Establishment of embryogenic callus and high protoplast yielding suspension cultures of sugarcane (Saccharum spp. hybrids)

For 18 sugarcane cultivars, four distinct callus types developed on leaf explant tissue cultured on modified MS medium, but only Type 3 (embryogenic) and Type 4 (organogenic) were capable of plant regeneration. Cell suspension cultures were initiated from embryogenic callus incubated in a liquid medium. In stage one the callus adapted to the liquid medium. In stage two a heterogeneous cell suspension culture formed in 14 cultivars after five to eight weeks of culture. In stage three a homogeneous cell suspension culture was developed in six cultivars after 10 to 14 weeks by selective subculturing to increase the proportion of actively dividing cells from the heterogeneous cell suspension culture. Plants were regenerated from cell aggregates in heterogeneous cell suspension cultures for up to 148 days of culture but plants could not be regenerated from homogeneous cell suspension cultures. High yields of protoplasts were obtained from homogeneous cell suspension cultures (3.4 to 5.2 × 10⁶ protoplasts per gram fresh weight of cells [gfwt^-1]) compared to heterogeneous cell suspension cultures (0.1 × 10⁶ protoplasts gfwt^-1). Higher yields of protoplasts were obtained from homogeneous cell suspension cultures for cultivars Q63 and Q96 after regenerating callus from the cell suspension cultures, then recycling this callus to liquid medium (S-cell suspension cultures). This process increased protoplast yield to 9.4 × 10⁶ protoplasts gfwt^-1. Protoplasts isolated from S-cell suspension cultures were regenerated to callus and recycled to produce SP-cell suspension cultures yielding 6.4 to 13.2 × 10⁶ protoplasts gfwt^-1. This recycling of callus to produce S-cell suspension cultures allowed protoplasts to be isolated for the first time from cell lines of cultivars Q110 and Q138.     

Transformation of wheat (Triticum aestivum L.) through electroporation of protoplasts

Protoplasts isolated from embryogenic suspension cultures of wheat (Triticum aestivum cv. Hartog) were electroporated in the presence of plasmid pEmuGN and/or pEmuPAT, which contained the reporter gene gus and selectable marker gene bar, respectively. Under optimised electroporation conditions, up to 0.9% of viable protoplasts displayed gus activity two days after electroporation. To select for phosphinothricin (PPT) resistant colonies, electroporated protoplasts were incubated for six weeks in a medium containing 10 g/ml PPT. The cells surviving the selection were maintained as individual colonies on solid medium or as suspension cultures. More than 60% of these colonies exhibited tolerance to 40 g/ml PPT when tested 10 months after initial selection. To date, 57 green plants have been regenerated from these colonies and 24 have been transferred to soil. Southern blot analyses of colonies and plants, using the bar gene sequence as the probe, confirmed transformation of the cells. Positive PAT assays of both regenerated colonies and plants indicated the presence of the bar gene product. These results provide a basis for the establishment of routine procedures for transformation of wheat by direct gene transfer into protoplasts.Abbreviations gus -glucuronidase - PAT phosphinothricin N-acetyltransferase - PPT phosphinothricin - MS Murashige and Skoog medium     

Factors influencing <Emphasis Type="Italic">in vitro</Emphasis> regeneration from protoplasts of wild cotton (<Emphasis Type="Italic">G. klotzschianum</Emphasis> A) and RAPD analysis of regenerated plantlets

Plants of a diploid wild cotton species (G. klotzschianum A.) were efficiently regenerated from protoplasts isolated from immature somatic embryos and suspension cultures by studying various factors affecting regeneration. Purified protoplasts were cultured with the density of 2–10×10⁵ ml⁻¹, and the medium was k₃ inorganic salts with modified KM₈P organic compositions, supplemented with several combinations of PGRs. Calluses were formed from protoplasts of suspension cultures and immature somatic embryos. The influences of carbon sources and GA₃ on callus differentiation and somatic embryo germination were analyzed. Somatic embryos germinated normally and formed regenerated plantlets. Regenerated plantlets were transferred to the soil and seeds were obtained. Random amplified polymorphic DNA (RAPD) analysis using 80 arbitrary oligonucleotide 10-mers showed 23 primers that gave 74 clear reproducible bands, with amplification products being monomorphic for 14 tested plantlets. A total of 1036 bands obtained exhibited no aberration in RAPD banding patterns in the 14 plants. Plants regenerated via somatic embryogenesis from the diploid cotton protoplasts have genetic homogeneity.     

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.     

Production of somatic hybrids between Daucus carota L. and Nicotiana tabacum

Protoplasts of a kanamycin-resistant (KR, nuclear genome), streptomycin-resistant (SR, chloroplast genome) and chlorophyll-deficient (A1, nuclear genome) Nicotiana tabacum (KR-SA) cell suspension cultures or X-ray-irradiated mesophyll protoplasts of kanamycin- and streptomycin-resistant green plants (KR-SR) were fused with protoplasts of a cytoplasmic male-sterile (CMS) Daucus carota L. cell suspension cultures by electrofusion. Somatic hybrid plants were selected for kanamycin resistance and the ability to produce chlorophyll. Most of the regenerated plants had a normal D. carota morphology. Callus induced from these plants possessed 23–32 chromosomes, a number lower than the combined chromosome number (66) of the parents, and were resistant to kanamycin, but they segregated for streptomycin resistance, which indicated that N. tabacum chloroplasts had been eliminated. Genomic DNA from several regenerated plants was analyzed by Southern hybridization for the presence of the neomycin phosphotransferase gene (NPTII); all of the plants analyzed were found to contain this gene. Mitochondrial (mt) DNA was analyzed by Southern hybridization of restriction endonuclease digests of mtDNA with two DNA probes, PKT5 and coxII. The results showed that the two plants analyzed possessed the mitochondria of D. carota. These results demonstrate that the regenerated plants are interfamilial somatic hybrids.     

Factors affecting transient gene expression in electroporated black spruce (Picea mariana) and jack pine (Pinus banksiana) protoplasts

Summary Methods were developed for transient gene expression in protoplasts of black spruce (Picea mariana) and jack pine (Pinus banksiana). Protoplasts were isolated from embryogenic suspension cultures of black spruce and from non-embryogenic suspensions of jack pine. Using electroporation, transient expression of the chloramphenicol acetyltransferase (CAT) gene was assayed and shown to be affected by the cell line used, by voltage, temperature, and by the plasmid concentration and conformation. Increasing the plasmid DNA concentration (0–150g ml^–1) resulted in higher levels of transient CAT expression. In jack pine, linearized plasmid gave 2.5 times higher levels of CAT enzyme activity than circular. Optimal voltage varied for each cell line of the two species within the range 200–350 V cm^–1 (960 F). A heat shock treatment of protoplasts for 5 min at 45 °C resulted in enhanced CAT gene expression for both species.NRCC No. 30491     

Competence for gene transfer by electroporation in a sub-population of protoplasts from uniform carrot cell suspension cultures

We have investigated the basis for increased transient reporter gene expression following electroporation of protoplasts from uniform carrot cell suspension cultures at increasing DNA concentrations. Use of a combination of histochemical and fluorometric GUS gene assays allowed differentiation between increases due to a higher proportion of expressing protoplasts and increases due to higher expression by each expressing protoplast. A plateau of 20–25% expressing protoplasts was reached by 50 g ml^–1 DNA but total expression continued to increase in direct proportion to applied DNA concentration up to at least 100 g ml^–1. This indicates the existence of a subpopulation of protoplasts competent for the uptake and expression of genes by electroporation.     

Somatic hybridization of sexually incompatible top-fruit tree rootstocks,wild pear (Pyrus communis var. pyraster L.) and Colt cherry (Prunus avium x pseudocerasus)

Summary Mesophyll protoplasts of wild pear (Pyrus communis var. pyraster L., Pomoideae) were chemically fused with cell suspension protoplasts of cherry rootstock Colt (Prunus avium x pseudocerasus, Prunoideae), following an electroporation treatment of the separate parental protoplast systems. Fusion-treated protoplasts were cultured, on modified K8P medium, where it had been previously established that neither parental protoplasts were capable of division. Somatic hybrid calli were recovered and, following caulogenesis on MS medium with zeatin and after rooting of regenerated shoots, complete trees were obtained and grown in vivo. Hybridity of these trees was confirmed based on morphological characters, chromosome complement and isozyme analysis. Two separate cloned lines of this intersubfamilial rootstock somatic hybrid (wild pear (+) Colt cherry) were produced. This is the first report of the production of somatic hybrid plants of two woody species, of agronomic value, within the order Rosales.     

Recovery of somatic embryos and plantlets from protoplast cultures of Larix × eurolepis

Summary Somatic embryos and plantlets were regenerated from protoplasts of hybrid larch (Larix × eurolepis) isolated from two embryogenic callus and cell suspension culture lines (L1 and L2). L2, which was highly embryogenic, consistently yielded protoplasts that gave rise to somatic embryos. Centrifugation on a discontinuous medium/Percoll density gradient resulted in accumulation of embryogenic protoplasts in one of the Percoll interfaces. First division frequencies were in the range of 28–39% in line 1 and 18–20% in line 2 in both liquid and agarose-solidified culture media. The critical factor in maintaining high viability of cultures was lowering of osmotic pressure by dilution of the initial medium. The first somatic embryos were detected in 23- to 28-day-old cultures. Some of these developed into plants that were transferred to soil.     

Isolation,culture, and regeneration of plants from potato protoplasts

A technique is described for the routine isolation of protoplasts from storage parenchyma cells of potato tubers grown in vitro. The protoplasts typically contained many starch grains. On culture, most of the starch grains were metabolised during the first 7 days, after which the cells began to divide. Following further culture, protoplast-derived colonies and calli were obtained, from which shoots and intact plants were regenerated. Cytological study of regenerated plants showed that the majority were octaploid or aneuploid at the octaploid level. This aspect is compared with plants regenerated from mesophyll protoplasts of potato. The use of tuber protoplasts for studies on tissue-specific transient gene expression of chimeric gene constructs, following their introduction into the protoplasts by electroporation, is discussed, together with the uses of tuber protoplasts in fundamental physiological and biochemical studies.     

Fertile indica and japonica rice plants regenerated from protoplasts isolated from embryogenic haploid suspension cultures

Summary A system to regenerate fertile rice (Oryza sativa L.) plants (both indica and japonica varieties) from protoplasts isolated from anther-derived embryogenic haploid suspension cultures has been established. Green plants were regenerated from protoplast-derived cell clusters five months after suspension culture initiation. Protoplast yields and subsequent growth of the protoplast-derived microcalli were enhanced by transferring suspension cells into AA medium (Muller et al. 1978) three to four days prior to protoplast isolation. Protoplasts were cultured initially in Kao medium (Kao et al. 1977) and in association with nurse cells for four weeks. Protoplast-derived microcalli were transferred onto N6 (Chu et al. 1975) or MS (Murashige and Skoog 1962) media for callus proliferation. Callus growth was more rapid and the calli were more enbryogenic when grown on N6 medium. The 2,4-D concentration used to develop the suspension culture was important. Cell cultures grown in medium containing 0.5 mg/l 2,4-D released protoplasts whose plating efficiency was higher than for protoplasts obtained from suspension cultures grown in 2.0 mg/l 2,4-D. However, suspension cells grown in 2.0 mg/l 2,4-D were superior with regard to the ability of protoplast-derived calli to regenerate green plants. Amongst several hormone treatments evaluated, a combination of 0.5 mg/l NAA + 5.0 mg/l BAP resulted in the largest number of green plants regenerated. There were no significant differences between BAP or kinetin regarding total number of plants regenerated. More than 200 green plants have been produced form six independently initiated suspension cell lines. The number of regenerated plants per 10⁶ protoplats plated anged from 0.4 to 20.0, and the average seed fertility of single panicles of these R_O plants was about 40%.     

Analysis of genetic stability of plants regenerated from suspension cultures and protoplasts of meadow fescue (Festuca pratensis Huds.)

A cytological and molecular analysis was performed to assess the genetic uniformity and true-to-type character of plants regenerated from 20 week-old embryogenic suspension cultures of meadow fescue (Festuca pratensis Huds.), and compared to protoplastderived plants obtained from the same cell suspension. Cytological variation was not observed in a representative sample of plants regenerated directly from the embryogenic suspensions and from protoplasts isolated therefrom. Similarly, no restriction fragment length polymorphisms (RFLPs) were detected in the mitochondrial, plastid and nuclear genomes in the plants analyzed. Randomly amplified polymorphic DNA markers (RAPDs) have been used to characterise molecularly a set of mature meadow fescue plants regenerated from these in vitro cultures. RAPD markers using 18 different short oligonucleotide primers of arbitrary nucleotide sequence in combination with polymerase chain reaction (PCR) allowed the detection of pre-existing polymorphisms in the donor genotypes, but failed to reveal newly generated variation in the protoplast-derived plants compared to their equivalent suspensionculture regenerated materials.The genetic stability of meadow fescue plants regenerated from suspension cultures and protoplasts isolated therefrom and its implications on gene transfer technology for this species are discussed.Abbreviations PCR polymerase chain reaction - RAPD random amplified polymorphic DNA - RFLP restriction fragment length polymorphism.     

Fertile plant regeneration from protoplasts of meadow fescue (Festuca pratensis Huds.)

Suspension cultures from mature embryo-derived compact callus were initiated in seven meadow fescue (Festuca pratensis Huds.) cultivars. Four to six months after initiation, embryogenic suspension cultures with a moderate growth rate were established from three of them (cvs. Barmondo, Belimo and Leopard). These suspension cultures showed the capacity, maintained over six months, to regenerate green plants which could be grown to maturity under greenhouse conditions.Morphogenic suspension cultures from single genotypes of three F. pratensis cultivars (cvs. Barmondo, Belimo and Leopard) yielded large numbers of protoplasts, which upon culture in agarose beads using nurse cells formed microcalli with an overall plating efficiency in the range of 10^-3 to 10^-4. Mature plants were reproducibly regenerated and established in soil, from such protoplasts during a period of six months. The regeneration of fertile plants from protoplasts derived from suspension cultures of meadow fescue and its implications on gene transfer technology for this species are discussed.Abbreviations 2,4-D 2,4-dichlorophenoxy-acetic acid.     

Regeneration of haploid and dihaploid plants from protoplasts of supersweet (sh2sh2) corn

Summary Plants were regenerated from maize (Zea mays L.) protoplasts isolated from embryogenic cell suspensions. The donor maize suspension cultures were established from friable callus initiated from microspores of a commercial supersweet hybrid (sh2sh2). The frequency of cell colony formation was higher when protoplasts were cultured on feeder layers of maize cells as compared with a liquid thin layer method. It was demonstrated that haploid and dihaploid soil-grown plants can be regenerated from maize protoplasts isolated from haploid cell cultures.     

Expression of green-fluorescent protein gene in sweet potato tissues

Green-fluorescent protein (GFP) gene expression, transient and stable after electroporation and particle bombardment, was analyzed in tissues of sweet potato cv.Beauregard. Leaf and petiole tissues were used for protoplast isolation and electroporation. After 48 h, approximately 25–30% of electroporated mesophyll cell protoplasts regenerated cell walls, and of these, 3% expressed GFP. Stable expression of GFP after four weeks of culture was observed in 1.0% of the initial GFP positive cells. In a separate experiment, we observed 600–700 loci expressing GFP 48 h after bombarding leaf tissue or embryogenic calli, and stable GFP-expressing sectors were seen in leaf-derived embryogenic calli after four weeks of protoplast culture without selection. These results demonstrate GFP gene expression in sweet potato tissues. Screening for GFP gene expression may prove useful to improve transformation efficiency and to facilitate detection of transformed sweet potato plants.     

The effects of promoter on transient expression in conifer cell lines

Summary Protoplasts from suspension cultures of somatic embryos of white spruce (Picea glauca Moench Voss) were electroporated with plasmids containing the chimeric genes for chloramphenicol acetyl transferase (CAT) or -glucuronidase (GUS), under control of one of three promoters. Transient CAT gene expression of approximately equal magnitude resulted when the CAT gene was fused to either the cauliflower mosaic virus (CaMV) 35S promoter or the nopaline synthase (NOS) promoter. When the CAT gene was fused to a tandem repeat CaMV 35S promoter (pPBI-363), CAT enzyme activity compared to NOS or 35S promoters increased up to eightfold (cell line WS-34), and were up to 100-fold greater than control (electroporated without plasmid). Comparatively, protoplasts of black spruce (Picea mariana Mill) and jack pine (Pinus banksiana Lamb.), electroporated with pPBI-363, produced increases in CAT activity compared to control of 90-fold and 70-fold, respectively. White spruce (WS-34) protoplasts were subsequently electroporated with the GUS gene fused to the tandem repeat CaMV 35S promoter. Comparatively, GUS enzyme activity increased up to tenfold compared to GUS fused to a CaMV 35S promoter. The results indicated that transient expression of the CAT and GUS genes was influenced by the type of promoter and cell line used, as well as by electroporation conditions.NRCC No. 30498     

Electric field mediated stable transformation of carrot protoplasts with naked DNA

We have developed an electroporation procedure for the transformation of carrot protoplasts with Ti-plasmid DNA from Agrobacterium tumefaciens. The uptake of pTiC58 into carrot protoplasts was mediated by high voltage electrical pulses at field strengths from 0.5 to 3.8 kV/cm. Protoplast regeneration, somatic embryogenesis and plantlet regeneration were unaffected by the electroporation conditions selected for DNA uptake. Uptake of plasmid pTiC58 resulted in hormone independent regeneration of carrot protoplasts. Transformed somatic embryos were detected in carrot cultures 45 days after electroporation. The transformed somatic embryos developed into teratomas which synthesized nopaline. Hybridization was obtained between a labeled T-DNA fragment from pTiC58 and DNA fragments from 4 month old teratomas regenerated from electro-transformed protoplasts. Based on the number of somatic embryos regenerated after electro-transformation, a frequency of 1.6×10² transformants/10⁴ somatic embryos/g pTiC58 DNA was obtained.Abbreviations PEG polyethylene glycol - 2,4-D 2,4-dichlorophenoxyacetic acid - MES morpholinoethane sulfonic acid - DMSO dimethyl sulfoxide - HSV Herpes Simplex virus - TK thymidine kinase