In vitro analysis of susceptibility to Agrobacterium rhizogenes in 65 species of Mexican cacti

Susceptibility of Mexican cacti to Agrobacterium rhizogenes was evaluated in 65 species of 22 genera. Stem discs taken from in vitro cultured plants were inoculated with Agrobacterium rhizogenes A4 agropine-type strain that contains the wild RiA4 plasmid and the binary vector pESC4 with the nptII and gus genes. Hairy roots were produced directly from wounds, or starting from calli generated on the wounded surface, in 34 of the evaluated species. The frequency of hairy roots formation, the number of roots per explant and its growth rates were variable among the tested species. In the 31 remaining species the production of transformed roots was not observed under the conditions used in these experiments. Histochemical detection of β-glucuronidase (GUS) activity demonstrated the expression of this foreign gene in the hairy roots. PCR analyses demonstrated the presence of the rolB and nptII genes in the DNA of the transformed roots. The patterns of alkaloid-like compounds obtained by thin layer chromatography in some of the tested species were qualitatively similar between the transformed and non-transformed roots.     

Solute contents in roots and root calli of NaCl-tolerant and NaCl-sensitive tissues ofLycopersicon

Biomass, relative growth rate (RGR), organic and inorganic solute contents in control and NaCl (50–100 mM) affected roots or calli of the wild tomato genotypeLycopersicon pennellii and theLycopersicon esculentum wilty mutantflacca were compared. Under NaCl-stress, the RGR of calli fromL. pennellii was higher than that of the mutantflacca, while the root biomass of the former was lower than that of the latter. Constant water contents were found in calli and roots, irrespective of the genotypes and NaCl concentrations. Taking into account the solute contents of the apoplasm, Na⁺ accumulation was similar in the sensitive tissues (calli fromL. flacca, roots ofL. pennellii) and the tolerant ones (calli fromL. pennellii, flacca roots). Decreased K⁺ and Mg²⁺ and increased proline contents were found in both sensitive tissues. In comparison with sensitiveL. pennellii roots, salt sensitiveflacca calli showed increased total organic acid and amino acid contents.     

Asymmetric protoplast fusion aimed at intraspecific transfer of cytoplasmic male sterility (CMS) in Lolium perenne L.

Summary Techniques have been developed for the production of cybrids in Lolium perenne (perennial ryegrass). Gamma-irradiated protoplasts of a cytoplasmically male-sterile breeding line of perennial ryegrass (B200) were fused with iodoacetamide-treated protoplasts of a fertile breeding line (Jon 401). After fusion 25 putative cybrid calli were characterized to determine mitochondrion type and composition of the nuclear genome. Analysis of phosphoglucoisomerase isozyme profiles and determination of the ploidy level by flow cytometry indicated that all of the calli tested essentially contained the nuclear DNA of the fertile line. However, the presence of parts of the nuclear DNA from the sterile line could not be excluded. Southern blotting of total DNA isolated from the parental lines and putative cybrids combined with hybridizations using the mitochondrial probes cox1 and atp6 revealed that the mitochondria of the calli originated from the fertile line (5 calli), the sterile line (5 calli) or from both parental lines (15 calli). The hybridization patterns of the mtDNA from the cybrid calli showed extensive quantitative and qualitative variation, suggesting that fusion-induced inter- or intramolecular mitochondrial recombination had taken place.     

Differential expression of esterase and MDH isozymes during in vitro culture in maize (Zea mays L.)

Isozyme patterns of esterase and malate dehydrogenase were analyzed at different stages of in vitro culture of immature embryos and glumes of Zea mays L. viz. explant, callus formation, root formation and shoot formation. Significant changes in isoenzyme patterns of esterase and MDH were observed besides the appearance of specific and new isozymes. Specific fast migrating isozymes were noted in differentiating calli of embryo and glume calli which were absent at other stages suggesting a possible association of these isozyme patterns with in vitro differentiation.     

Alcohol dehydrogenase (EC 1.1.1.1) isozymes as markers at 2,4-dichlorophenoxyacetic acid × kinetin combinations in callus cultures ofCereus peruvianus (Cactaceae)

Alcohol dehydrogenase (ADH; EC 1.1.1.1) isozymes were investigated in tissue ofCereus peruvianus cultured in different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D) and kinetin. Five ADH isozymes were detected in starch gel and showed different patterns in seeds, seedlings, calli cultured at 32 and 22°C, and plants regenerated from calli cultured in three 2,4-D and kinetin combinations. Four phenotypes formed by different combinations of ADH-2, ADH-3, ADH-4, and ADH-5 were detected in calli cultured at 32°C and in plants regenerated from calli. ADH-1 isozyme was detected only in calli subcultured for 1 or 2 weeks at 22°C and was indicated as a marker of stress conditions that affect the growth ofC. peruvianus callus tissues in culture. ADH phenotypes with either a higher or a lower number of isozymes were detected in different proportions in the callus tissues cultured in media containing different 2,4-D and kinetin ratios. ADH isozyme patterns were found to be sensitive markers at the highest kinetin concentration or at high kinetin/2,4-D ratios. The results indicate a high correlation between the ADH isozyme patterns and the capacity for regeneration. Thus, ADH isozymes are indicated as good biochemical markers and as a powerful tool for monitoring studies ofC. peruvianus callus cultures.This research was supported by the CNPq.     

Isozyme Variability in Plants Regenerated from Calli of Cereus peruvianus (Cactaceae)

Morphological and isozyme variation was observed among plants regenerated from callus cultures of Cereus peruvianus. Different morphological types of shoots (68%) were observed in 4-year-old regenerated plants, while no distinct morphological variants were observed in plants grown from germinated seeds. Isozyme patterns of 633 plants regenerated from calli and of 261 plants grown from germinated seeds showed no variation in isocitrate dehydrogenase isozyme, and the differential sorbitol dehydrogenase, alcohol dehydrogenase, malate dehydrogenase, acid phosphatase, and peroxidase isozyme patterns observed in regenerated plants were attributed to nonallelic variation. Allelic variation was detected at three isoesterase loci. The proportion of polymorphic loci for both populations was 13.6% and the deviation from Hardy–Weinberg equilibrium for the Est-1 and Est-7 loci observed in somaclones was attributed to the manner in which the regenerant population was established. The high values for genetic identity among regenerant and seed-grown plant populations are in accordance with the low levels of interpopulation genetic divergence. In somaclones of C. peruvianus, morphological divergence was achieved within a short time but was not associated with any isozyme changes and also was not accompanied by biochemical genetic divergence.     

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).     

Induction of triploid Citrus plants from endosperm calli in vitro

Summary Triploid hybrid Citrus plants were regenerated by somatic embryogenesis in vitro from endosperm derived calli. A sequence of media formulations was used to induce and support proliferation of primary callus from endosperm, to induce embryogenesis from primary callus, and to allow embryo development leading to viable plantlets. Calli were induced from cellular endosperm of Citrus sinensis (sweet orange), C. Xparadisi (grapefruit), and C. grandis (pummelo) excised 12–14 weeks post-anthesis. Induction of embryogenesis from sweet orange and pummelo primary calli required gibberellic acid and double mineral nutrient concentrations. Embryogenesis was not induced from grapefruit calli in these experiments. Only sweet orange embryos developed sufficiently to allow plant regeneration. Triploid axillary buds were minigrafted onto etiolated diploid rootstock seedlings in vitro in order to transfer triploid regenerants to soil and the external environment. Triploidy (2n = 3x = 27) was observed consistently in all phases of regeneration and in recovered plants. These results demonstrate that triploid hybrid plant recovery from Citrus endosperm can overcome barriers to sexual hybridization resulting from apomixis.Florida Agricultural Experiment Station Journal Series No. R-00627     

Characteristic Isozyme Spectra of Anionic Peroxidases and Superoxide Dismutases in Callus Cultures of Larix sibirica Ledeb. and Larix gmelinii Rupr. Rupr.

Multiple molecular forms of anionic peroxidase (AP) and superoxide dismutase (SOD) were investigated in the callus lines of Larix sibirica and L. gmelinii. Eight distinct patterns of the AP spectra were discerned among 13 investigated lines. The spectra of SOD molecular forms were similar in all lines under investigation, although the lines were obtained from two Larix species and the calli were of different origin. Fe-containing SOD was for the first time described in the Larix isoenzyme spectrum. The authors conclude that the SOD isozyme spectra in dedifferentiated cells of L. sibirica and L. gmelinii are more stable than the isoperoxidase spectra.     

Integration of trinucleotide microsatellites into a linkage map of Citrus

 We report the successful assignment of the first seven microsatellite markers to the Citrus RFLP and isozyme map. A total of 14 microsatellite primer pairs were developed and tested for amplification and product-length polymorphism within a population of plants previously used for linkage-map construction. In each case, the successfully assigned microsatellite mapped to the termini of a different linkage group indicating a widespread distribution throughout the genome. Analysis of allele segregation revealed that two of nine microsatellites displayed a significant deviation from expected ratios (P>0.5). This was compared with other marker types within Citrus and a similar proportion of skewed loci was also found to be present. The analysis of two markers was complicated by the non-amplification of an inherited null allele within the mapping population. The successful integration of microsatellites into the genetic map of Citrus demonstrates the utility of this marker type for genetic analysis within wide intergeneric plant crosses. Received: 16 September 1996 / Accepted: 18 October 1996     

Micropropagation of Cardiospermum Halicacabum

The in vitro studies with Cardiospermum halicacabum indicated that the different explants, i.e cotyledon, hypocotyl, cotyledonary node, leaf, internode and node had the potential to produce calli on Murashige and Skoog (MS) medium supplemented with benzylaminopurine (BAP) and napthalene acetic acid (NAA). Calli of different explant origin showed variable growth responses on different BAP concentrations. The shoots were favourably formed from the calli of leaf and cotyledon explants. The maximum number of shoots were produced from calli subcultured on MS + BAP (17.8 µM). The roots were initiated on growth regulator free MS medium.     

Protein patterns and superoxide dismutase activity in non-mycorrhizal and arbuscular mycorrhizalPisum sativum L. plants

There are few reports in relation to the role of specific proteins in the mycorrhizal symbiosis. Among the changes in the protein expression as a consequence of the arbuscular mycorrhizal symbiosis, only one case related to changes in superoxide dismutase (SOD; EC 1.15.1.1) activity has been reported in the red clover-Glomus mosseae symbiosis.In this paper, the symbiotic system formed by a leguminous plant,Pisum sativum, and the fungusGlomus mosseae is studied in terms of protein patterns and SOD activity in both mycorrhizal and non-mycorrhizal roots. Our results show that among the differential polypeptides separated by SDS-PAGE, one with a molecular weight of 32.0 kDa, and a protein with an isoelectric point of pI 4.9 appeared strongly expressed in mycorrhizal roots. A partial purification of the related polypeptide could be achieved by DEAE-cellulose chromatography. A higher SOD activity was also detected in mycorrhizal pea roots, although both mycorrhizal and non-mycorrhizal roots showed the same isoenzymatic pattern for SODs: two Mn-SODs (I and II) and two Cu,Zn-SODs (I and II) were detected, Cu,Zn-SOD I being the most abundant isozyme in both types of roots. A similar pattern of SOD isozymes (Mn-SODs I and II, and Cu,Zn-SODs I and II) was also found in nodules of mycorrhizal and non-mycorrhizal pea roots. However, in nodules Mn-SOD II was the main isozyme. The bacterial nature of this isozyme is postulated in this report.Dr. Justo Arines died on the 15th November, 1993 in Dijon (France), while he was attending a molecular biology course on mycorrhizas.     

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     

Root peroxidase isoenzymes as an aid in Citrus breeding and taxonomy

Summary A rapid method for differentiating between Citrus clones as well as between zygotic and nucellar plants has been developed. It is based on determination of peroxidase isoenzyme patterns in small root samples. Ten to 14 bands could be distinguished, in contrast to the small number of bands present in leaves. Tetraploid seedlings gave uniform patterns closely resembling the diploid, while triploids showed segregation in isozyme pattern.Contribution from the Agricultural Research Organization, The Volcani Center, Bet Dagan (Israel).This research was supported by the U.S.-Israel Binational Science Foundation, Grant No. 204/020.     

Somatic hybridization between selected Lycopersicon and Solanum species

Summary Mesophyll protoplasts of an interspecific Lycopersicon esculentum Mill, (tomato) x Lycopersicon pennellii hybrid plant (EP) were fused with callus-derived protoplasts of Solanum lycopersicoides Dun. using a modified PEG/DMSO procedure. The EP plant was previously transformed by Agrobacterium tumefaciens which carried the NPTII and nopaline synthase genes. Protoplasts were plated at 10⁵/ml in modified KM medium and 16 days post-fusion 25 ug/ml kanamycin was added to the culture medium. During shoot regeneration, 212 morphologically similar putative somatic hybrids were delineated visually from kanamycin resistant EP's. Forty-eight shoots, randomly selected among the 212, were further verified as somatic hybrids by their leaf phosphoglucoisomerase heterodimer isozyme pattern. However, the resulting plants were virtually pollen sterile. In a second fusion, mesophyll protoplasts of Solanum melongena (eggplant) were fused with EP callus-derived protoplasts. Using the same fusion and culture procedure, only two dark green calli were visually selected among the pale green parental EP and verified as somatic cell hybrids by several isozyme patterns. These two calli have produced only leaf primordia in one and half years on regeneration medium.Abbreviations ABA abscisic acid - BAP 6 benzylaminopurine - 2,4-D 2,4 dichlorophenoxy acetic acid - DMSO dimethyl sulfoxide - GA₃ gibberellic acid - GOT glutamate oxaloacetate - IAA indoleacetic acid - IBA indolebutyric acid - IDH isocitrate dehydrogenase - MDH malate dehydrogenase - MES morpholinoethane-sulfonic acid - PEG polyethylene glycol - 6-PGDH 6 phosphogluconate dehydrogenase - PGI phosphoglucoisomerase     

A non-photosynthetic ferredoxin gene is induced by ethylene in Citrus organs

The sequence and expression of mRNA homologous to a cDNA encoding a non-photosynthetic ferredoxin (Fd1) from Citrus fruit was investigated. The non-photosynthetic nature of this ferredoxin was deduced from: (1) amino acid sequence alignments showing better scores with non-photosynthetic than with photosynthetic ferredoxins, (2) higher expression in tissues containing plastids other than chloroplast such as petals, young fruits, roots and peel of fully coloured fruits, and (3) the absence of light-dark regulation characteristic of photosynthetic ferredoxins. In a phylogenetic tree constructed with higher-plant ferredoxins, Citrus fruit ferredoxin clustered together with root ferredoxins and separated from the photosynthetic ferredoxins. Non photosynthetic (root and fruit) ferredoxins, but not the photosynthetic ferredoxins, have their closest homologs in cyanobacteria. Analysis of ferredoxin genomic organization suggested that non-photosynthetic ferredoxins exist in Citrus as a small gene family. Expression of Fd1 is developmentally regulated during flower opening and fruit maturation, both processes may be mediated by ethylene in Citrus. Exogenous ethylene application also induced the expression of Fd1 both in flavedo and leaves. The induction of non-photosynthetic ferredoxins could be related with the demand for reducing power in non-green, but biosynthetically active, tissues.     

B-Chromosomes and E-1 isozyme activity in mosaic bulbs of Scilla autumnalis (Liliaceae)

The electrophoretic patterns of esterase (E-1), alcohol dehydrogenase (ADH), and glutamate oxaloacetate transaminase (GOT) isozymes were studied in two Spanish populations of the lily Scilla autumnalis with B-chromosome carrying individuals. The E-1 isozyme activity appears only in those individuals with B-chromosomes. None of the bulbs free of B's show it. Five bulbs, mosaic for B-content, were identified. Electrophoretic analysis shows that these bulbs are characterised by mosaicism for E-1 isozyme activity. An analysis of individual roots by both electrophoretic and cytological methods shows that tissue mosaicism for B-content correlates with tissue mosaicism for E-1 isozyme activity. The electrophoretic analysis of different roots from bulbs heterozygous for the Est-1 locus indicates that the structural gene for E-1 is not located on the B-chromosome itself. Rather there is a derepressor effect of Bs on E-1 isozyme activity. Since ADH and GOT patterns are unaffected by the presence of B-chromosomes it is clear that they do not exhibit a generalised derepressor effect.     

Genetic improvement of Citrus for disease resistance

Progress in the genetic improvement of Citrus species was reviewed. Tools used for the genetic improvement of Citrus were categorised as conventional (introduction, selection and hybridisation) and non-conventional methods (mutation, somatic cell hybridisation and genetic engineering) of improvement. Genes linked with the disease resistance were characterised and tagged through molecular marker techniques such as Sequenced Characterised Amplified Region and Cleaved Amplified Polymorphic Sequences. Disease resistance genes showed both monogenic and polygenic inheritance. Conventional methods for disease resistance improvement of Citrus were bottleneck due to inadequate and lengthy breeding procedures. However, non-conventional methods, such as mutation breeding and protoplast fusion, have been routinely utilised for the production of disease resistant germplasm while novel genes from variable sources were used to transform Citrus species to induce resistance against diseases. These non-conventional techniques have been shown to overcome the disadvantages of conventional breeding procedures and could be regarded as rapid methods of genetic improvement as well as helpful to overcome the interspecies barrier.     

Growth and Enzyme Activity in Roots and Calli of Resistant and Susceptible Allium Lines as Influenced by Sterile Culture Filtrates of Phoma terrestris

Growth and activities of peroxidases, chitinases and glucanases were studied in order to evaluate the response of calli and roots of pink root-susceptible Allium cepa cvs. Valcatorce and T-412 and resistant A. fistulosum cv. Nogiwa Negi, to sterile culture filtrates of Phoma terrestris. Untreated calli and roots of A. fistulosum exhibited higher activity of peroxidases and glucanases than that of Valcatorce and T-412. Enzyme activities and growth of roots and calli were not affected in filtrate-treated A. fistulosum. The growth of calli and roots of A. cepa cultivars decreased significantly after exposure to P. terrestris filtrates while the peroxidase and glucanase activities increased. Peroxidase and glucanase activities were also enhanced in roots of Valcatorce bulbs grown in P. terrestris-inoculated soil as compared to healthy control plants. We conclude that a high constitutive activity of glucanases and perhaps chitinases might account for the resistance of A. fistulosum. The differential reaction (with respect to root growth) of pink root-susceptible and resistant materials to culture filtrates indicates that this in vitro-system might be useful for the screening of onion breeding lines.     

Somatic hybrid plantlets regeneration between Citrus and its wild relative, Murraya paniculata via protoplast electrofusion

Protoplasts isolated from `Page' tangelo (Minneola tangelo × clementine) cell suspension cultures were electrically fused with mesophyll protoplasts of orange jessamine [Murraya paniculata (L.) Jack]. Shoots were regenerated after 6 – 10 months of culture, but they were extremely recalcitrant to producing roots in root-induction medium. Complete plantlets were formed via micrografting. Chromosome counting of shoot tips revealed they were tetraploids (2n = 4x = 36). Glutamateoxaloacetate transaminase isozyme and randomly amplified polymorphic DNA analysis confirmed their hybridity. Orange jessamine is immune to citrus huanglongbin, a severe disease of citrus, but sexual incompatibility and limited graft compatibility exist between Citrus and orange jessamine. The cell fusion technique may make it possible to transfer the huanglongbin resistance trait from orange jessamine to Citrus. Received: 17 January 1998 / Revision received: 12 June 1998 / Accepted: 14 July 1998