Selective transfer of fungal cytoplasmic genetic elements by protoplast fusion

An anucleate small-protoplast fraction was prepared from a respiratory-competentSaccharomyces cerevisiae strain carrying mitochondrially inherited resistance to erythromycin, and used to transfer mitochondria selectively. Polyethylene glycol and Ca²⁺ were applied to induce fusion between these small protoplasts and nucleus-containing protoplasts of a respiratory-deficient ρ° mutant derived from an adenine-requiring strain of the same species. The majority of fusion products were haploid and erythromycin resistant, containing the nucleus of the recipient adenine-requiring strain and the mitochondrial genome from the respiratory-competent donor cells. Selective transfer of mitochondria and other cytoplasmic genetic elements also seems possible in a wide variety of fungal and other cells.     

Facilitated protoplasting in certain auxotrophic mutants of Corynebacterium glutamicum

Summary Auxotrophic mutants of Corynebacterium glutamicum strain ATCC 13 059 showed considerable variation in their ability to form protoplasts when treated with lysozyme and ethylene-diaminetetraacetic acid (EDTA) following growth in nutrient medium containing up to 2% glycine. The proportion of protoplasts formed by the parent strain was normally 10 to 15% whereas certain amino-acid auxotrophs formed protoplasts at much higher frequencies (>95%). There was no obvious correlation between the presence of specific auxotrophic markers or the number of rounds of mutagenesis and protoplasting ability. Strains which were most readily protoplasted were morphologically distinct from other auxotrophs and the parent strain but were similar to the parent strain in their sensitivity to lysozyme. However, isoleucine auxotrophs were more sensitive to penicillin G. All strains produced osmotically sensitive cells (lysed by dilution in water) after growth in glycine-containing media and lysozyme-EDTA treatment. These damaged cells could be distinguished from true protoplasts by their ability to recover on osmotically non-protective media if diluted in high osmotic pressure buffers. Protoplasts were regenerated on an osmotically protective medium (ET) in 48 to 72 h, at frequencies averaging 50–60%.     

Isolation of somatic hybrids by cloning Nicotiana heterokaryons in nurse cultures

Fusion of Nicotiana knightiana Goodsp. and kanamycin resistant Nicotiana sylvestris Speg. et Com. protoplasts was induced by polyethylene glycol treatment. Heterokaryons were isolated by micropipette and transferred to nurse cultures of albino cells. Colonies originating from the heterokaryons could subsequently be distinguished by their green colour. The somatic hybrid nature of four such colonies was confirmed by isoenzyme pattern, kanamycin resistance and restored morphogenic potential. An additional kanamycin resistant line with characteristic Nicotiana knightiana isoenzymes was also found indicating that the drug resistance in the kanamycin resistant parent is under cytoplasmic control.Abbreviations ADH alcohol dehydrogenase - Nk Nicotiana knightiana     

Stabilization of cortical microtubules by the cell wall in cultured tobacco cells

Cortical microtubules (MTs) in protoplasts prepared from tobacco (Nicotiana tabacum L.) BY-2 cells were found to be sensitive to cold. However, as the protoplasts regenerated cell walls they became resistant to cold, indicating that the cell wall stabilizes cortical MTs against the effects of cold. Since poly-l-lysine was found to stabilize MTs in protoplasts, we examined extensin, an important polycationic component of the cell wall, and found it also to be effective in stabilizing the MTs of protoplasts. Both extensin isolated from culture filtrates of tobacco BY-2 cells and extensin isolated in a similar way from cultures of tobacco XD-6S cells rendered the cortical MTs in protoplasts resistant to cold. Extensin at 0.1 mg·ml⁻¹ was as effective as the cell wall in this respect. It is probable that extensin in the cell wall plays an important role in stabilizing cortical MTs in tobacco BY-2 cells.     

Temperature-sensitive murein synthesis in an Escherichia coli pdx mutant and the role of alanine racemase

The basis for disruption of morphogenesis by depletion of pyridoxine derivatives was studied using a pdxH null mutant of Escherichia coli K-12. Removal of pyridoxal from growing cultures severely inhibited murein synthesis in vivo, whereas simultaneous supplementation with d-alanine effectively prevented inhibition. Extractable alanine racemase was low following such starvation. Selection of mutants overcoming the glycine- or temperature-sensitivity imposed by pyridoxine limitation yielded a variety of phenotypes. The most effective of these extragenic suppressors conferred an elevated alanine racemase activity which was resistant to the effects of pyridoxal removal.Abbreviations Gly^s glycine-sensitive phenotype - Ts temperature-sensitive phenotype - DAP 2,6-diaminopimelic acid - SDS sodium dodecylsulfate     

Responses of cells and protoplasts of Coffea arabica genotypes to partially purified culture filtrates produced by Colletotrichum kahawae

Hypocotyl-derived calli of genotypes and segregating populations of Coffea arabica, differing in susceptibility to Colletotrichum kahawae, were used to produce cell suspensions and protoplasts which were exposed to partially purified culture filtrates (PPCFs) prepared from the pathogen. The growth and viability of PPCF-treated cells and protoplasts were measured using packed cell volume, fluorescein diacetate staining and a colorimetric assay involving the tetrazolium salt MTT. Differential responses of cells and protoplasts were influenced by genotype, time of exposure and PPCF concentration. Protoplasts of resistant genotypes responded differentially from more susceptible genotypes as early as 4 h after challenge with the phytotoxin, suggesting that they were more sensitive than cell suspensions to the treatments. Protoplasts exposed to PPCFs from C. kahawae may therefore be used to screen and select genotypes resistant to, or tolerant of, coffee berry disease. Received: 10 April 1996 / Revision received: 25 August 1996 / Accepted: 15 September 1996     

Interactions of Cowpea Mosaic Virus with Cowpea Protoplasts1)

The capability of cowpea mosaic virus to attach to and infect protoplasts of immune, hypersensitive, and susceptible cowpea (Vigna unguiculata) lines was examined by inoculating protoplasts with either purified virus or radioiodinated purified virus ¹²⁵I-CPMV. Systems were used in which plants were immune and protoplasts susceptible, plants were immune and protoplasts resistant, and plants and protoplasts were susceptible to CPMV. No differences were observed in the attachment of ¹²⁵I-CPMV to resistant and susceptible protoplasts. Polycations, proteins, or virus particles were added to the inoculation medium to neutralize potential nonspecific interactions between cells and virus particles. The various additives induced quantitative differences in binding of virus particles to protoplasts.     

Conditions that affect binding of DNA by cultured plant cells and protoplasts: An autoradiographic analysis

Summary The binding of the¹⁴C-labelledSalmonella typhimurium DNA or³H-labelled soybean SB-1 DNA to cultured soybean cells (Glycine max L. Merr.) (SB-1) could be increased at least 100-fold by choosing the proper incubation conditions. The uptake of DNA by cells could completely be inhibited by the addition of an excess of unlabelled thymidine, indicating that the observed uptake of DNA by cells most probably is simply uptake of DNA degradation products. Autoradiograms, prepared from SB-1 protoplasts that were previously incubated with DNA, showed that the DNA was not associated with the protoplasts, but only with aggregates of cell wall material contaminating the protoplast preparation. When protoplasts and DNA were incubated in the presence of DEAE-dextran, the amount of DNAse resistant radioactivity increased 40 times. Again, the autoradiograms showed that most if not all DNAse-resistant material was associated with cell wall materials. Our observation that it is cell wall contaminants in protoplast preparations which account for most of the DNA binding demonstrates the need for caution in interpreting experiments on the binding and uptake of DNA by plant protoplasts.NRCC No. 16353.     

Molecular analysis of the nuclear organellar genotype of somatic hybrid plants between tomato (Lycopersicon esculentum) and Lycopersicon chilense

Summary Somatic hybrid plants were recovered following fusion of leaf mesophyll protoplasts isolated from tomato (Lycopersicon esculentum) cultivar UC82 with protoplasts isolated from suspension cultured cells of L. chilense, LA 1959. Iodoacetate was used to select against the growth of unfused tomato protoplasts. Two somatic hybrids were recovered in a population of 16 regenerants. No tomato regenerants were recovered; all of the non-hybrid regenerants were L. chilense. The L. chilense protoplast regenerants were tetraploid. The hybrid nature of the plants was verified using species-specific restriction fragment length polymorphisms for the nuclear, chloroplast and mitochondrial genomes. The somatic hybrids had inherited the chloroplast DNA of the tomato parent, and portions of the mitochondrial DNA of the L. chilense parent. The somatic hybrids formed flowers and developed seedless fruit.     

Predominant localization of mitochondria enriched with glycine-decarboxylating enzymes in bundle sheath cells of Alternanthera tenella, a C3–C4 intermediate species

Mesophyll protoplasts and bundle sheath cells were prepared by enzymatic digestion of leaves of Alternanthera tenella, a C₃-C₄ intermediate species. The intercellular distribution of selected photosynthetic, photorespiratory and respiratory (mitochondrial) enzymes in these meso-phyll and bundle sheath cells was studied. The activity levels of photosynthetic enzymes such as PEP carboxylase (EC 4.1.1.31) or NAD-malic enzyme (EC 1.1.1.39) and photorespiratory enzymes such as glycolate oxidase (EC 1.1.3.1) or NADH-hydroxypyruvate reductase (EC 1.1.1.29) were similar in the two cell types. The activity levels of mitochondrial TCA cycle enzymes such as citrate synthase (EC 4.1.3.7) or fumarase (EC 4.2.1.2) were 2- to 3-fold higher in bundle sheath cells. On the other hand, the activity levels of mitochondrial photorespiratory enzymes, namely glycine decarboxylase (EC 2.1.2.10) and serine hydroxymethyltransferase (EC 2.1.2.1), were 6-9-fold higher in bundle sheath cells than in mesophyll protoplasts. Such preferential localization of mitochondria enriched with the glycine-decarboxylating system in the inner bundle sheath cells would result in efficient refixa-tion of CO₂ from not only photorespiration but also dark respiration before its exit from the leaf. We propose that predominant localization of mitochondria specialized in glycine decarboxylation in bundle sheath cells may form the basis of reduced photorespiration in this C₃-C₄ intermediate species.     

Transmission of organelles in triploid hybrids produced by gametosomatic fusions of two Nicotiana species

Summary Gametosomatic hybrids produced by the fusion of microspore protoplasts of Nicotiana tabacum Km⁺Sr⁺ with somatic cell protoplasts of N. rustica were analysed for their organelle composition. For the analysis of mitochondrial (mt)DNA, species-specific patterns were generated by Southern hybridization of restriction endonuclease digests of total DNA and mtDNA with four DNA probes of mitochondrial origin: cytochrome oxidase subunit I, cytochrome oxidase subunit II, 26s rDNA and 5s-18s rDNA. Of the 22 hybrids analyzed, some had parental-type pattern for some probes and novel-type for the others, indicating interaction between mtDNA of the two parent species. For chloroplast (cp)DNA analysis, species-specific patterns were generated by Southern hybridization of restriction endonuclease digests of total DNA with large subunits of ribulose bisphosphate carboxylase and cpDNA as probes. All the hybrids had N. rustica-specific patterns. Hybrids were not resistant to streptomycin, a trait encoded by the chloroplast genome of N. tabacum. In gametosomatic fusions of the two Nicotiana species, mitochondria but not the chloroplasts are transmitted from the parent contributing microspore protoplasts.     

Transmission of organelle genomes in citrus somatic hybrids

Restriction fragment length polymorphisms (RFLPs), were used to analyze the organelle composition of two-year-old trees, recovered from two different experiments: protoplasts from embryogenic cell suspensions of `Succari' sweet orange (C. sinensis L. Osbeck) were fused with leaf protoplasts of Citropsis gilletiana Swingle & M. Kell or to leaf protoplasts of Atalantia ceylanica(Arn.) Oliv. The somatic hybrids of both fusion combinations had the mitochondrial genome from the embryogenic partner. In some somatic hybrids, non-parental fragments were observed among the mitochondrial patterns. Somatic hybrids between `Succari' + Atalantia had plastid DNA from the embryogenic parent, while the somatic hybrids of `Succari' + Citropsis all had both parental chloroplast genomes. The relative abundance of organelle DNAs in the donor embryogenic and leaf cells may explain the consistent transmission of the embryogenic parent mitochondrial DNA and the inheritance of the chloroplast genome from either parent. This revised version was published online in June 2006 with corrections to the Cover Date.     

Production and analysis of asymmetric hybrid plants between monocotyledon (Oryza sativa L.) and dicotyledon (Daucus carota L.)

Asymmetric hybrid plants were obtained from fused protoplasts of a monocotyledon (Oryza sativa L.) and a dicotyledon (Daucus carota L.). X-ray-irradiated protoplasts isolated from a cytoplasmic malesterile (cms) carrot suspension culture were fused with iodoacetoamide-treated protoplasts isolated from a 5-methyltryptophan (5MT)-resistant rice suspension culture by electrofusion. The complementary recovered cells divided and formed colonies, which were then cultivated on regeneration medium supplemented with 25mg/l 5MT to eliminate any escaped carrot cells. Somatic hybrids were regenerated from 5 of the 5MT-resistant colonies. The morphologies of most of the regenerated plants closely resembled that of the parental carrot plants. A cytological analysis of callus cultures induced from these plants indicated that most of the cells possessed 20–22 chromosomes and were resistant to 5MT. An isozyme analysis revealed that several regenerated plants had the peroxidase isozyme patterns of both parents. A Southern hybridization analysis with non-radioactively labelled DNA fragments of the rgp1 gene showed that regenerated plants had hybridizing bands from both rice and carrot. Chloroplast (cp) and mitochondrial (mt) DNAs were also analyzed by Southern hybridization by using several probes. CpDNA patterns of the regenerated plants were indistinguishable from those of the carrot parent. However 1 of the regenerated plants had a novel band pattern of mtDNA that was not detected in either of the parents, indicating a possible recombination of mitochondrial genomes.     

Mutant with diphtheria toxin receptor and acidification function but defective in entry of toxin

A mutant of Chinese hamster ovary cells, GE1, that is highly resistant to diphtheria toxin was isolated. The mutant contains 50% ADP-ribosylatable elongation factor 2, but its protein synthesis was not inhibited by the toxin even at concentrations above 100 μg/ml. ¹²⁵I-labeled diphtheria toxin was associated with GE1 cells as well as with the parent cells but did not block protein synthesis of GE1 cells even when the cells were exposed to low pH in the presence or absence of NH₄Cl. The infections of GE1 cells and the parent cells by vesicular stomatitis virus were similar. GE1 cells were cross-resistant to Pseudomonas aeruginosa exotoxin A and so were about 1000 times more resistant to this toxin than the parent cells. Hybrids of GE1 cells and the parent cells or mutant cells lacking a functional receptor were more sensitive to diphtheria toxin than GE1 cells. These results suggest that entry of diphtheria toxin into cells requires a cellular factor(s) in addition to those involved in receptor function and acidification of endosomes and that GE1 cells do not express this cellular factor. This character is recessive in GE1 cells.     

A nystatin-resistant mutant of Saccharomyces cerevisiae: isolation and characterization by electron microscopy and chemical analysis of whole cells, cell-walls and protoplasts

A mutant of Saccharomyces cerevisiae NCYC 239 with a high minimum inhibitory concentration (35 micrograms ml-1) for nystatin, compared to that of the parent strain (2 micrograms ml-1), was derived by a series of subcultures in media containing increasing antibiotic concentrations. In the absence of nystatin, the growth rate of the mutant was significantly lower than the parent strain, although mean cell-size and size-distribution were similar. No differences between strains were detectable by electron microscopy. Analysis of whole cells showed the total sterol present and the ratio of ergosterol:24(28)dehydroergosterol was similar. However, there were marked differences in amino acid content and chain-length of fatty acids in the cell wall, and protoplasts from resistant cells had decreased amounts of unsaturated fatty acids. It is suggested that alterations in cell wall components in the mutant may be directly linked to the mechanism of nystatin resistance.     

Transport by reconstituted lactose carrier from parental and mutant strains ofEscherichia coli

Summary The lactose transport carrier from parental (X71/F'W3747) and mutant cells (54/F'5441) was reconstituted into proteoliposomes. Transport by the counterflow assay showed slightly greater activity in proteoliposomes prepared from extracts of the mutant membranes compared with that for the parental cell. The mutant carrier showed a threefold lowerK _m but similarV _max compared to the parent. On the other hand proteoliposomes from the mutant showed a defect in protonmotive force-driven accumulation, compared with the parent. With a pH gradient (inside alkaline) plus a membrane potential (inside negative) the parental proteoliposomes accumulated lactose 25-fold over the medium concentration while the mutant proteoliposomes accumulated sixfold. In a series of experiments proteoliposomes were exposed to proteolytic enzymes. Chrymotrypsin treatment resulted in 30% inhibition of counterflow activity for the reconstituted carrier from both parent and mutant. Papain produced 84% inhibition of transport by the reconstituted parental carrier but only 41% of that of the mutant. Trypsin and carboxypeptidase Y treatment had no effect on counterflow activity of either parent or mutant. Exposure of purified lactose carrier in proteoliposomes to carboxypeptidase Y resulted in the release of alanine and valine, the two C-terminal amino acids predicted from the DNA sequence.     

Somatic hybridization in the gramineae: Pennisetum americanum (L.) K. Schum. (Pearl millet) +Panicum maximum Jacq. (Guinea grass)

Summary Protoplasts from Pennisetum americanum resistant to S-2-amino-ethyl-l-cysteine (AEC) were fused with protoplasts of Panicum maximum utilizing polyethylene glycol-dimethylsulfoxide after inactivation of the Pennisetum protoplasts with 1 mM iodoacetic acid. The iodoacetate treatment prevented division of Pennisetum protoplasts; therefore, only Panicum protoplasts and heterokaryons potentially could give rise to colonies. A second level of selection was imposed by plating 3–4-week-old colonies on AEC medium. Putative somatic hybrid calli were analyzed for alcohol dehydrogenase, 6-phosphogluconate dehydrogenase, aminopeptidase, and shikimate dehydrogenase isozymes. Three somatic hybrid cell lines (lines 2, 3, and 67) were identified which showed two bands of alcohol dehydrogenase activity representing homodimers of P. maximum and P. americanum as well as a novel intermediate band of activity where Panicum-Pennisetum heterodimers would be expected. Aminopeptidase and shikimate dehydrogenase were useful for identifying presumptive hybrid calli but the isozyme patterns were additive-evidence which would not preclude the selection of chimeric callus. A more complex isozyme pattern which varied among the somatic hybrids was observed for 6-phosphogluconate dehydrogenase. In the hybrid calli, the presence of DNA sequences homologous to both P. maximum and P. americanum sequences was confirmed by hybridization of a maize ribosomal DNA probe to XbaI and EcoRI restriction fragments. Growth of hybrid lines on various concentrations of AEC was either similar to the AEC-resistant parent (hybrid line 2) or intermediate between the resistant and sensitive parents (hybrid lines 3, 67).     

Fusion-mediated transfer of triazine-resistant chloroplasts: Characterization of Nicotiana tabacum cybrid plants

Summary Terbutryn-resistant plastids of the Nicotiana plumbaginifolia TBR2 mutant were introduced into N. tabacum plants by protoplast fusion following X-irradiation of TBR2 protoplasts. The N. tabacum chloroplast recipient line, SR1-A15, carried mutant (albino) plastids. Following protoplast fusion, potential cybrid cell lines with an N. tabacum (SR1-A15) nucleus and N. plumbaginifolia (TBR2) chloroplasts were identified by their green color. The presence of TBR2 plastids in regenerated green N. tabacum plants was confirmed by hybridization with a chloroplast DNA probe and by the modified chloroplast fluorescence transients characteristic of the TBR2 mutant. Cybrid plants were resistant to high levels of atrazine (10 kg/ha). The protruding stigma and shorter than normal filaments of the cybrids resulted in male sterility. In the cybrids atrazine resistance was associated with reduced vigour, suggesting a causal relationship.     

Stomatal responses of Argenteum — a mutant of Pisum sativum L. with readily detachable leaf epidermis

Epidermis is easily detached from both adaxial and abaxial surfaces of leaf four of the Argenteum mutant of Pisum sativum L. The isolated epidermis has stomata with large, easily-measured pores. Hairs and glands are absent. The density of stomata is high and contamination by mesophyll cells is low. In the light and in CO₂-free air, stomata in isolated adaxial epidermis of Argenteum mutant opened maximally after 4 h incubation at 25°C. The response of stomata to light was dependent on the concentration of KCl in the incubation medium and was maximal at 50 mol m^-3 KCl. Stomata did not respond to exogenous kinetin, but apertures were reduced by incubation of epidermis on solutions containing between 10^-5 and 10^-1 mol m^-3 abscisic acid (ABA). The responses of stomata of Argenteum mutant to light, exogenous KCl, ABA and kinetin were comparable with those described previously for stomata in isolated epidermis of Commelina communis. A method for preparing viable protoplasts of guard cells from isolated epidermis of Argenteum mutant is described. The response of guard cell protoplasts to light, exogenous KCl, ABA and kinetin were similar to those of stomata in isolated epidermis except that the increase in volume of the protoplasts in response to light was maximal at a lower concentration of KCl (10 mol m^-3) and that protoplasts responded more rapidly to light than stomata in isolated epidermis. The protoplasts did not respond to exogenous kinetin, but when incubated for 1 h in the light and in CO₂-free air on a solution containing 10^-3 mol m^-3 ABA, they decreased in volume by 30%. The advantages of using epidermis from Argenteum mutant for experiments on stomatal movements are discussed.Abbreviations ABA abscisic acid - MES 2-(N-morpholino)ethanesulfonic acid