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The rate of nuclear gene transcription in barley endosperm syncytia increases sixfold before cell-wall formation (1992)

Bosnes, M. ; Olsen, O. -A.

Springer

Planta 186 (1992), S. 376-383

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ISSN: 1432-2048

Keywords: Endosperm development ; Gene transcription (endosperm) ; Hordeum (sex mutant) ; Mutant(barley)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The rate of gene transcription in endosperm nuclei up to the formation of the first cell layers was investigated by pulse-labelling young fertilized barley (Hordeum vulgare L.) ovules with [3H]uridine. Quantitative autoradiographic studies of silver grains accumulating over the nuclei of wild-type endosperm demonstrated that the rate of transcription increased sixfold in the period from 3 to 7 d after pollination (DAP). Based on this observation, and the fact that cell-wall formation is initiated at 6 DAP, it is concluded that at least a proportion of the transcripts encode proteins involved in cell-wall formation. A similar study was also undertaken with the two barley sex mutants B7 and B15, in which developmental arrest at the syncytical stage leads to a complete lack of endosperm cell walls. This study showed that [3H]uridine is incorporated into the nuclei of the mutant syncytia, although at a rate different from that in the wild-type. Thus, the lack of cell-wall formation is not caused by a total block of gene transcription in these mutants, but rather by the lack of a gene product essential for cell-wall formation in the endosperm.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00195318

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Morphology and ultrastructure of 11 barley shrunken endosperm mutants (1987)

Bosnes, M. ; Harris, E. ; Aigeltinger, L. ; [et al.]

Springer

Theoretical and applied genetics 74 (1987), S. 177-187

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ISSN: 1432-2242

Keywords: Barley ; Grain development ; Mutants ; Ultrastructure ; Genetics

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Eleven Na-azide induced barley shrunken endosperm mutants expressing xenia (sex) were characterized genetically and histologically. All mutants have reduced kernel size with kernel weights ranging from 11 to 57% of the wild type. With one exception, the mutant phenotypes are ascribable to single recessive mutant alleles, giving rise to a ratio of 3∶1 of normal and shrunken kernels on heterozygous plants. One mutant (B10), also monofactorially inherited, shows a gene dosage dependent pattern of expression in the endosperm. Among the 8 mutants tested for allelism, no allelic mutant genes were discovered. By means of translocation mapping, the mutant gene of B10 was localized to the short arm of chromosome 7, and that of B9 to the short arm of chromosome 1. Based on microscopy studies, the mutant kernel phenotypes fall into three classes, viz. mutants with both endosperm and embryo affected and with a non-viable embryo, mutants with both endosperm and embryo affected and with a viable embryo giving rise to plants with a clearly mutant phenotype, and finally mutants with only the endosperm affected and with a normal embryo giving rise to plants with normal phenotype. The mutant collection covers mutations in genes participating in all of the developmental phases of the endosperm, i.e. the passage from syncytial to the cellular endosperm, total lack of aleurone cell formation and disturbance in the pattern of aleurone cell formation. In the starchy endosperm, varying degrees of cell differentiation occur, ranging from slight deviations from wild type to complete loss of starchy endosperm traits. In the embryo, blocks in the major developmental phases are represented in the mutant collection, including arrest at the proembryo stage, continued cell divisions but no differentiation, and embryos deviating only slightly from the wild type.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00289966

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