Flow cytometric analysis of somaclonal variation in lineages of Hosta sports detects polyploidy and aneuploidy chimeras

Somaclonal variation of some 124 specially selected cultivars of Hosta Tratt. (Hostaceae) was investigated. Nuclear DNA contents (2C‐value) were measured by flow cytometry of leaves and roots of L1, L2 and L3 layers derived from apical meristems. These values were then converted to inferred ploidies by comparing the measured 2C‐values and ploidy with those of the parent plant. During tissue‐culture propagation, on occasion diploid (L1‐L2‐L3 = 2‐2‐2) hostas give rise to polyploids, such as fully tetraploids (4‐4‐4), and periclinal chimeras, such as partial tetraploids (4‐2‐2). Continual propagation can result in partial tetraploids becoming full tetraploids. Nuclear DNA of some diploids increased with incomplete chromosome sets resulting in fully aneuploids, such as hostas with a DNA ploidy of L1‐L2‐L3 = 2.5‐2.5‐2.5 and 3.7‐3.7‐3.7, and even in aneuploid periclinal chimeras, such as L1‐L2‐L3 = 2.5‐2‐2 and 3.8‐2‐2. The polyploidy of L1, irrespective of the ploidy of L2 and L3, is found to mainly determine the thickness of leaves. Also the higher the ploidy of L1, the wider and more intense in color is the leaf margin. The measurements of Hosta cultivars and their lineages of sports show that chromosome losses or gains are an important source of new cultivars. The complexity of chromosomal distribution in lineages of several Hosta cultivars is discussed.     

Sports and hybrids of triploid Hosta ‘Sum and Substance’ reveal chromosome losses and gains in all three apical layers

Ploidy distributions in L1, L2, and L3 apical or meristematic layers of 56 different plants (79 accessions) from vegetative and sexual progeny of the triploid Hosta ‘Sum and Substance’ were determined. Nuclear DNA contents (2C) of each apical layer were measured by flow cytometry with propidium iodide, and inferred ploidies are calculated. During tissue culture, the triploid (L1–L2–L3?=?3–3–3) Hosta ‘Sum and Substance’ exhibited chromosome losses resulting in somaclonal variants such as DNA aneuploids (e.g., 2.7–2.7–2.7) and aneuploidy chimeras (e.g., 3–2.7–2.7). Most interestingly, some chimeras exhibited even an increase in genome size as in plants with 3.5–3–3 configuration. Hybrids of H. ‘Sum and Substance’ show only losses of nuclear DNA compared with the original triploid. This gives rise to fully aneuploid plants and no chimeras. The measurements of Hosta ‘Sum and Substance’ lineages of sports and hybrids indicate that chromosome losses or gains are an important source of new cultivars. The complexity of chromosomal distribution in derivatives from the triploid Hosta ‘Sum and Substance’ is discussed.     

Arrangement of cell layers in the shoot apical meristems of periclinal chimeras influences cell fate

Utilizing a complete set of six periclinal graft chimeras composed of Nicotiana tabacum and Nicotiana glauca (TGG, GTT, TTG, GGT, TGT, and GTG), the fate of the three apical cell layers in both vegetative and reproductive organs has been traced. An analysis of leaf phenotype indicated that only rarely did deviations from expected cell lineage occur and in only TTG did such deviations originate in the shoot apical meristem rather than during leaf development. In most plants that possess a stratified shoot apical meristem, gametes are derived from the second apical layer (L2). A phenotypic and/or DNA analysis of seed progeny following reciprocal crosses between all chimeras and their component species indicated that pollen and eggs were sometimes derived from non-L2 lineage in all but one periclinal chimera. There was no evidence for non-L2-derived gametes in 95 crosses where GTT was a parent whereas 40 of 104 crosses with TTG as a parent yielded some offspring that resulted from non-L2-derived gametes. Of these 40 cases, non-L2-derived pollen grains were responsible 39 times while non-L2-derived eggs were responsible just once. Therefore, the occurrence of non-L2-derived gametes was not random. The disruption of ‘normal’ lineage patterns was dependent on the specific arrangement of genetically dissimilar tissue layers in the shoot apices of the chimeras and was different for different organs.     

Induction and origin of adventitious shoots from chimeras of <Emphasis Type="Italic">Brassica juncea</Emphasis> and <Emphasis Type="Italic">Brassica oleracea</Emphasis>

The chimeras between tuber mustard (Brassica juncea) and red cabbage (B. oleracea) were artificially synthesized in our previous study. Adventitious shoots were induced from nodal segments and leaf discs of TCC (LI-LII-LIII, LI -the outmost layer of shoot apical meristem; LII -the middle layer; LIII -the innermost layer. T = Tuber mustard, C = Red cabbage) chimeras. The origin of the shoots was analyzed by histology and molecular biology. As a result, the frequency of adventitious shoot induction rose with the increase of BA in MS medium in the area of the nodes. However, there was no different induction frequency of adventitious shoots from nodal segment bases in media with different BA concentrations. Most adventitious shoots (clustered shoots) arising from the node area were TTT (Tuber mustard- Tuber mustard- Tuber mustard) and only 4 shoots were chimeras, which indicated that more shoots originated from LI than from LII and LIII. All shoots from nodal segment bases were CCC (Red cabbage-Red cabbage- Red cabbage), indicating that the shoots originated from LII or LII and LIII. There were significant differences in the regeneration rate in the margin of the leaf discs among the three combinations of BA and NAA. Most adventitious shoots from the margin of leaf discs were CCC but 2 out of 70 were chimeras, which indicated that more shoots originated from LII or LII and LIII than from LI. All chimeras obtained by regeneration were different from the original explant donor in type in the present study. The origin of the adventitious shoots varied with the site of origin on the donor plant, and could be multicellular and multihistogenic.     

COMPETITION AND ACCOMMODATION BETWEEN APICAL LAYERS AND THEIR DERIVATIVES IN THE ONTOGENY OF CHIMERAL SHOOTS OF PELARGONIUM X HORTORUM

Two mutant plastogenes in all possible chimeral combinations were followed in Pelargonium X hortorum Bailey (geranium) shoots. The part of stem, leaf, or other structure derived from each apical layer was clearly apparent on a cell to cell basis. Shoots typically were composed of derivatives of three apical layers but we found derivatives of as many as four apical layers in some leaves and of five layers in some stems. In chimeras with one of the mutants, Dpl W₁, the amount of tissue derived from the various apical layers was the same, whether the layer was mutant or wild type. We suggest that there are independent apical layers and cell lineages derived from them in nonchimeral shoots, and that their contribution in normal ontogeny is like that of the layers in Dpl W₁ chimeras. In chimeras carrying the second mutant, Dpl W₂, there was much less tissue derived from mutant than from wild-type apical layers. The phenotypic expression of the plastogenes was unchanged by their transmission through male or female gametes. Comparisons of the ontogeny of geranium plants carrying the W₁ or W₂ mutant suggested that, while there was competition between the apical layers and between their derivatives, the genome imposed a definite harmonious interaction or accommodation which led to a final normal morphology of all plant parts and organs through quite different ontogenetic pathways.     

Function of Node Unit in Photosynthate Distribution to Root in Higher Plants

Leaf-root interaction is a critical factor for plant growth during maturation and activity of roots is maintained by a sufficient supply of photosynthates. To explain photosynthate distribution among organs in field crops, the node unit hypothesis is proposed. One node unit consists of a leaf and an upper adventitous root, as well as the axillary organs and the lower adventitious root, which is adjacent to one node. Using ¹⁴C as tracer, the carbon distribution system has been clarified using spring wheat, soybean, tomato, and potato. The interrelationship among organs from the strongest to the weakest is in the following order: (1) within the node unit > (2) between the node unit in the same or adjacent phyllotaxy > (3) in the main root or apical organs, which are adjacent to the node unit. Within the node unit, ¹⁴C assimilated in the leaf on the main stem tended to distribute to axillary organs in the same node unit. The ¹⁴C assimilated in the leaf of axillary organs tended to distribute within the axillary organs, including adventitious roots in the axillary organ and then translocated to the leaf on the main leaf of the same node unit. In different organs of the node unit in the same or adjacent phyllotaxy, ¹⁴C assimilated in the leaf on the main stem was also distributed to the organs (node unit) belonging to the same phyllotaxy in dicotyledons, while in monocotyledons, the effect of phyllotaxy on ¹⁴C distribution was not clear. Among roots/apical organs and node unit, ¹⁴C assimilated in the upper node unit was distributed to apical organs and ¹⁴C assimilated in the lower node unit was distributed to roots. Thus the node unit hypothesis of photosynthate distribution among organs is very important for understanding the high productivity of field crops.     

Adventitious shoot regeneration from ovaries of Hosta ‘Golden Scepter’

Summary The objective of this study was to evaluate the ability ofHosta Golden Scepter (GS) ovary explants to generate adventitious shootsin vitro. Ovaries were transversely cut into halves and transferred to petri dishes containingHosta initiation medium supplemented with naphthaleneacetic acid (NAA) at 2.5 μM and N⁶-benzyladenine (BA) at 10 μM. GS produced adventitious shoots from the ovary base via organogenesis. The number of adventitious shoots regenerated from callus increased linearly with repeated subculturing on Murashige and Skoog (MS) medium supplemented with 2.5 μM NAA and 10 μM BA. The number of multiple shoots developing from callus (15.8), shoot tip (8.4), leaf (6.7), and root (4.3) occurred on MS medium supplemented with 2.5 μM NAA and 20–30 μM BA. There were significant differences in the number of shoots regenerated from shoot tips and callus on MS medium with 50 and 100 mgmyo-inositol per l. Similarly, there were significant differences in the number of axillary shoots and adventitious shoots produced with 20 g/l sucrose treatment.     

Nuclear DNA content of Vitis vinifera cultivars and ploidy level analyses of somatic embryo-derived plants obtained from anther culture

Flow cytometry was employed to determine the ploidy level of Vitis vinifera L. somatic embryo-derived plants obtained from anther culture. Only one among the 41 analysed plants (2.4%) presented somaclonal variation (tetraploidy); the other plants were diploid. No significant differences (P≤0.05) were detected between diploid and parental field plants. No haploid or aneuploid plants were observed. The nuclear DNA content of nine V. vinifera cultivars was also estimated using flow cytometry. A non-significant variation was found among the cultivars, with DNA content ranging from 1.17 pg/2C (cv. ‘Tinta Barroca’ and ‘Viosinho’) to 1.26 pg/2C (cv. ‘Cabernet Sauvignon’). These results and previous studies on other Vitis species suggest that Vitis genome is stable with regard to nuclear DNA content.     

DNA amounts of roses (<Emphasis Type="Italic">Rosa</Emphasis> L.) and their use in attributing ploidy levels

The aims of the investigation were to characterise variability among the DNA amounts of roses and assess the predictability of ploidy levels from DNA amounts. Chromosome numbers in the genus Rosa range from 2n = 2x = 14 to 2n = 8 x = 56 and aneuploidy is rare. Published 2C DNA amounts range from 0.78 pg in R. xanthina Lindl. and R. sericea Lindl. (2n = 2x = 14) to 2.91 pg in R. canina L. (2n = 5x = 35). In this investigation, DNA amounts were estimated by flow cytometry of leaf nuclei stained with propidium iodide, using Petroselinum crispum (2C DNA amount = 4.46 pg) as the internal calibration standard. Ploidy levels based on DNA amounts (DNA ploidy) were assigned by comparing their DNA amounts with published DNA amounts and identifying peaks and intervening discontinuities in frequency distributions of DNA amounts. 2C DNA amounts ranged from 0.83 pg in R. ecae (2x = 2x = 14) to 3.99 pg in R. acicularis (2n = 8 x = 56). Differences in the 1Cx-values (2C DNA amount/ploidy values) were found among the taxonomic sections of Rosa. Ploidy levels could be confidently assigned to most species and cultivars, but the ploidy of some specimens in the section Caninae was uncertain for reasons attributed to genomic diversity and aneuploidy. Cytochimerism was detected in three cultivars of R. x alba. DNA ploidy was determined in 384 specimens representing 74 species and 5 horticultural classes.     

Consequences of artificial and natural chromosome doubling on DNA,RNA and protein contents inCochlearia (Brassicaceae)

The effects of chromosome doubling on macromolecular composition, i.e. DNA, RNA and protein, were examined in diploidCochlearia pyrenaica DC., its established natural autotetraploidC. officinalis L., and their newly colchicine-induced autotetraploid and autooctoploid derivatives. DNA, RNA and protein contents increase from lower to higher ploidy levels (2x > 4x > 8x). The established natural autotetraploids and newly induced autotetraploids also differ, as DNA, RNA and protein have been reduced during the course of establishment. Net synthesis of RNA and protein per unit DNA does not change significantly neither from lower to higher ploidy levels nor between the autotetraploids of newly induced and established natural origins.     

Cryopreservation of in vitro-grown apical meristems of lily by vitrification

Apical meristems from adventitious buds induced by culturing of bulb-scale segments of Japanese Pink Lily (Lilium japonicum Thunb.) were successfully cryopreserved by a vitrification. The excised apical meristems were precultured on a solidified Murashige & Skoog medium, containing 0.3 M sucrose, for 1 day at 25°C and then loaded in a mixture of 2 M glycerol plus 0.4 M sucrose for 20 min at 25°C. Cryoprotected meristems were then sufficiently dehydrated with a highly concentrated vitrification solution (designated PVS2) at 25°C for 20 min or at 0°C for 110 min prior to a plunge into liquid nitrogen. After rapid warming in a water bath at 40°C, the meristems were placed in 1.8 ml of 1.2 M sucrose for 20 min and then, placed on filter papers over gellan gum-solidified MS medium. The revived meristems resumed growth within 5 days and directly produced shoots. The rate of shoot formation was approximately 80% after 4 weeks. When bulb-scale segments with adventitious buds were cold-hardened at 0°C for more than 7 days before the procedure, the rates of shoot formation were significantly increased. This vitrification method was successfully applied to five other lily cultivars. Thus, this vitrification procedure for cryopreservation appears promising as a routine method for cryopreserving meristems of lily.Abbreviations DMSO dimethylsulfoxide - EG ethylene glycol - LN liquid nitrogen - MS medium Murashige & Skoog (1962) medium - PVS2 vitrification solution     

Flow cytometric analysis of nuclear genome of the Ethiopian cereal tef [Eragrostis tef (Zucc.) Trotter]

Flow cytometric analysis of nuclear DNA content was performed by using nuclei isolated from young leaf tissue of tef (Eragrostis tef). The method was very useful for rapid screening of ploidy levels in cultivars and lines of tef representing the phenotypic variability of this species in Ethiopia. The results of the analysis showed that all cultivars were tetraploid. Flow cytometry was also used to determine nuclear DNA content in absolute units (genome size) in four tef cultivars. Nuclei isolated from tomato (Lycopersicon esculentum, 2C=1.96 pg) were used as an internal reference standard. The 2C DNA content of individual tef cultivars ranged from 1.48 to 1.52 pg (1C genome size: 714 Mbp-733 Mbp), the differences among them being statistically nonsignificant. The fact that the nuclear genome of tef is only about 50% larger than that of rice should make it amenable for analysis and mapping at the molecular level.     

Correlation between nuclear DNA values and differing optimal ploidy levels inNarcissus,Hyacinthus andTulipa cultivars

4C nuclear DNA amounts were determined in 16 large decorative cultivars ofNarcissus (Amaryllidaceae), 13 ofHyacinthus (Hyacinthaceae) and 12 ofTulipa (Liliaceae) at different levels of ploidy. Within each genus, nuclear DNA amounts and ploidy levels are positively correlated, with no DNA loss in polyploids.Based on wide surveys of chromosome numbers, the maximum numbers of cultivars, interpreted as the optimum levels of selective success or horticultural fitness, were found to be at the tetraploid level inNarcissus (2n=4x=28), the triploid inHyacinthus (2n=3x=24) and the diploid inTulipa (2n=2x=24). All these ploidy optima were shown to correspond to a small range of nuclear DNA amounts (4C=96-139 pg), which could suggest the existence of a single DNA value optimal for the three biologically similar but unrelated genera. In each case the optimum is at an equilibrium reached between enhanced size and other morphological characteristics on one hand and reduced growth rate on the other, both resulting from increase in ploidy and nuclear DNA amounts.     

Green fluorescent protein as an efficient selection marker for Agrobacterium rhizogenes mediated carrot transformation

Agrobacterium rhizogenes mediated transformation combined with a visual selection for green fluorescent protein (GFP) has been applied effectively in carrot (Daucus carota L.) transformation. Carrot root discs were inoculated with A4, A4T, LBA1334 and LBA9402 strains, all bearing gfp gene in pBIN-m-gfp5-ER. The results indicate that transformed adventitious roots can be visually selected solely based on GFP fluorescence with a very high accuracy. The method requires no selection agents like antibiotics or herbicides and enables a reduction of labour and time necessary for tissue culture. Moreover, individual transformants can be easily excised from the host tissue and cultured separately. All of the 12 used carrot cultivars produced transformed adventitious roots and the frequency of discs producing GFP expressing adventitious roots varied from 13 to 85%. The highest transformation rate was found for A4T and LBA1334 strains possessing chromosomal background of A. tumefaciens C58. The results encourage that visual selection of transformed, fluorescing adventitious roots can be highly effective and applied routinely for the production of carrot transgenic plants.     

Visual selection and maintenance of the cell lines with high plant regeneration ability and low ploidy level in Dianthus acicularis by monitoring with flow cytometry analysis

Efficient plant regeneration system from cell suspension cultures was established in D. acicularis (2n=90) by monitoring ploidy level and visual selection of the cultures. The ploidy level of the cell cultures closely related to the shoot regeneration ability. The cell lines comprising original ploidy levels (2C+4C cells corresponding to DNA contents of G1 and G2 cells of diploid plant, respectively) showed high regeneration ability, whereas those containing the cells with 8C or higher DNA C-values showed low or no regeneration ability. The highly regenerable cell lines thus selected consisted of compact cell clumps with yellowish color and relatively moderate growth, suggesting that it is possible to select visually the highly regenerable cell lines with the original ploidy level. All the regenerated plantlets from the highly regenerable cell cultures exhibited normal phenotypes and no variations in ploidy level were observed by flow cytometry (FCM) analysis.     

Nuclear DNA content inCelosia (Amaranthaceae)

Nuclear DNA amount of five species ofCelosia ranging from 2x to 12x varies from 3.26 (2x) to 9.70pg (12x). The diploidC. trigyna has twice as much DNA/basic genome as other taxa, which is commensurate with its taxonomic position and genetic isolation. There is insignificant variation in DNA/basic genome among 4x, 8x, and 12x taxa. Therefore, DNA/nucleus shows a strong positive correlation with ploidy level. The different accessions of 4x taxa show constancy of DNA amounts. There is no correlation of seed weight with DNA amount.     

INDUCTION OF ADVENTITIOUS BRANCHES FROM CULTURED CITRUS JUICE VESICLES–A POTENTIAL MEANS OF PROLIFERATION

The noncallusing morphogenetic properties of Citrus juice vesicles cultured in vitro are unknown and were herein studied. Juice vesicles isolated from 120–180-day-old fruits are capable of proliferation via adventitious vesicle branching in vitro. Gibberellic acid levels of 1–100 mg/L greatly enhanced adventitious vesicle branching while delaying vesicle senescence as evidenced by the vesicles' ability to retain its green color for up to 4 to 6 mo in culture. Vesicles grown on media without gibberellic acid readily matured, turning opaque within 2 mo in culture and rarely produced adventitious branches. Additions of 0.1 mg/L α-naphthaleneacetic acid or 1.0 mg/L benzylaminopurine to media containing 10 mg/L gibberellic acid further enhanced vesicle branching in some species and cultivars. Adventitious juice vesicles have been induced from a variety of citrus species, including Citrus grandis (L.) Osb., C. hystrix DC., C. limon (L.) Burm. f., C. medica L., C. paradisi Macf., C. reticulata Blanco, and C. sinensis (L.) Osb. Adventitious vesicle branches originate from primordia initiated on the surface of the cultured vesicle. These primordia commonly occurred on the terminal meristem region of the vesicle. However, some species (e.g., C. grandis and C. paradisi) produced adventitious vesicle branches from their bodies and stalks as well. Distinct vesicle branches begin to appear on preformed vesicles after 30–60 days in culture. A survey to determine the natural occurrence of vesicle branching in various Citrus species was also conducted. Natural vesicle branching commonly occurred in C. grandis, C. paradisi, and in some cultivars of C. reticulata, but was absent in most citrus species and cultivars (e.g., C. aurantifolia (Christm.) Swing., C. canaliculata Hort. ex Y. Tan., C. hystrix, C. limon, C. medica, C. sinensis). It was found that some species which failed to exhibit the adventitious branching phenomenon in nature did so in vitro (e.g., C. hystrix, C. medica, and C. sinensis).     

Copy numbers of chloroplast and nuclear genomes are proportional in mature mesophyll cells of Triticum and Aegilops species

The possibility of estimating the proportion of chloroplast DNA (ctDNA) and nuclear DNA (nDNA) in nucleic-acid extracts by selective digestion with the methylation-sensitive restriction enzyme PstI, was tested using leaf extracts from Spinacia oleracea and Triticum aestivum. Values of ctDNA as percentage nDNA were estimated to be 14.58%±0.56 (SE) in S. oleracea leaves and 4.97%±0.36 (SE) in T. aestivum leaves. These estimates agree well with those already reported for the same type of leaf material. Selective digestion and quantitative dot-blot hybridisation were used to determine ctDNA as percentage nDNA in expanded leaf tissue from species of Triticum and Aegilops representing three levels of nuclear ploidy and six types of cytoplasm. No significant differences in leaf ctDNA content were detected: in the diploids the leaf ctDNA percentage ranged between 3.8% and 5.1%, and in the polyploids between 3.5% and 4.9%. Consequently, nuclear ploidy and nDNA amount were proportional to ctDNA amount (r₍₁₉₎=0.935, P>0.01) and hence to ctDNA copy number in the mature mesophyll cells of these species. There was a slight increase in ctDNA copy numbers per chloroplast at higher ploidy levels. The balance between numbers of nuclear and chloroplast genomes is discussed in relation to polyploidisation and to the nuclear control of ctDNA replication.Abbreviations ctDNA chloroplast DNA - nDNA nuclear DNA - RuBPCase ribulose-1,5-bisphosphate carboxylase - DAPI 4,6-diamidine-2-phenylindole     

In vitro branching in relation to repeated subculture in two cultivars of Potentilla fruticosa

The in vitro branching pattern of two ornamental cultivars of Potentilla fruticosa L. was analyzed quantitatively with respect to repeated subculture. In both cultivars, in vitro multiplication occurred predominately by axillary branching. There was little callus and few adventitious shoots were produced. In the more vigorous cultivar, Snowbird, there were up to 5 orders of branching. In the other cultivar, Pink Whisper, there were rarely more than 3 orders of branching. In both cultivars, apical dominance was weak in vitro and all but the youngest axillary buds were released. Differences in branching appeared to be related to the degree of apical control of lateral shoot growth. In Snowbird, where control was weak, lateral branches grew vigorously producing several bud sites for higher order branching. For both cultivars, shoot multiplication was at its maximum at the beginning of the experiment and then declined to a more or less steady level. These patterns indicated that apical control was weakest at the beginning of the experiment and then increased during repeated subculture. Nevertheless, in Snowbird, there was evidence of a gradual increase in multiplication rate toward the end of the experiment.Contribution no. 908.     

Flow cytometric evidence for endopolyploidy in seedlings of some Brassica species

Flow cytometric analysis of the nuclear DNA contents of somatic tissues from seedlings of Brassica rapa L. and B. oleracea L. revealed extensive endoreduplication, resulting in tissues that contain cells with multiple ploidy levels (also called ’endopolyploidy’). Multiples of the haploid nuclear genome complement (1C) corresponding to 2C, 4C, 8C, 16C, 32C and 64C were observed in Brassica rapa, while B. oleracea exhibited a mixture of cells with five ploidy levels, 2C, 4C, 8C, 16C and 32C. The distribution of cells with the different ploidy levels was tissue-specific and characteristic of the stage of development. Multiploidy was not found in the embryos of dry seeds. Rapid endoreduplication occurred during seedling development. It is most probable that multiploidy is, if not a general feature, at least very common in Brassica species. The physiological and genetic implications of this original feature are discussed. Received: 17 March 2000 / Accepted: 17 April 2000