Your search keyword '"Koßmann J"' showing total 9 results

1. Use of a Mutated Protoporphyrinogen Oxidase Gene as an Effective In Vitro Selectable Marker System that Also Conveys in planta Herbicide Resistance in Sugarcane.

Author

van Beek, C. R., Fernhout, J. J., Kossmann, J., Lloyd, J. R., and van der Vyver, C.

Abstract

Genetic engineering can be used to introduce economically important traits in sugarcane cultivars. Part of any transformation process involves the selection of genetically transformed cells. In this study, an efficient sugarcane in vitro selection system was developed using mutated protophorhyrinogen oxidase (PPO) genes as selectable markers. Two PPO genes, that encode proteins targeted either to the mitochondria or plastid, were isolated from tobacco and maize. Site-directed mutagenesis was used to alter the nucleotide sequence of these genes so that the resulting proteins are less sensitive to diphenylether type herbicides. Sugarcane callus was genetically transformed through particle bombardment with constructs allowing expression of either transgene, and putative transgenic calli were selected on fomesafen. It took approximately 4 weeks to select herbicide resistant calli clones on 10 mg/l fomesafen in the presence of light, which increased the selection pressure, and a further 8 weeks to regenerate resistant plantlets. PCR analysis confirmed that all regenerated putative transgenic sugarcane plants contained the transgene. All transgenic plants showed levels of herbicide resistance when planted in soil. [ABSTRACT FROM AUTHOR]

Published

2018

2. Ethyl Methanesulfonate Mutagenesis and In Vitro Polyethylene Glycol Selection for Drought Tolerance in Sugarcane ( Saccharum spp.).

Author

Masoabi, M., Lloyd, J., Kossmann, J., and Vyver, C.

Abstract

Drought is a serious agronomic problem, and urgent attention to overcome drought stress is vital to eradicate or minimize its effects on crop production. Random induction of genomic mutation is a technique that can enhance genetic diversity leading to useful traits such as enhanced drought tolerance. In this study, sugarcane callus was exposed to different concentrations of the chemical mutagen, ethyl methanesulfonate (EMS). Concentrations of 20 mM and lower were identified as useful to induce genomic mutations without compromising in vitro sugarcane plant regeneration abilities. Furthermore, sugarcane callus was exposed to varying concentrations of polyethylene glycol (PEG) for different time periods in order to identify a suitable in vitro osmotic selection regime to simulate drought stress in vitro. The optimal in vitro osmotic selection treatment was identified as callus exposed to 20% (w/v) PEG6000 for 8 weeks, followed by a 2 weeks osmotic recovery period without PEG and ending with a further 8 week PEG selection period during somatic embryo regenerations. Sugarcane callus from the NCo310 cultivar was subsequently mutagenized with 16 mM EMS and in vitro selected on 20% (w/v) PEG6000, which resulted in the survival of 18 plantlets. These in vitro selected lines were subjected to preliminary greenhouse pot trials to confirm drought tolerance. Pot trials identified seven lines that outlived NCo310 control plants. In addition, when re-watered after the drought stress period, plants from one mutant line recovered and were able to form new shoots. The results from this study indicate, therefore, that EMS mutagenesis and in vitro selection for osmotic pressure using PEG can be successfully applied to cultivate sugarcane plants with improved morphological and physiological responses to water stress. [ABSTRACT FROM AUTHOR]

Published

2018

3. The thermal stability of topologically close-packed phases in the single-crystal Ni-base superalloy ERBO/1.

Author

Lopez-Galilea, I., Koßmann, J., Kostka, A., Drautz, R., Mujica Roncery, L., Hammerschmidt, T., Huth, S., and Theisen, W.

Subjects

*NICKEL alloys, *THERMAL stability, *PHASE transitions, *SINGLE crystals, *HEAT resistant alloys, *INTERMETALLIC compounds

Abstract

In Ni-base superalloys, the addition of refractory elements such as Cr, Mo, Co, W, and Re is necessary to increase the creep resistance. Nevertheless, these elements induce the formation of different kinds of intermetallic phases, namely, the topologically close-packed (TCP) phases. This work focuses on intermetallic phases present in the second-generation single-crystal (SX) Ni-base superalloy ERBO/1. In the as-cast condition, the typical γ/ γ′ structure is accompanied by undesirable intermetallic phases located in the interdendritic regions. The nature of these precipitates as well as their thermal stability between 800 and 1200 °C has been investigated by isothermal heat treatments. The investigation techniques include DSC, SEM, EDX, and TEM. The experimental information is complemented by (1) comparison with a structure map to link the local chemical composition with phase stability, as well as (2) thermodynamic calculations based on the CALPHAD method to determine the occurrence and composition of phases during solidification and in equilibrium conditions. The TCP phases Laves, µ and σ were identified in various temperature/time ranges. [ABSTRACT FROM AUTHOR]

Published

2016

4. Microsegregation and precipitates of an as-cast Co-based superalloy-microstructural characterization and phase stability modelling.

Author

Koßmann, J., Zenk, C., Lopez-Galilea, I., Neumeier, S., Kostka, A., Huth, S., Theisen, W., Göken, M., Drautz, R., and Hammerschmidt, T.

Subjects

*COBALT alloys, *METALLURGICAL segregation, *PRECIPITATION (Chemistry), *HEAT resistant alloys, *METAL microstructure, *CHEMICAL stability

Abstract

The demand for increased efficiency of industrial gas turbines and aero engines drives the search for the next generation of materials. Promising candidates for such new materials are Co-based superalloys. We characterize the microsegregation and solidification of a multi-component Co-based superalloy and compare it to a ternary Co-Al-W compound and to two exemplary Ni-based superalloys by combining the experimental characterization of the as-cast microstructures with complementary modelling of phase stability. On the experimental side, we characterize the microstructure and precipitates by electron microscopy and energy-dispersive X-ray spectroscopy and determine the element distributions and microsegregation coefficients by electron probe microanalysis (EPMA). On the modelling side, we carry out solidification simulations and a structure map analysis in order to relate the local chemical composition with phase stability. We find that the microsegregation coefficients for the individual elements are very similar in the investigated Co-based and Ni-based superalloys. By interpreting the local chemical composition from EPMA with the structure map, we effectively unite the set of element distribution maps to compound maps with very good contrast of the dendritic microstructure. The resulting compound maps of the microstructure in terms of average band filling and atomic-size difference explain the formation of topologically close-packed phases in the interdendritic regions. We identify B2, C14, and D0 precipitates with chemical compositions that are in line with the structure map. [ABSTRACT FROM AUTHOR]

Published

2015

5. Upregulation of pyrophosphate: fructose 6-phosphate 1-phosphotransferase (PFP) activity in strawberry.

Author

Basson, C. E., Groenewald, J.-H., Kossmann, J., Cronjé, C., and Bauer, R.

Abstract

Pyrophosphate: fructose 6-phosphate 1-phosphotransferase (PFP) is a cytosolic enzyme catalyzing the first committed step in glycolysis by reversibly phosphorylating fructose-6-phosphate to fructose-1,6-bisphosphate. The position of PFP in glycolytic and gluconeogenic metabolism, as well as activity patterns in ripening strawberry, suggest that the enzyme may influence carbohydrate allocation to sugars and organic acids. Fructose-2,6-bisphosphate activates and tightly regulates PFP activity in plants and has hampered attempts to increase PFP activity through overexpression. Heterologous expression of a homodimeric isoform from Giardia lamblia, not regulated by fructose-2,6-bisphosphate, was therefore employed to ensure in vivo increases in PFP activity. The coding sequence was placed into a constitutive expression cassette under control of the cauliflower mosaic virus 35S promoter and introduced into strawberry by Agrobacterium tumefaciens-mediated transformation. Heterologous expression of PFP resulted in an up to eightfold increase in total activity in ripe berries collected over two consecutive growing seasons. Total sugar and organic acid content of transgenic berries harvested during the first season were not affected when compared to the wild type, however, fructose content increased at the expense of sucrose. In the second season, total sugar content and composition remained unchanged while the citrate content increased slightly. Considering that PFP catalyses a reversible reaction, PFP activity appears to shift between gluconeogenic and glycolytic metabolism, depending on the metabolic status of the cell. [ABSTRACT FROM AUTHOR]

Published

2011

6. Effect of indole-3-acetic acid and kinetin on tuberisation parameters of different cultivars and transgenic lines of potato in vitro.

Author

Romanov;, G.A., Aksenova, N.P., Konstantinova, T.N., Golyanovskaya, S.A., Kossmann, J., and Willmitzer, L.

Published

2000

7. Undernutrition in relation to childhood infections: a prospective study in the Sudan.

Author

Kossmann, J. and Nestel, P.

Subjects

*NUTRITION, *DIARRHEA, *RESPIRATORY infections, *HEALTH

Abstract

Presents a study which examined the relationships between nutritional status and diarrhea and respiratory infections in rural communities in Sudan. Information on diarrhea and respiratory infections in underdeveloped countries; Methodology; Results and discussion.

Published

2000

8. Morphology and tuber formation of in-vitro-grown potato plants harboring the yeast invertase gene and/or the rolC gene.

Author

Romanov, G. A., Konstantinova, T. N., Sergeeva, L. I., Golyanovskaya, S. A., Kossmann, J., Willmitzer, L., Schmülling, T., and Aksenova, N. P.

Abstract

Growth and tuber formation of transgenic potato plants ( Solanum tuberosum cv. Désirée) harboring the yeast invertase gene and the rolC gene individually or in combination under the transcriptional control of the patatin promoter were investigated under different conditions in vitro . Plants expressing only the invertase gene were morphologically similar to control plants. rolC transgenic plants had an increased tiller number, improved root growth, and a higher total biomass. Tuber formation and growth were altered by the introduced transgenes. The sucrose requirement to induce tubers was shifted to lower or higher concentrations for invertase- or rolC-expressing clones, respectively. In addition, rolC plants formed tubers of altered morphology. A comparison with soil-grown plants showed that morphological parameters can be predicted to some extent from in vitro studies, while for reliable prescreening of parameters concerning tuber formation and growth, an optimization of currently used protocols is necessary. [ABSTRACT FROM AUTHOR]

Published

1998

9. Introduction of sense and antisense cDNA for branching enzyme in the amylose-free potato mutant leads to physico-chemical changes in the starch.

Author

Flipse, E., Suurs, L., Keetels, C., Kossmann, J., Jacobsen, E., and Visser, R.

Abstract

One isoform of the branching enzyme (BE; EC 2.4.1.18) of potato ( Solarium tuberosum L.) is known and catalyses the formation of α-1,6 bonds in a glucan chain, resulting in the branched starch component amylopectin. Constructs containing the antisense or sense-orientated distal 1.5-kb part of a cDNA for potato BE were used to transform the amylose-free ( amf) mutant of potato, the starch of which stains red with iodine. The expression of the endogenous BE gene was inhibited either largely or fully as judged by the decrease or absence of the BE mRNA and protein. This resulted in a low percentage of starch granules with a small blue core and large red outer layer. There was no effect on the amylose content, degree of branching or λ of the iodine-stained starch. However, when the physico-chemical properties of the different starch suspensions were assessed, differences were observed, which although small indicated that starch in the transformants was different from that of the amf mutant. [ABSTRACT FROM AUTHOR]

Published

1996