O. Schieder scite author profile

The techniques of microspore and protoplast regeneration starting from dihaploid Solanum tuberosum plants has been improved to such an extent that the production of more than 2000 microspore derived A1 plant lines and of several hundred protoplast derived plantlets has become possible. Further, from the dihaploid Solanum species S. phureja the regeneration of microspores to plants, and from the species S. infundibuliforme, S. sparsipilum and S. tarijense the regeneration of protoplasts to calluses, has been achieved. The plants descending from the two single cell culture systems are compared with reference to phenotypic markers and economic qualities. Some principles characteristic for either microspore or protoplast derived plants are examined and their significance is discussed. The results are compiled into an extended analytical synthetic breeding scheme based on a stepwise reduction of the autotetraploid to the monohaploid level and a subsequent controlled combination to a new synthetic completely heterozygous tetraploid potato.

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Agrobacterium mediated transformation of chickpea ( Cicer arietinum L.) embryo axes

Krishnamurthy

et al. 2000

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Novel ‘homeotic’ CMS patterns generated inNicotianavia cybridization withHyoscyamusandScopolia

Zubko

Patskovsky

et al. 1996

J Exp Bot

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Enhancement of transformation rates in higher plants by low-dose irradiation: Are DNA repair systems involved in the incorporation of exogenous DNA into the plant genome?

et al. 1989

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Irradiation (X-ray; 5-15 Gy) of protoplasts treated with plasmid-DNA and PEG yielded higher transformation rates in comparison to non-irradiated protoplasts transformed by the same method. This could be demonstrated for four plant species. The irradiation doses used did not affect the total number of colonies regenerated without selection pressure, but resulted in 3-6-fold enhancement of hygromycin- or kanamycin-resistant colonies. Plant regeneration frequencies of transformed colonies derived from irradiated and non-irradiated protoplasts were similar in tobacco as well as in Petunia. Higher integration rates of foreign DNA as a consequence of an increased recombination machinery in irradiated cells may be responsible for the enhancement of the number of stably transformed colonies.

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Genetic engineering for high methionine grain legumes

Müntz¹,

Christov²,

Saalbach³

et al. 1998

Nahrung

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Methionine (Met) is the primary limiting essential amino acid in grain legumes. The imbalance in amino acid composition restricts their biological value (BV) to 55 to 75% of that of animal protein. So far improvement of the BV could not be achieved by conventional breeding. Therefore, genetic engineering was employed by several laboratories to resolve the problem. Three strategies have been followed. A) Engineering for increased free Met levels; B) engineering of endogenous storage proteins with increased numbers of Met residues; C) transfer of foreign genes encoding Met-rich proteins, e.g. the Brazil nut 2S albumin (BNA) and its homologue from sunflower, into grain legumes. The latter strategy turned out to be most promising. In all cases the gene was put under the control of a developmentally regulated seed specific promoter and transferred into grain legumes using the bacterial Agrobacterium tumefaciens-system. Integration into and copy numbers in the plant genome as well as Mendelian inheritance and gene dosage effects were verified. After correct precursor processing the mature 2S albumin was intracellularly deposited in protein bodies which are part of the vacuolar compartment. The foreign protein amounted to 5 to 10% of the total seed protein in the best transgenic lines of narbon bean (Vicia narbonensis L., used in the authors' laboratories), lupins (Lupinus angustifolius L., used in CSIRO, Australia), and soybean (Glycine max (L.) Merr., used by Pioneer Hi-Bred, Inc., USA). In the narbon bean the increase of Met was directly related to the amount of 2S albumin in the transgenic seeds, but in soybean it remained below the theoretically expected value. Nevertheless, trangenic soybean reached 100%, whereas narbon bean and lupins reached approximately 80% of the FAO-standard for nutritionally balanced food proteins. These results document that the Met problem of grain legumes can be resolved by genetic engineering.

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A chimeric gene encoding the methionine-rich 2S albumin of the Brazil nut (Bertlrolletia excelsa H.B.K.) is stably expressed and inherited in transgenic grain legumes

et al. 1994

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The coding region of the 2S albumin gene of Brazil nut (Bertholletia excelsa H.B.K.) was completely synthesized, placed under control of the cauliflower mosaic virus (CaMV) 35S promoter and inserted into the binary vector plasmid pGSGLUC1, thus giving rise to pGSGLUC1-2S. This was used for transformation of tobacco (Nicotiana tabacum L. cv. Petit Havanna) and of the grain legume Vicia narbonensis L., mediated by the supervirulent Agrobacterium tumefaciens strain EHA 101. Putative transformants were selected by screening for neomycin phosphotransferase (NPT II) and beta-glucuronidase (GUS) activities. Transgenic plants were grown until flowering and fruiting occurred. The presence of the foreign gene was confirmed by Southern analysis. GUS activity was found in all organs of the regenerated transgenic tobacco and legume plants, including the seeds. In the legume, the highest expression levels of the CaMV 35S promoter-controlled 2S albumin gene were observed in leaves and roots. 2S albumin was localized in the vacuoles of leaf mesophyll cells of transgenic tobacco. The Brazil nut protein was present in the 2S fraction after gel filtration chromatography of the legume seed proteins and could be clearly identified by immunoblotting. Analysis of seeds from the R2 progenies of the legume and of transgenic tobacco plants revealed Mendelian inheritance of the foreign gene. Agrobacterium rhizogenes strain RifR 15834 harbouring the binary vector pGSGLUC1-2S was also used to transform Pisum sativum L. and Vicia faba L. Hairy roots expressed the 2S albumin-specific gene. Several shoots were raised but they never completely rooted and no fertile plants were obtained from these transformants.

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Mendelian transcmission of genes introduced into plants by the Ti plasmids of Agrobacterium tumefaciens

et al. 1981

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Insertion of the bacterial transposon Tn7 was used to obtain mutants of an octopine Ti plasmid. Crown gall tumours induced on tobacco by an Agrobacterium tumefaciens strain carrying a particular mutant Ti plasmid (pGV2100) were found to give rise to shoots. These shoots were grown in vitro and one of them (rGV-1) was found to contain the T-DNA specific enzyme lysopine dehydrogenase (LpDH) and to form roots. After transfer to soil, rGV-1 developed into a morphologically and functionally normal tobacco plant. All cells of the regenerant and of vegetatively produced offspring were shown, by cloning of leaf protoplasts, to contain T-DNA and LpDH activity, rGV-1 and vegetatively produced offspring flowered normally. Plantlets obtained from haploid anther cultures were tested for LpDH activity. Forty-one percent of these plantlets were LpDH positive. Moreover, both self-pollination of rGV-1 and crosses between rGV-1 and normal tobacco plants showed that the LpDH character was transmitted both through the pollen and through the eggs of rGV-1 as a single dominant factor with Mendelian segregation ratios typical for monohybrid crosses. By repeated selfing, homozygous plants were obtained which bred true with respect to LpDH. The importance of these findings with respect to the use of Agrobacterium tumefaciens and Ti plasmids for genetic engineering in plants is discussed.

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Regeneration of Mesophyll Protoplasts Isolated from Dihaploid Clones of Solanum tuberosum

Binding

Nehls

Schieder

et al. 1978

Physiologia Plantarum

137

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Protoplasts have been isolated from leaves of shoot cultures of six dihaploid clones of Solanum tuberosum L. (2n = 2x = 24). In the KM medium (Kao and Michayluk 1975), sustained cell divisions were obtained in up to 50% of the plated protoplasts of four clones, whereas only a few divisions occurred in the other two clones. The first mitosis appeared 2–8 days after plating, dependent on the clones. In the clones showing sustained cell divisions, a protoplast titre of about 5 × 103 per ml turned out to be optimal. The culture conditions for protoplasts of one of the poorly growing clones, clone H2 140, have been improved using modified KM media, plating at a concentration of as high as 5 × 104 cells per ml, and subsequent diluting at intervals 5 days. The dilutions were carried out with media containing 0.25% agar. Up to 60% of the plated protoplasts underwent divisions within 10 days under these conditions. After about 15 days, the regenerants were transferred onto media inducing organogenesis. Shoots and roots were formed on modified media MS (Murashige and Skoog 1962) and B5 (Gamborg et al. 1968). Plants have been regenerated in four of the investigated clones. Countings of chromosomes revealed a satisfactory stability of the karyotype in shoot culture and protoplast regeneration.

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O. Schieder

Comparison of single cell culture derived Solanum tuberosum L. plants and a model for their application in breeding programs

Agrobacterium mediated transformation of chickpea ( Cicer arietinum L.) embryo axes

Novel ‘homeotic’ CMS patterns generated inNicotianavia cybridization withHyoscyamusandScopolia

Enhancement of transformation rates in higher plants by low-dose irradiation: Are DNA repair systems involved in the incorporation of exogenous DNA into the plant genome?

Genetic engineering for high methionine grain legumes

A chimeric gene encoding the methionine-rich 2S albumin of the Brazil nut (Bertlrolletia excelsa H.B.K.) is stably expressed and inherited in transgenic grain legumes

Mendelian transcmission of genes introduced into plants by the Ti plasmids of Agrobacterium tumefaciens

Regeneration of Mesophyll Protoplasts Isolated from Dihaploid Clones of Solanum tuberosum

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