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Chloroplast transfer in Nicotiana based on metabolic complementation between irradiated and iodoacetate treated protoplasts (1981)

Sidorov, Vladimir A. ; Menczel, László ; Nagy, Ferenc ; [et al.]

Springer

Planta 152 (1981), S. 341-345

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ISSN: 1432-2048

Keywords: Chloroplast transfer ; Nicotiana ; Protoplasts fusion and inactivation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Protoplasts of a light sensitive plastome mutant of Nicotiana tabacum (2 n=48) were irradiated and fused with iodoacetate-treated Nicotiana plumbaginifolia (2 n=20) protoplasts. Treated parental protoplasts were unable to divide. Metabolic complementation, however, helped the recovery of interspecific fusion products which survived and formed calli. Altogether 40 clones were investigated. N. plumbaginifolia plants were obtained in 15 clones (38%), somatic hybrids in 23 clones, and both types of regenerates were found in 2 clones. Irradiation therefore significantly increased the frequency of segregant formation with the non-irradiated N. plumbaginifolia nuclei (the frequency was 1.4% in the absence of irradiation). Regenerated plants in most cases (31 out of 34) contained chloroplasts from the irradiated parent. In 6 clones plants were obtained with both types of chloroplast. Thus, irradiated N. tabacum chloroplasts had an improved chance of dominating the heterokaryonderived cells, many of which contained N. plumbaginifolia nucleus. The system described should be generally applicable for the transfer of chloroplasts without the use of selectable genetic markers.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00388259

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Streptomycin and lincomycin resistances are selective plastid markers in cultured Nicotiana cells (1990)

Moll, Benjamin ; Polsby, Lisa ; Maliga, Pal

Springer

Molecular genetics and genomics 221 (1990), S. 245-250

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ISSN: 1617-4623

Keywords: Lincomycin resistance ; Nicotiana ; Plastid markers ; Selection ; Streptomycin resistance

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Resistance to streptomycin and lincomycin in plant cell culture is used as a color marker: resistant cells are green whereas sensitive cells are white on the selective medium. Streptomycin and lincomycin at appropriate concentrations do not kill sensitive Nicotiana cells. The selective value of plastid ribosomal DNA mutations, conferring resistance to streptomycin and lincomycin, was investigated by growing heteroplastidic cells on a selective medium. The heteroplastidic cells were obtained by protoplast fusion, and contained a mixed population of streptomycin resistant plastids from the N. tabacum line Nt-SR1-Kan2, and lincomycin resistant plastids from the N. plumbaginifolia line Np-LR400-Hyg1. Clones derived from protoplast fusion were selected by kanamycin and hygromycin resistance, transgenic nuclear markers. Somatic hybrids were then grown on a selective streptomycin or lincomycin medium, or in the absence of either drug to a 50 to 100 mg size callus. Southern analysis of a polymorphic region of plastid DNA (ptDNA) revealed that somatic hybrids grown on streptomycin contained almost exclusively ptDNA from the streptomycin resistant parent, somatic hybrids grown on lincomycin contained almost exclusively ptDNA from the lincomycin resistant parent whereas somatic hybrids grown in the absence of either drug contained mixed parental plastids. Sensitive ptDNA was below detection level in most clones on selective medium, but could be recovered upon subsequent culture in the presence of the appropriate drug. The drugs streptomycin and lincomycin provide a powerful selection pressure that should facilitate recovery of plastid transformants.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00261727

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A dominant nuclear streptomycin resistance marker for plant cell transformation (1987)

Jones, Jonathan D. G. ; Svab, Zora ; Harper, Elisabeth C. ; [et al.]

Springer

Molecular genetics and genomics 210 (1987), S. 86-91

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ISSN: 1617-4623

Keywords: Chimeric gene ; Nicotiana ; Streptomycin phosphotransferase ; Streptomycin resistance ; Transformation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Plant cells in photoheterotrophic culture respond to streptomycin by bleaching and retarded growth but no cell death. A new genetic marker for plant cell transformation has been developed that is based on the expression of the enzyme streptomycin phosphotransferase (SPT), and confers the ability to form green colonies on a selective medium. Coding sequences of SPT from the bacterial transposon Tn5 were placed under the control of gene expression signals derived from the Agrobacterium Ti plasmid Ach5. The 5′ end of the SPT gene has been replaced with the promoter region of the gene coding for the first enzyme of agropine biosynthesis, the 3′ end with that of the enzyme octopine synthase. The chimeric SPT gene has been linked to a selectable kanamycin resistance gene, and introduced into Nicotiana tabacum and Nicotiana plumbaginifolia by selection for the linked kanamycin resistance marker. Streptomycin resistance was expressed in some but not all of the kanamycin-resistant lines and was transmitted to the seed progeny as a dominant nuclear trait.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00337762

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