virtually unlimited number of plants. Diploid plants were obtained when the anthers had been cultured in the dark. Tetraploid plants were regenerated by callus from anthers which had been cultured in light. When the time of 2,4-D treatment was shortened a few haploid plants were produced which however did not survive transfer to soil. Cytological observations demonstrated that regeneration started from haploid callus, leading to intermediate degrees of ploidy and finally to diploid plants. Most of the regenerated plants were euploid and flowered and fruited normally under greenhouse and field conditions. If the anther-derived callus was cultured on the medium of Nitsch and Nitsch supplemented with 2.2 mg/l kinetin, plants regenerated only under photoperiodic conditions of 16 h light at 28° and 8 h dark at 20° but the survival was lowered to one third. These plants had a different leaf and flower morphology as compared to the control without kinetin and to the starting material, but their progeny was again essentially normal.     

Induction of Endosperm Calluses and Regeneration of Endosperm Plantlets of Asparagus officinalis

The endosperm callus has been induced from the young endosperm of Asparagus officinalis L. on the MS supplemented with auxin. The induction frequency of callus amounts to 65.9%–83.1%. When the callus was transferred to the medium supplemented with lower concentration of NAA 0.1 ppm or containing BA 1 ppm and NAA 0.5 ppm, the differentiation of shoots, roots and a few embryoids began to occur. A few calluses and embryoids can develop into plantlets. The chromosome number in the cells from the same root tip and shoot apex of endosperm plantlet is very unstable. They can be euploids (n=10, 2n=20, 3n=30, 4n=40). or aneupl0ids (n=6, 7, 17, 25, 53).