Selection of potato callus for resistance to culture filtrates of Phytophthora infestans and regeneration of resistant plants

Summary Dihaploid calli from Solanum tuberosum were selected, which were resistant to the culture filtrate of Phytophthora infestans. Each of the resistant calli was resistant to all four pathotypes of Phytophthora used in these experiments. The resistance was not lost through regeneration and the induction of new callus.     

In vitro selection of barley and wheat for resistance against Helminthosporium sativum

Summary Calli derived from immature embryos of barley and wheat genotypes were screened for their resistance to purified culture filtrate produced by the fungus Helminthosporium sativum P.K. and B. Two selection methods were used: a continuous method in which four cycles of selection were performed one after another on toxic medium and a discontinuous method in which a pause on non-toxic medium was given after the second or third cycle of selection. The latter was superior as it allowed the calli to regain their regeneration ability. About 3,000 calli from two barley genotypes and 2,000 from two wheat genotypes were used for selection. The selection with the pathotoxins resulted in 6% to 17% surviving calli. Toxin tolerant callus lines of barley were characterised by protein isozymes. Zymograms showed one more isozyme than with the unselected sensitive callus. Barley and wheat plants have been regenerated from callus lines surviving the toxin treatment and in vivo testing against pathogen revealed that the majority of these plants were less sensitive.     

In Vitro selection of groundnut cell lines fromCercosporidium personatum culture filtrates and regeneration of resistant plants through cell culture

Cell suspensions derived from immature leaves of the groundnut (Arachis hypogaea L.) were cultured in the presence and absence ofCercosporidium personatum pathotoxic culture filtrates. Cell viability and reactions of cell lines were determined after exposure to various concentrations (25–100%, v/v) of the filtrates. Cell lines have been selected for resistance to the toxin(s) produced byC. personatum. Selected cell lines were used for plant regeneration on regeneration media containingC. personatum culture filtrates. Plant regeneration frequency was found to be low in long-term cultures, whereas it was high in short-term cultures. The selfed progeny of the plants regenerated from the resistant cell lines showed resistance to the pathogen in the field. Six out of 82 plants exhibited enhanced resistance in the R₂ generation. The culture filtrate stimulated callus proliferation as well as plant regeneration at lower concentrations, a response that could prove to be very useful for obtaining disease resistant plants throughin vitro selection.     

Responses of alfalfa pollen and callus to filtrates from two isolates of Fusarium oxysporum

Summary For 25 Medicago sativa plants, measurements were made of in vitro pollen germination and growth and callus growth on mediums containing culture filtrate from two isolates of Fusarium oxysporum f. sp. medicaginis. In vivo resistance was determined by field inoculation with one isolate. There was no correlation between any in vitro measurement and in vivo resistance, and none of the in vitro measurements on control mediums were correlated. The only significant correlation for the same measurement between the two isolates was for pollen-tube length (r = 0.65). Percent of pollen germination was negatively correlated with callus growth for both isolates. Earlier work showed that callus growth in the presence of culture filtrate was linked to plant resistance, thus it appeared that percent pollen germination on culture filtrate had decreased for the more resistant plants. The haploid pollen may be used as a progeny test for identifying heterotic loci conferring resistance to Fusarium, but if the pollen of this plant species is used in direct selection by exposure to culture filtrate, the level of resistance to Fusarium may decrease.     

Is the Phytophthora citrophthora culture filtrate a reliable tool for the in vitro selection of resistant Citrus variants?

Summary Nucellar calli from four Citrus cultivars with known resistance to the Phytophthora citrophthora pathogen were chosen as experimental material to test the pathogen's response to culture filtrate (CF). Sensitivity of the four calli to CF of the fungus was in reverse order to what is known on the susceptibility of the cultivars in vivo. Sensitivity of protoplasts derived from the same four calli to 2,4-dichlorophenoxyacetic acid (2,4-D) was in the same order as that of calli to CF. Protoplasts derived from calli selected for tolerance to CF showed a higher plating efficiency with increasing concentration of CF in the medium. TLC and GLC determinations showed the presence of indole acetic acid in the culture filtrate. Results indicate that CF of P. citrophthora cannot be used as a selection tool in vitro.Contribution No. 1655-E, 1986 series, from the Agricultural Research Organization, Bet-Dagan, Israel     

Selection of turmeric callus tolerant to culture filtrate of <Emphasis Type="Italic">Pythium Graminicolum</Emphasis> and regeneration of plants

Root rot disease tolerant clones of turmeric variety Suguna of Curcuma longa L. were isolated using continuous in vitro selection technique against pure culture filtrate of Pythium graminicolum. Large amount of profuse, compact, creamish white callus was obtained from in vivo vegetative bud when cultured on LSBM fortified with 2,4-D (3 mg l⁻¹) after 45 days of culture. Callus was challenged with pure culture filtrate of P. graminicolum to isolate viable callus within 30 days of culture, which was further subjected to pure culture filtrate treatment. After three cycles of treatment, four cell lines which are tolerant to culture filtrate was isolated through continuous in vitro selection and subcultured on regeneration medium LSBM fortified with BAP (4 mg l⁻¹) along with the control non-selected callus to obtain complete plantlets through discontinuous in vitro selection technique. Plants regenerated from tolerant and non-selected calli were screened for disease tolerance by adopting in vitro sick plot technique. The data obtained from this experiment revealed a ratio of 225:49 tolerant: susceptible in vitro clones retrieved from tolerant callus. However, plants regenerated from the CL1a₁ and non-selected calli were susceptible under in vitro sick plot technique. The root rot disease tolerant clones were hardened and established in soil with 90% survival frequency.     

In vitro selection at cellular level for red rot resistance in sugarcane (<Emphasis Type="Italic">Saccharum</Emphasis> sp.)

In the present study, in vitro selection technique using pathogen culture filtrate of Colletotrichum falcatum Went was employed with the aim to identify associations (if any), between selection at the cellular and plant level for red rot resistance in sugarcane (Saccharum sp.). Five to eight months old sugarcane calli of genotypes CoJ 88 and CoJ 64 were screened in vitro against pathogen culture filtrate for two selection cycles. Effect of pathogen culture filtrate on callus survival and/or proliferation was observed to be directly related to its concentration in the selection media. Calli survived and exhibited further proliferation at 5, 10 and 15% v/v pathogen culture filtrate concentrations whereas, at higher concentrations (20 and 25% v/v) proliferation was completely inhibited. Shoot regeneration percent was higher in calli selected on 5% pathogen culture filtrate concentration than those selected on 10 and 15% concentrations. In vivo screening of field transferred somaclones against two pathtypes (Cf 03 and Cf 08) showed considerable variation for red rot resistance. Somaclones regenerated from resistant and/or tolerant calli exhibited better resistance than the parental genotypes. The results indicated that in vitro selection for red rot resistance was effective and expressed when somaclones were screened in the field. This indicated a positive association between in vitro and in vivo methods of selection for disease resistance in sugarcane.     

Selection of peach cells for insensitivity to culture filtrates of Xanthomonas campestris pv. pruni and regeneration of resistant plants

Summary Individual callus cultures were initiated from 400 immature embryos of bacterial leaf spot-susceptible Sunhigh peach. Each was subjected to several selection cycles of a toxic culture filtrate produced by Xanthomonas campestris pv. pruni, the causal agent of leaf spot of peach. Progressively higher concentrations of the filtrate were used in each cycle. Two calli survived, and two plants were regenerated from each of the surviving calli. Each of the four clones was propagated in vitro and tested for whole plant resistance to X. c. pv. pruni. Results from bioassays on greenhouse-grown plants indicated that two out of the four selected clones were significantly more resistant to X. c. pv. pruni than the parental cv Sunhigh. In addition, one clone was significantly more resistant than the moderately resistant cv Redhaven.     

Increased NaCl-tolerance in wheat (Triticum aestivum L. andT. durum desf.) through in vitro selection

Summary Callus cultures were initiated from immature embryos of oneTriticum aestivum and threeT. durum cultivars. Growing morphogenic calli were exposed to different concentrations of NaCl (0, 0.3, 0.5, and 0.7%) added to the culture medium during two subsequent subcultures (4 wk each). The growth rate of the calli was determined by the relative fresh weight callus growth (RFWCG). The callus growth of all investigated genotypes was slightly changed in the presence of 0.3 and 0.5% NaCl, but strongly inhibited by 0.7% NaCl. Selected NaCl-tolerant clones were isolated and plants were regenerated on MS-based regeneration medium without NaCl. The regeneration capacity of the selected calli was highly reduced compared to the control. The highest number of regenerants was scored for cv. Gladiator (T. aestivum). All regenerated plants were morphologically normal and many developed to maturity and set seeds. Seedlings from the R₁ generation of selected and control plants were treated with 0.5% NaCl in vivo in liquid cultures for 6 wk. Salt tolerance of the progenies of selected plants appeared in all cultivars, but those derived from calli grown on medium with 0.7% NaCl showed the highest survival rate.T. aestivum showed higher tolerance to NaCl salinity thanT. durum.     

In vitro organogenesis in two dioecious species,Rumex acetosella L. and R. acetosa L. (Polygonaceae)

Callus cultures were established from dioecious plant species Rumex acetosella and R. acetosa, using cotyledons, hypocotyls and stem tips of aseptically germinated seedlings as primary explants. Cultures were also established from male and female R. acetosella adult plants, starting from vegetative lateral buds. Cell division was induced using a high 2,4-D concentration, while bud induction and multiplication were stimulated on a medium with high BAP/IAA ratio. Cotyledon fragments of both species produced only rhizogenic calli. Hypocotyl-derived calli of R. acetosella produced buds, while those of R. acetosa showed no bud forming response under these conditions. Bud multiplication occurred in stem tip cultures of both species and in lateral bud cultures of R. acetosella. Calli derived from male plants produced more buds than those from female. Shoots were easily rooted using IBA, and plantlets were effectively transferred to soil. Flowering was not induced in culture. The sex of regenerated male and female plants was not altered by the culture conditions.     

Aneuploid and alloplasmic lines as tools for the study of nuclear and cytoplasmic control of culture ability and regeneration of scutellar calli from common wheat

Summary Twenty four B genome aneuploid lines (di-telosomics, nullisomic-tetrasomics and tetrasomics) of Triticum aestivum cv Chinese Spring were used in an analysis of the culture ability and regeneration capability of scutellar calli. Several correlations were found between the presence or absence of specific chromosomes and chromosomal arms of the B genome of common wheat and the growth and differentiation capabilities of these calli. The rate of callus growth decreased only when the long arm of chromosome 6B was not present. The absence of chromosomes 3B and 7B did not result in an apparent change in morphogenetic capability, while the absence of other B genome chromosomes was significantly correlated to changes in the frequency of calli that regenerated plants. The presence of the short arm of chromosome 1B was negatively correlated with regeneration, whereas its long arm is probably required to counteract this effect and to maintain the normal ratio of regeneration. The presence of the chromosomal arm 2BS seemed to be essential for differentiation to shoots. In the absence of the short arms of chromosomes 4B and 5B, the rate of regeneration was slightly reduced. In the absence of the long arm of chromosome 6B there was a marked reduction of the ability of scutellar calli to regenerate plants. The use of additional aneuploid lines belonging to homoeologous group 6 revealed that only calli derived from lines having chromosome 6D in their complement regenerated plants similarly to the euploid control. Culture ability and regeneration capability were also analysed with alloplasmic lines of T. aestivum cv Chris. The lines were derived from five species, representing plasma-types of different phylogenetic distances from plasma-type B of T. aestivum. The results showed that when the endogenous cytoplasm (B-type) was exchanged with T. timopheevii cytoplasm (G-type) there was a significant increase in the regeneration of shoots from the scutellar calli.     

Plant regeneration capacity of mesophyll protoplasts from Brassica napus and related species

Protoplasts from a total of thirty-six genotypes of Brassica species – B. napus, B. campestris (syn. B. rapa), B. juncea, and three distant relatives, Orychophragmus violaceus, Isatis indigotica and Xinjiang wild rape – were analysed for shoot regeneration using a feeder culture system. With the exception of B. campestris and Xinjiang wild rape, some genotypes of all the species could regenerate plants with high efficiency (above 20% of isolated calli initiating shoots). Several genotypes with high regeneration ability were elite breeding lines. Culture conditions as well as genotype had a significant impact on shoot regeneration frequency. In particular, silver nitrate added to the regeneration medium at doses of 6 and 30 μM improved shoot regeneration frequency to 25.4% and 52.2% of isolated calli, respectively, compared to 7.3% percent shoot regeneration without silver nitrate in seven responsive genotypes. Addition of silver nitrate to the regeneration medium also induced shoot regeneration in non-responsive genotypes. Intact plants could be obtained within three months from protoplast isolation in the regenerative genotypes using the current culture system. Advantages of mesophyll protoplasts as compared to protoplasts isolated from hypocotyls for genetic manipulation in Brassica species are discussed. This revised version was published online in June 2006 with corrections to the Cover Date.     

黑果枸杞原生质体培养及植株再生

该研究以黑果枸杞(Lycium ruthenicum)无菌苗为材料,建立了愈伤组织来源的原生质体再生体系,采用ISSR和FCM技术对再生植株进行了遗传稳定性分析。结果表明：(1)黑果枸杞叶片愈伤组织是产生原生质体的最好材料,在含0.5 mg·mL^-1甘露醇的酶液中,继代1次的叶片愈伤组织中原生质体产量为7.77×10⁶个·g^-1,活力为92%。(2)改良MS培养基 固体液体双层培养(MS₂ 固液双层)是培养原生质体的最好方式,培养10 d的原生质体分裂频率为45.9%,培养20 d的细胞团形成频率为22.9%。(3)在1.5 mg·mL^-1 6 BA+0.1 mg·mL^-1 IBA+MS培养基中,叶片愈伤组织产生的原生质体可分化获得再生植株。(4)ISSR分析显示,再生植株的平均遗传相似系数为0.88;FCM显示再生植株为二倍体,与亲本植株一致。该研究结果为进一步研究枸杞体细胞杂交技术转移野生植物抗逆遗传性状提供科学依据,为枸杞优良品种的选育奠定了基础。     

In vitro selection and regeneration of carnation (Dianthus caryophyllus L.) plants resistant to culture filtrate of Fusarium oxysporum f.sp. dianthi

Callus cultures derived from internodal segments of two cultivars of carnation susceptible to Fusarium oxysporum f.sp. dianthi were successfully used for in vitro selection for resistance to this pathogenic fungus. Resistant lines were selected by culturing calli on growth medium containing various concentrations of the culture filtrate of F. oxysporum f.sp. dianthi. Resistant calli obtained after two cycles (25 days/cycle) of selection were used for plant regeneration. About 32% of the plants regenerated from the resistant calli had acquired considerable resistance against the pathogen in the field. No phenotypic variation was observed in the selected regenerates.     

Production of transgenic pea (Pisum sativum L.) plants by Agrobacterium tumefaciens — mediated gene transfer

Summary A transformation system that allows regeneration of transgenic pea plants from calli selected for antibiotic resistance was developed. Explants from axenic shoot cultures and seedling epicotyls were cocultivated with nononcogenic Agrobacterium tumefaciens strains, and transformed callus could be selected on callus-inducing media containing either 15 mg/l hygromycin or 75 mg/l kanamycin. After several passages on regeneration medium, shoot organogenesis could be reproducibly induced on hygromycin-resistant calli, but not on the calli selected for kanamycin resistance. Regenerated shoots could subsequently be rooted and transferred into the greenhouse. In addition, the effects of different callus-inducing and growth media on organogenesis were investigated. The transformation of the calli and regenerated plants was confirmed by DNA analysis.     

<Emphasis Type="Italic">In vitro</Emphasis> selection and regeneration of chrysanthemum (<Emphasis Type="Italic">Dendranthema grandiflorum</Emphasis> Tzelev) plants resistant to culture filtrate of <Emphasis Type="Italic">Septoria obesa</Emphasis> Syd

Callus cultures derived from leaf segments of chrysanthemum cultivar ‘Snow Ball’ which was susceptible to Septoria obesa were successfully used for in vitro selection for resistance to this pathogenic fungus. Resistant cell lines were selected by culturing callus on growth medium containing various concentrations of S. obesa filtrate. Resistant calluses obtained after two cycles (30 d each cycle) of selection were used for plant regeneration. About 30% of the plants regenerated from the resistant calluses and 70–80% of the plants raised from cuttings had acquired considerable resistance against the pathogen in the field. No phenotypic variation was observed in the selected regenerates.     

Development of transgenic pearl millet (Pennisetum glaucum (L.) R. Br.) plants resistant to downy mildew

Transgenic pearl millet lines expressing pin gene—exhibiting high resistance to downy mildew pathogen, Sclerospora graminicola—were produced using particle-inflow-gun (PIG) method. Shoot-tip-derived embryogenic calli were co-bombarded with plasmids containing pin and bar genes driven by CaMV 35S promoter. Bombarded calli were cultured on MS medium with phosphinothricin as a selection agent. Primary transformants 1T₀, 2T₀, and 3T₀ showed the presence of both bar and pin coding sequences as evidenced by PCR and Southern blot analysis, respectively. T₁ progenies of three primary transformants, when evaluated for downy mildew resistance, segregated into resistant and susceptible phenotypes. T₁ plants resistant to downy mildew invariably exhibited tolerance to Basta suggesting co-segregation of pin and bar genes. Further, the downy mildew resistant 1T₁ plants were found positive for pin gene in Southern and Northern analyses thereby confirming stable integration, expression, and transmission of pin gene. 1T₂ progenies of 1T₀ conformed to dihybrid segregation of 15 resistant:1 susceptible plants.     

Inheritance of a bacterial hygromycin phosphotransferase gene in the progeny of primary transgenic pea plants

Summary An analysis of the progeny of primary transgenic pea plants in terms of transmission of the transferred DNA, fertility and morphology is presented. A transformation system developed for pea that allows the regeneration of fertile transgenic pea plants from calli selected for antibiotic resistance was used. Expiants from axenic shoot cultures were co-cultivated with a nononcogenic Agrobacterium tumefaciens strain carrying a gene encoding hygromycin phosphotransferase as selectable marker, and transformed callus could be selected on callus-inducing media containing 15 mg/l hygromycin. After several passages on regeneration medium, shoot organogenesis could be reproducibly induced on the hygromycin resistant calli, and the regenerated shoots could subsequently be rooted and transferred to the greenhouse, where they proceeded to flower and set seed. The transmission of the introduced gene into the progeny of the regenerated transgenic plants was studied over two generations, and stable transmission was shown to take place. The transgenic nature of the calli and regenerated plants and their progeny was confirmed by DNA and RNA analysis. The DNA and ploidy levels of the progeny plants and primary regenerants were studied by chromosome analysis, and the offspring of the primary transformants were evaluated morphologically.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - BA 6-ben-zyladenine - hpt hygromycin phosphotransferase gene - IAA indole acetic acid, kin, kinetin - NAA -naphtalene acetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Plant regeneration from protoplast cultures of Passiflora edulis var. flavicarpa Deg., P. amethystina Mikan. and P. cincinnata Mast.

Summary Protoplasts isolated from seedling cotyledons of yellow passionfruit (Passiflora edulis var. flavicarpa Deg.) and two related wild species, P. amethystina Mikan. and P. cincinnata Mast., divided in culture and produced calli. Shoot regeneration was obtained in MS medium (Murashige and Skoog 1962) containing 2.0 mg/l 6-benzylaminopurine (BAP). Regenerated plants produced roots in half-strength hormone-free MS medium and could be transferred to soil after being acclimatized.