Use of the bacteriophage F44 for the search of the Erwinia horticola external suppressors

Tovkach, F. I.; Gorb, T. E.

doi:10.7124/bc.000558

Biopolym. Cell. 2000; 16(1):64-68.

http://dx.doi.org/10.7124/bc.000558

Viruses and Cell

Use of the bacteriophage F44 for the search of the Erwinia horticola external suppressors

1Tovkach F. I., 1Gorb T. E.

D. K. Zabolotny Institute of Microbiology and Virology, NAS of Ukraine
154, Academika Zabolotnogo Str., Kyiv, Ukraine, 03680

Abstract

Earlier we have separated from E. horticola the phage F44 which has the wide area of the host bacteria. The hydroxylamine has been used to obtain the F44 nonsense mutants. The selection of F44 nonsense mutants has been carried out on Escherichia coli having the definite suppressor (supE44/su2 ). We have isolated spontaneous revertants His⁺ from the auxotrophic mutants of the E. horticola His⁺ which have been obtained by the treatment of 2-aminopurine and hydroxylamine. The selection of the E. horticola suppressor strains has been based on the sensitivity of the revertants to the F44 and to its nonsense mutants. We have concluded that the use of the F44 as the test system for the search of the E. horticola external suppressors is sufficiently effective for such poorly investigated bacteria as Erwinia.

Full text: (PDF, in Russian)

References

[1] Tovkach FI, Grigoryan YuA, Ruban VI, Kishko YaG. Polylysogeny of Erwinia carotovora 268R. Mikrobiol Zh. 1984;46(3):71-6.

[2] Tovkach FI, Grigoryan YuA, Ruban VI, Danileichenko VV, Kishko YaG. Restriction map of the permutated DNA of Erwinia carotovora temperate bacteriophage 59. Mol Gen Mikrobiol Virusol. 1988;(1):20-4.

[3] Yagovdik MV, Mukvich NS, Kishko YaG. Quantitative complementation of ts-mutants of the temperate bacteriophage 59 of Erwinia carotovora and genetic mapof its genome. Mikrobiol Zh. 1988; 50(1):37-41.

[4] Didyk OA, PilipenkoVG. Genetical study of Erwinia carotovora 268 phage 59: Isolation and complementation analysis of clear-mutants. Mikrobiol Zh. 1984;46(2):69-70.

[5] Schoonejans E, Faelen M, Desmet L, Toussaint A. Amber suppressors of Erwinia chrysanthemi. Ann Inst Pasteur Microbiol. 1987;138(3):289-96.

[6] Stent GS, Calendar R. Molecular Genetics. 1978; 2nd ed. Freeman, San Francisco

[7] Davis RW, Botstein D, Roth JR, A Manual for Genetic Engineering, Advanced Bacterial Genetics. Cold Spring Harbor Laboratory. 1980; 251 p.

[8] Tovkach FI. New virulent bacteriophage reproduced in strains Erwinia horticola and Escherichia coli. Mikrobiol Z. 1994; 56(5):107.

[9] Tovkach FI, Grigoryan YuA, Ruban VI, Kishko YaG. The comparative characteristics of temperate Erwinia carotovora 268 phages. Mikrobiol Zh. 1985; 47(1):59-64.

[10] Miller JH. Experiments in molecular genetics. Cold Spring Harbor Laboratory, 1972, 466 p.

[11] Witkin EM, Sicurella NA. Pure clones of lactose-negative mutants obtained in escherichia coli after treatment with 5-bromouracil. J Mol Biol. 1964;8:610-3.

[12] Whitfield HJ Jr, Martin RG, Ames BN. Classification of aminotransferase (C gene) mutants in the histidine operon. J Mol Biol. 1966;21(2):335-55.

[13] Watson JM, Holloway BW. Suppressor mutations in Pseudomonas aeruginosa. J Bacteriol. 1976;125(3):780-6.