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Restoration of fertility by antisense RNA in genetically engineered male sterile tobacco plants (1993)

Schmülling, Thomas ; Röhrig, Horst ; Pilz, Silke ; [et al.]

Springer

Molecular genetics and genomics 237 (1993), S. 385-394

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ISSN: 1617-4623

Keywords: Male sterility ; Restorer gene ; Antisense RNA ; Agrobacterium rhizogenes ; Transgenic plants

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Transgenic tobacco plants (Nicotiana tabacum L.) expressing the rolC gene of Agrobacterium rhizogenes under the transcriptional control of the 35S RNA promoter are male sterile. When these plants are genetically crossed with others containing the rolC gene linked in antisense orientation to the 35S RNA promoter, hybrid progeny display restoration of male fertility. Moreover, hybrid progeny are revertant for other features of the rolC phenotype, such as restoration of plant height, leaf pigment content and female fertility. The level of restoration of the characteristics of untransformed tobacco appeared to be independent of the steady-state level of antisense RNA. Addition of six transcriptional enhancer sequences upstream of the 35S transcriptional start region in the antisense construct led to a higher steady-state level of antisense RNA than that produced using a promoter linked to a single enhancer sequence. However no significant difference was observed in the level of attenuation of the rolC phenotype in the progeny of crosses with either one or six transcriptional enhancers linked to the antisense rolC gene. Antisense constructs comprising only 189 by of the rolC 5′ coding region appeared less efficient in attenuating the rolC phenotype than those including the whole rolC coding region as well as its 3′ untranslated region. Furthermore, results from experiments on light-controlled rolC gene expression indicate that microsporogenesis is sensitive to rolC gene action during the early stages of flower development.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00279442

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Gene silencing in transgenic tobacco hybrids: frequency of the event and visualization of somatic inactivation pattern (1995)

Schmülling, Thomas ; Röhrig, Horst

Springer

Molecular genetics and genomics 249 (1995), S. 375-390

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ISSN: 1617-4623

Keywords: DNA methylation ; Transgenic plants Gene inactivation ; Gene inactivation ; Transgenic plants ; Antisense gene

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We have investigated the stability of the expression of different T-DNA-borne genes in hybrid tobacco lines. These lines were constructed to rescue rolC-induced male sterility in kanamycin-resistant P35s-rolC transgenic tobacco plants by expression of rolC antisense genes. Using five different tester lines, a total of 158 hybrids was obtained. We observed inactivation of transgene expression in 20% of the F1 progeny and in 35% of the backcrossed F2 progeny, as indicated by the loss of kanamycin resistance. In 3% of all crosses complete loss of antibiotic resistance was noted, while in most affected hybrid progeny only part of the population became kanamycin sensitive. Single genes could be selectively inactivated on T-DNAs harboring several genes. Gene inactivation was not restricted to one of the two T-DNAs examined. Somatic silencing, visualized by a cell-specific 35SGUSINT marker gene, occurred in a random fashion or exhibited an inherited specific pattern. The type of somatic silencing pattern observed indicated developmental control of the process. Two phenotypic classes could be distinguished with respect to frequency and timing of the inactivation process. Rapid gene inactivation, occurring within a few weeks after germination of hybrid seedlings, was characterized by complete methylation of restriction sites in the promoter of the silenced gene, resetting of gene expression during meiosis, heridity of the developmentally controlled program of gene silencing in subsequent generations, and rapid reactivation of gene expression after genetic separation of the different T-DNAs. In contrast, a slow type of gene inactivation was of a more stochastic nature and was recognized only in hybrids of the backcrossed F2 generation. In this case the degree of promoter methylation, which could extend beyond the T-DNA borders, was not correlated with the reduction in steady-state poly(A)+ mRNA levels, the silenced state was transmitted through meiosis and reactivation lasted several generations. The implications of the observations for our understanding of the gene inactivation process are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00287099

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