Biopolym. Cell. 1991; 7(1):50-54.
Reviews
Adaptation of cells to environmental factors. Induction of genome rearrangemen
1Solovyan V. T.
  1. Institute of Molecular Biology and Genetics, Academy of Sciences of the Ukrainian SSR
    Kiev, USSR

Abstract

Some aspects of stress-induced genome instability is interpreted as one of the components of cellular response to stress. The systems controlling genome rearrangements are supposed to be related to the systems of stress-responsible genes.

References

[1] Taylor SY, Holliday R. Induction of thermotolerance and mitotic recombination by heat-shock in Ustilago maydiss. Curr Genet. 1984;9(1):59-63.
[2] Hilton C, Markie D, Corner B, Rikkerink E, Poulter R. Heat shock induces chromosome loss in the yeast Candida albicans. Mol Gen Genet. 1985;200(1):162-8.
[3] Paquin CE, Williamson VM. Temperature effects on the rate of ty transposition. Science. 1984;226(4670):53-5.
[4] Barsanti P, Palumbo G. Heat-shock or hybrid disgenesis induced instability of the W mutation of Drosophila melanogaster. Atti Assoc Genet Ital. 1985; 31(1):7-8.
[5] Junakovic N, Franco C, Barsanti P, Palumbo G. Transposition of copia-like nomadic elements can be induced by heat shock. J Mol Evol. 1986;24(1-2):89–93.
[6] Marx JL. Instability in Plants and the Ghost of Lamarck: The repetitive DNA sequences in the plant genome make a major contribution to genetic instability and variability in plants. Science. 1984;224(4656):1415-6.
[7] Walbot V, Cullis CA. Rapid genomic change in higher plants. Annu Rev Plant Physiol. 1985;36(1):367–96.
[8] Cullis CA. Phenotypic consequences of environmentally induced changes in plant DNA. Trends Genet. 1986;2:307–9.
[9] McClintock B. The significance of responses of the genome to challenge. Science. 1984;226(4676):792-801.
[10] Gerasimova TI, Mizrokhin LIu, Georgiev GP. «Transposition bursts» in single germ cells in genetically destabilized strains of Drosophila melanogaster. Dokl Akad Nauk SSSR. 1984; 274(6):1473-6.
[11] Pasyukova EG, Belyaeva ES, Kogan GL, Pavlova MB, Kaidanov LZ, Gvozdev VA. Transpositions of mobile dispersed genes (MDG) of Drosophila melanogaster are correlated with a shift of fitness. Genetika. 1984; 20(11):1772-82.
[12] Pasyukova EG, Kogan GL, Iovleva OV et al. Harmonized changes localization of mobile elements in the genome of Drosophila mehmogaster, reflecting the results of directional selection on quantitative traits. Dokl Akad Nauk SSSR. 1985; 283(6):1476-80.
[13] Schimke RT. Gene amplification in cultured animal cells. Cell. 1984;37(3):705-13.
[14] Drobetsky E, Meuth M. Increased mutational rates in Chinese hamster ovary cells serially selected for drug resistance. Mol Cell Biol. 1983;3(10):1882-5.
[15] Giulotto E, Knights C, Stark GR. Hamster cells with increased rates of DNA amplification, a new phenotype. Cell. 1987;48(5):837-45.
[16] Witkin EM. Ultraviolet mutagenesis and inducible DNA repair in Escherichia coli. Bacteriol Rev. 1976;40(4):869-907.
[17] Borodin PM. Stress and genetic variability. Genetika. 1987;23(6):1003-10.
[18] Dover GA, Flavell R. Genome evolution. London Acamed press. 1982
[19] Salganik RI. Molecular mechanisms of stress-induced hereditary variability. Genetika. 1987;23(6):1050-63.
[20] Tarasov VA. Molecular mechanisms of repair and mutagenesis - Moscow: Nauka, 1982. 220 p.
[21] Salganik RI, Dianov GL, Vasiunina EA, Ovchinnikova LP, Sinitsyna OI. Induction of a wide spectrum of recombinations resulting from limited site-directed damage to plasmid DNA by chemical mutagens. Dokl Akad Nauk SSSR. 1984;274(6):1483-7.
[22] Yager JD, Zurlo J, Penn AL. Heat-shock-induced enhanced reactivation of UV-irradiated Herpesvirus. Mutat Res. 1985;146(2):121-8.
[23] Georgiev PG, Korochkina SE, Mogila VA, Gerasimova TI. Induction of single transpositions of mobile genetic elements in Drosophila melanogaster using mitomycin C. Genetika. 1988;24(3):461-7.
[24] Haselkorn R, Golden JW, Lammers PJ, Mulligan ME. Developmental rearrangement of cyanobacterial nitrogen-fixation genes. Trends Genet. 1986;2:255–9.
[25] Delidakis C, Kafatos FC. Amplification of a chorion gene cluster in Drosophila is subject to multiple cis-regulatory elements and to long-range position effects. J Mol Biol. 1987;197(1):11-26.
[26] Rath H, Tlsty T, Schimke RT. Rapid emergence of methotrexate resistance in cultured mouse cells. Cancer Res. 1984;44(8):3303-6.
[27] Koropatnick J, Winning R, Wiese E, Heschl M, Gedamu L, Duerksen J. Acute treatment of mice with cadmium salts results in amplification of the metallothionein-1 gene in liver. Nucleic Acids Res. 1985;13(15):5423-39.
[28] Biswas DK, Hartigan JA, Pichler MH. Identification of DNA sequence responsible for 5-bromodeoxyuridine-induced gene amplification. Science. 1984;225(4665):941-3.
[29] Thireos G, Griffin-Shea R, Kafatos FC. Untranslated mRNA for a chorion protein of Drosophila melanogaster accumulates transiently at the onset of specific gene amplification. Proc Natl Acad Sci U S A. 1980;77(10):5789-93.
[30] Krueger JH, Walker GC. groEL and dnaK genes of Escherichia coli are induced by UV irradiation and nalidixic acid in an htpR+-dependent fashion. Proc Natl Acad Sci U S A. 1984;81(5):1499-503.
[31] Strand DJ, McDonald JF. Copia is transcriptionally responsive to environmental stress. Nucleic Acids Res. 1985;13(12):4401-10.
[32] Herrlich P, Angel P, Rahnorsdorf H. et al. The stress response of human primary fibroblasts and its implication for carcinogenesis. J Cell Biochem. 1985; Suppl,19C:17.
[33] Georgiev GP. Molecular genetics of the eukaryotic cell. Genetika. 1987;23(10):1734-40.
[34] Vivino AA, Smith MD, Minton KW. A DNA damage-responsive Drosophila melanogaster gene is also induced by heat shock. Mol Cell Biol. 1986;6(12):4767-9.
[35] Orr-Weaver TL, Spradling AC. Drosophila chorion gene amplification requires an upstream region regulating s18 transcription. Mol Cell Biol. 1986;6(12):4624-33.
[36] Iida H. Multistress resistance of Saccharomyces cerevisiae is generated by insertion of retrotransposon Ty into the 5' coding region of the adenylate cyclase gene. Mol Cell Biol. 1988;8(12):5555-60.
[37] Cruz AK, Terenzi HF, Jorge JA, Terenzi HF. Cyclic AMP-dependent, constitutive thermotolerance in the adenylate cyclase-deficient cr-1 (crisp) mutant of Neurospora crassa. Curr Genet. 1988;13(5):451-4.