Conditions for a high plating efficiency of free cell suspensions of Haplopappus gracilis (Nutt) gray

Summary Suspensions of Haplopappus gracilis cells, containing about 80% free cells, were obt ained from log-phase cultures by filtration through 3 nylon sieves having decreasing mesh widths from 297, 210 and 88 m. From the free cell suspensions, 75 to 90% of the cells developed into visible colonies when the plating procedure was divided into two steps: a) plating the cells at high concentration in soft agar on feeder agar; b) replating the resulting aggregations at appropriate concentrations on fresh feeder agar. From the results, it is inferred that, in the replating step, the volume of the inoculum is the deciding factor which influences the resulting plating efficiency.     

A double filter paper technique for plating cultured plant cells

Summary An inexpensive method for achieving quantitative clonal growth of single cells and small clumps of cells ofHaplopappus gracilis (Nutt.) Gray on filter paper discs is described. Plating efficiencies of 55–80% are routinely obtained. This method depends upon the presence of a feeder layer of cells only in the initial phases of the plating, allows easy counting of colonies and permits rapid, convenient transfer of groups of colonies to other media without loss of individual colony identity or spatial distribution. This work was supported by Grant PCM75-21779 from the National Science Foundation and by funds from the Agricultural Experiment Station, University of California, Riverside.     

Flow-cytometric characterization and sorting of plant chromosomes

Summary Flow cytometric measurements of DNA frequency distribution were used to follow the synchronization process in suspension cells from Haplopappus gracilis (2n=4). Metaphase chromosomes were isolated from these synchronized cells and both the acro- and metacentric chromosomes were sorted by flow cytometry based on the different DNA contents. Possible applications of this procedure in fundamental genetics as well as practical plant breeding are discussed.     

A plant extract which enhances the plating efficiency of lymphoid cell lines and enhances the survival of normal lymphoid cells in vitro

A water soluble extract from the bark of the Samoan medicinal plantAlphitonia zizyphoides A. Gray (Rhamnaceae), enhances the plating efficiencyin vitro of lymphoid cell lines as well as the survival of bone marrow cells and normal T and B lymphocytes. Furthermore, the inclusion of bark-extract into culture media enhances the cloning efficiency of a T-hybridoma cell line by more than 30 times at otherwise unsuitably low serum concentrations, but does not completely substitute for serum. The enhanced growth of a B-cell hybridoma is also paralleled by an increased production of monoclonal antibodies in cultures containing low cell densities.Abbreviations AZH/w water extract ofAlphitonia zizyphoides - AZH/c sugar-free fraction of the same extract - CM complete medium - FCS fetal calf serum - NMR nuclear magnetic resonance - PBS phosphate buffered saline - SEM standard error of the mean - TLC thin layer chromatography     

Factors promoting the establishment of primary cultures of liver cells fromXenopus larvae

Summary The requirements for establishment and survival of primary cultures of larval amphibian liver cells were investigated.Plating efficiency was found to be enhanced by a collagen substrate, by diluted conditioned medium from an adultXenopus kidney cell line and by high initial cell densities. Plating efficiency was highest at a tonicity of 165–220 mOsm/kg. In cultures with undiluted conditioned medium the increase in cell number was 50–60% greater than in controls, where it was about 2-fold between day 3 and 6 of culture. Conditioned medium from theXenopus kidney cell line is assumed to contain at least two components, which are effective at different concentrations and stimulate either plating efficiency and cell aggregation or cell proliferation.In cultures without collagen sheets, cell flattening is greatly reduced, indicating that cell shape is also dependent upon the substrate.     

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.     

Efficient isolation of non-chimeric tetraploids artificially induced in a stable culture of Haplopappus gracilis

A method for reducing cytochimerism and inducing homogeneous tetraploids in Haplopappus gracilis (2n = 4) was developed in which masses of shoot primordia treated with 0.5 mg/ml of colcemid for 3 days were cut into small meristematic domes. All of the shoot primordia sampled just after the colcemid treatment were cytochimeras that were mixoploids of 2x, 4x and 8x cells. However, when they were allowed to recover in a colcemid-free medium, the frequency of 4x cells spontaneously increased in most of the shoot primordia. Thirty days after the recovery, chimeric masses containing shoot primordia, each of which consisted uniformly of 4x or 2x cells, were observed. In order to obtain a completely homogeneous tetraploid mass, we then cut these primordia into small pieces, each of which had approximately one meristematic dome. Subsequent to this homogeneous tetraploid masses were easily obtained. Tetraploid shoot primordia could propagate with chromosomal stability over a year, and plants regenerated from these tetraploid shoot primordia were also completely tetraploid. These results show that non-chrimeric masses can be easily isolated from artificially induced cytochimeras using masses of shoot primordia as material.     

Protein kinase activities in the growth cycle of suspension cultured plant cells

In batch suspension cultures of Nicotiana tabacum and Datura innoxia protein kinase activity extracted from the whole cells and assayed with casein as substrate was followed over the growth cycle. In one case (N. tabacum) the activity was also determined in the nuclei preparation obtained from the suspension cultured cells. Immediately at the onset of the growth curve the protein kinase level increases strongly and reaches a maximum value at the early phase of proliferation; the enzyme level from the nuclei is slightly delayed. A comparison with protein synthesis shows that protein kinases are among the first proteins synthesized in the growth cycle. Chromatographic separation of the enzymes contributing to the total activity revealed that both in the extract of whole cells and in the nuclei two enzyme species are present. Their time course is similar to that of the total protein kinase level, although the activity corresponding to the enzyme with the higher molecular weight in the case of the whole cell extract is slightly delayed. The possible significance of protein phosphorylation in the growth cycle is discussed.     

Studies on plating efficiency and estimation of viability of suspensions of Paracoccidioides brasiliensis yeast cells

Mild sonication was used to obtain single cell suspensions of Paracoccidioides brasiliensis. These cells were intact by microscopic criteria. Direct cell counts in a given inoculum and colony formation on various media were used to determine plating efficiency. Sonicated and nonsonicated cell suspensions were used to study plating efficiency and to estimate viability by means of vital dyes. Methylene blue, Erythrosin B, and Janus green were unreliable when used with P. brasiliensis, but vital dyes were accurate when tested with Candida albicans.Acridine orange gave more meaningful results of viability. Estimates of viability, however, changed significantly as a result of relatively minor alterations in the composition of the suspending medium.In initial experiments, the plating efficiency of P. brasiliensis was dismally low. It descended abruptly with increasing dilution of inoculum. Efficiency was much improved if horse serum was added to brain heart infusion plates or if glucose glycine yeast extract (GGY) plates were incubated at room temperature and mycelial colonies were counted. With the technique we report, current plating efficiency of sonicated suspensions is of the order of 25 %. Our results and procedures have an important bearing upon those studies concerned with in vitro killing of P. brasiliensis in suspensions or with isolating this fungus from clinical or environmental specimens.     

Density-dependent natural selection does not increase efficiency

Summary Populations ofDrosophila melanogaster kept at high population density (K-selected) for 125 generations have higher larval viability than populations kept at low densities (r-selected) when both are raised under crowded conditions. In additionK-selected adults that emerge from crowded cultures are larger than theirr-selected counterparts. These differences cannot be explained by differences in efficiency of food use. The minimum food required for successful pupation is actually greater in theK-selected populations. I conjecture that there may be a trade-off between minimum food requirements and competitive ability, which has changed substantially in theK-selected populations. The possibility thatK-selected larvae can dig more more deeply and gain access to unused food is examined and rejected as a possible explanation of the viability differences. Evidence is provided supporting the hypothesis that the differences in viability may be due to an increased tendency of theK-selected larvae to pupate off the surface of the medium.     

Arsenate as a potential negative selection agent for deficiency variants in cultured plant cells

Sodium arsenate is toxic to cultured soybean [Glycine max (L.) Merr.] cells, killing virtually 100% of the cells during a 24-h exposure at a 1–2 mM concentration. However, when growth is previously halted by nitrogen deprivation 50–100% of the cells survive arsenate treatment. Because of this growthdependent toxicity, arsenate has promise as a negative selection agent for cultured plant cells. Using arsenate (2 mM) I was able to select from among 2×10⁷ cells a cell line with a growth requirement for an amino acid mixture. This trait was maintained through 9 months of passage but then was lost.     

Turgor pressure and water transport properties of suspension-cultured cells of Chenopodium rubrum L.

The turgor pressure and water relation parameters were determined in single photoautotrophically grown suspension cells and in individual cells of intact leaves of Chenopodium rubrum using the miniaturized pressure probe. The stationary turgor pressure in suspension-cultured cells was in the range of betwen 3 and 5 bar. From the turgor pressure relaxation process, induced either hydrostatically (by means of the pressure probe) or osmotically, the halftime of water exchange was estimated to be 20±10 s. No polarity was observed for both ex- and endosmotic water flow. The volumetric elastic modulus, , determined from measurements of turgor pressure changes, and the corresponding changes in the fractional cell volume was determined to be in the range of between 20 and 50 bar. increases with increasing turgor pressure as observed for other higher plant and algal cells. The hydraulic conductivity, Lp, is calculated to be about 0,5–2·10^–6 cm s^–1 bar^–1. Similar results were obtained for individual leaf cells of Ch. rubrum. Suspension cells immobilized in a cross-linked matrix of alginate (6 to 8% w/w) revealed the same values for the half-time of water exchange and for the hydraulic conductivity, Lp, provided that the turgor pressure relaxation process was generated hydrostatically by means of the pressure probe. Thus, it can be concluded that the unstirred layer from the immobilized matrix has no effect on the calculation of Lp from the turgor pressure relaxation process, using the water transport equation derived for a single cell surrounded by a large external volume. By analogy, this also holds true for Lp-values derived from turgor pressure changes generated by the pressure probe in a single cell within the leaf tissue. The fair similarity between the Lp-values measured in mesophyll cells in situ and mesophyll-like suspension cells suggests that the water transport relations of a cell within a leaf are not fundamentally different from those measured in a single cell.     

Secretion and membrane recycling in plant cells: novel intermediary structures visualized in ultrarapidly frozen sycamore and carrot suspension-culture cells

Freeze-fracture electron microscopy of propane-jet-frozen samples has been employed to investigate vesicle-mediated secretion and membrane recycling events in carrot (Daucus carota L.) and sycamore maple (Acer pseudoplatanus L.) suspension-culture cells. Stabilization of the cells by means of ultrarapid freezing has enabled us to preserve the cells in a turgid state and to visualize new intermediate membrane configurations related to these events. Indeed, many of the observed membrane configurations, such as flattened membrane vesicles with slit-shaped membrane fusion sites and horseshoe-shaped membrane infoldings, appear to result from the action of turgor forces on the plasma membrane. Individual cells exhibited great variations in numbers and types of membrane configurations postulated to be related to secretion and membrane-recycling events. In the majority of cells, the different membrane profiles displayed a patchy distribution, and within each patch the membrane configurations tended to be of the same stage. This result indicates that secretory events are triggered in domains measuring from 0.1 to about 10 μm in diameter. Based on an extensive analysis of the different membrane configurations seen in our samples, we have formulated the following model of vesicle-mediated secretion in plant cells: Fusion of a secretory vesicle with the plasma membrane leads to the formation of a single, narrow-necked pore that increases in diameter up to about 60 nm. During discharge, the vesicle is flattened, forming a disc-shaped structure perpendicular to the plane of the plasma membrane. As the vesicle is flattened, the pore is converted to a slit, the maximum length of which coincides with the diameter of the flattened vesicle. The flattened vesicle then tips over and concomitantly the plasma-membrane slit becomes curved into a horseshoe-shaped configuration as it extends along the outer margins of the tipped-over vesicle. Some coated pits are present interspersed between the above-mentioned structures, but their numbers appear insufficient to account for an exclusively endocytotic mechanism of membrane recycling. Instead, our micrographs are more consistent with a mixed mode of recycling of membrane components to the cortical endoplamic reticulum and to Golgi cisternae that involves both internalization of membrane by endocytosis and of individual lippid molecules by unknown mechanisms (lipid exchange proteins?). To this end, overall flattening out of the horseshoe-shaped membrane infoldings is accompanied by a retraction and reduction in size of their central, tongue-like structure.     

Plant regeneration from a cryopreserved embryogenic cell suspension of a commercial sugarcane hybrid (Saccharum sp.)

Efficient plant regeneration was obtained from a cryopreserved embryogenic cell suspension of sugarcane established from leaf derived callus. Pregrowing the cells for three days in MS basal medium supplemented with 0.33 M sorbitol was essential to the process. The cells were cooled at a rate of 0.5°C/min to –40°C and then stored in liquid nitrogen. Thawing was carried out rapidly in water at +40°C, and the cells were then plated without washing onto filter paper discs placed on a semi-solid regeneration medium (MS basal + 3% sucrose + 0.13 mg/1 2,4-D +0.25 mg/1 BAP + 0.25 mg/1 kinetin + 0.25 mg/1 zeatin). The filter paper discs, along with the cells, were transferred to the same, fresh medium after five hours. After 24 hours the cells were scraped off, placed on fresh semi-solid medium and incubated at 28°C in the dark for two weeks before transfer to light. A regeneration efficiency of 92% was obtained (regenerated plants, expressed as a percent of unfrozen control). Plants regenerated from cryopreserved cells, and grown to maturity in the greenhouse, were morphologically identical to regenerated control plants.Abbreviations DMSO dimethyl sulfoxide - PEG polyethylene glycol - 2,4-D 2,4-dichlorophenoxyacetic acid - BAP benzyl aminopurine - TTC 2,3,5-triphenyl tetrazolium chloride     

Tissue-specific antigens secreted by suspension-cultured callus cells of Prunus avium L.

A number of antigenic components are secreted into the medium by P. avium callus cells derived from different tissues and grown in suspension culture. These antigens have been detected using antiserum raised in rabbits to a protein fraction secreted by P. avium leaf callus. One antigen is specific to leaf tissue and is secreted by callus cells derived from stem, pistil and anthers as well as leaves. A second antigen is, in intact organs, restricted to styles of a particular self-incompatibility (S) genotype, but is also secreted by callus cells derived from the leaf. Another antigen, apparently not organ-specific, is secreted by all calli tested, including Rosa (cv. Paul's Scarlet).     

Modulation of the number of membrane-bound auxin-binding sites during the growth of batch-cultured tobacco cells

We studied the modulation of the number of membrane-bound naphthaleneacetic acid (NAA)-binding sites during the growth cycle of tobacco cells in batch culture. Both cell number and specific NAA-binding increased exponentially, but at different rates and for different periods. This caused a characteristic modulation of the number of binding sites per cell during the growth cycle: During the first day of the lag phase this number decreased; in the exponential phase it rose markedly, and in the stationary phase it was constant.Abbreviations MES 4-morpholinoethanesulphonic acid - NAA 1-naphthaleneacetic acid     

Biosynthesis of cell-wall polysaccharides in cultured carrot cells

Biosynthesis of the cell wall in carrot cells (Daucus carota L.) cultured in a synthetic liquid medium was studied by measuring the incorporation of radioactive glucose and myo-inositol (MI). When the cells were fed with [¹⁴C]glucose in the presence of 0.01% MI, the label soon appeared in the neutral sugars in the cell wall but little radioactivity was found in the uronic-acid residues even after a prolonged incubation. On the other hand, radioactivity derived from [³H]MI was found to be distributed among uronic acids and pentoses but not in the hexose residues in the wall. The data indicate that MI is an important intermediate for the synthesis of acidic sugars in the wall of cultured carrot cells.Abbreviation MI myo-inositol     

Amino-acid transport in suspension-cultured plant cells

The carrier system which transports L-leucine (L-leu) into suspension-culturedNicotiana tabacum L. cv. Wisconsin 38 cells appeared to be constitutive since it was always present and was not induced by L-leu even in nitrogen-starved cells. However, L-leu uptake rates for cells grown in medium containing L-leu were transiently reduced as a result of either transinhibition or repression. Growth-phase cells appeared to have more L-leu carriers per unit area of membrane than stationary-phase cells, and for this reason growing-phase cells exhibit higher L-leu uptake rates. These higher rates reflect a physiological or developmental condition since growth-phase cells did not dramatically change their L-leu uptake rates when subcultured, while stationary-phase cells doubled their rates within 6 h after being subcultured. Cells grown in a medium lacking a useable carbon souce had uptake rates higher than control rates for several days. These higher rates peaked after about 1 d and then decreased over the next several days. Cells grown in a medium lacking a nitrogen souce responded similarly except that the increased rates peaked after about 3 d and persisted longer. Kinetic analysis of uptake rates in cells grown without a carbon souce for 1 d or without a nitrogen souce for 3 d indicated that the L-leu carrier had K_ms similar to those of untreated cells. These results indicate that cultured tobacco cells respond to their environment by increasing or decreasing the number or activity of kinetically similar L-leu carriers.Abbreviations L and S medium Linsmaier and Skoog (1965) medium with additions - L-leu L-leucineIV=McDaniel et al. 1981