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Trisomy associated with loss of maturation capacity in a long-term embryogenic culture of Abies alba (1997)

Roth, R. ; Ebert, I. ; Schmidt, J.

Springer

Theoretical and applied genetics 95 (1997), S. 353-358

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ISSN: 1432-2242

Keywords: Key words Abies alba ; Organic nitrogen ; Somatic embryogenesis ; Somaclonal variation ; Trisomic karyotype

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Karyological studies were made on a 6-year-old embryogenic cell line of Abies alba. Embryogenic cells were obtained from a mature zygotic embryo cultivated on modified MCM-medium and subcultured every 3 weeks. Three years after induction, part of the cell line was transferred to media supplemented with 500 or 1000 mg l-1 caseine hydrolysate and 500 mg l-1 L-glutamine. Approximately 3 years after addition of the organic nitrogen to the medium, morphological changes such as malformation of the suspensor cells and a loss of maturation capacity occurred. Chromosome counts revealed that all cells cultivated on medium with organic nitrogen were trisomic. Fluorescent-banding methods and comparison with an euploid cell line showed that the additional chromosome belonged to the group of long, metacentric chromosomes of Abies alba without secondary constriction. Those cells cultured on medium not supplemented with caseine hydrolysate and L-glutamine retained a stable chromosome number of 2n=24. Both normal and deformed suspensor cells were observed. The maturation frequency was very low. The emergence of aneuploidy within one cell line could be the consequence of high selection pressure caused by the different culture conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050570

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Origin of facultative heterochromatin in the endosperm ofGagea lutea (Liliaceae) (2000)

Greilhuber, J. ; Ebert, I. ; Lorenz, A. ; [et al.]

Springer

Protoplasma 212 (2000), S. 217-226

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ISSN: 1615-6102

Keywords: DNA content ; Embryo sac development ; Endosperm ; Facultative heterochromatin ; Fertilization ; Gagea lutea

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Facultative heterochromatin occurs not only in certain animals in connection with sex determination but also in members of at least one plant genus,Gagea (Liliaceae s. str.), but here in the course of embryo sac development, fertilization, and endosperm formation. The present contribution intends to provide undebatable photographic and cytometric evidence, previously not available, for the events in the course of which three whole genomes in the pentaploid endosperm nuclei ofGagea lutea become heterochroma-tinized. In this plant, embryo sac formation usually follows the Fritillaria type, i.e., the embryo sac is tetrasporic, and a “1 + 3 position” of the spore nuclei is followed by a mitosis in which the three chalazal spindles fuse and two triploid nuclei are formed. A triploid chalazal polar nucleus is derived from one of these, which contributes to the pentaploid endosperm. These nuclei in the chalazal part of the embryo sac show stronger condensation compared with the micropylar ones. The pycnosis of the triploid polar nucleus is maintained and even enhanced during endosperm proliferation, while the micropylar polar nucleus and the sperm nucleus maintain their euchromatic condition. The origin of the heterochromatic masses in the endosperm nuclei from the three chalazal genomes of the central cell is unambiguously evident from the distribution of heterochromatic chromosomes in the first endosperm mitosis and the following interphase. DNA content measurements confirm a 3 ∶ 2 relationship of heterochromatic and euchromatic chromosome sets, which is usually maintained up to the cellularized endosperm. Pycnotic nuclei in the chalazal part of megagametophytes are characteristic of several embryo sac types, but only forGagea spp. it is documented that such nuclei can take part in fertilization and endosperm formation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01282922

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