Hostname: page-component-77c89778f8-rkxrd Total loading time: 0 Render date: 2024-07-21T15:28:45.209Z Has data issue: false hasContentIssue false
  • English
  • Français

Recombination and chromosome structure in eukaryotes

Published online by Cambridge University Press:  14 April 2009

Aleksandra Putrament
Aleksandra Putrament
Affiliation:
Department of General Genetics, Institute of Biochemistry and Biophysics, Warsaw, 12, Poland

Summary

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Allelic recombination frequency and pattern in fungi show strong gene-to-gene variation. At least in two fungal species, Neurospora and Schizophyllum, recombination frequencies in certain chromosomal segments are genetically determined. The possibility that chromosomal proteins and/or synaptinemal complexes may play an important role in regulation of recombination frequency and pattern is discussed.

Type
Research Article
Information
Genetics Research , Volume 18 , Issue 1 , August 1971 , pp. 85 - 95
Copyright
Copyright © Cambridge University Press 1971

References

REFERENCES

Angel, T., Austin, B. & Catcheside, D. G. (1970). Regulation of recombination at the his-3 locus in Neurospora crossa. Australian Journal of Biological Sciences 23, 12291240.Google Scholar
Baranowska, H. (1970). Intragenic recombination pattern within the 164 locus of Ascobolua immersus in the presence of outside markers. Genetical Research 16, 185206.Google Scholar
Bekhor, I., Bonner, J. & Dahmus, G. K. (1969). Hybridization of chromosomal RNA to native DNA. Proceedings of the National Academy of Sciences, U.S.A. 62, 271277.CrossRefGoogle ScholarPubMed
Bekhor, I., Kung, G. M. & Bonner, J. (1969). Sequence-specific interaction of DNA and chromosomal proteins. Journal of Molecular Biology 39, 351364.CrossRefGoogle Scholar
Bloch, D. P.Cytochemistry of the histones. (1966). Protoplasmatologia 5 (3), 151.Google Scholar
Bonner, J., Dahmus, M. E., Fambrough, D., Huang, R. C., Marushige, K. & Tuan, D. Y. H. (1968). The biology of isolated chromatin. Science 159, 4756.CrossRefGoogle ScholarPubMed
Boucharenc, M., Mousseau, J. & Rossignol, J. L. (1966). Sur l'action de la température sur la fréquence des recombinaisons réciproques et non réciproques au sein du locus 75 de l'Ascobolus immeraus. Comptes rendus hebdomedaire des séances de l'Académie des Sciences D 262, 15891592.Google Scholar
Calef, E. (1957). Effect on linkage maps of selection of cross-overs between closely linked markers, Heredity 11, 265279.Google Scholar
Case, M. E. & Giles, H. N. (1958). Recombination mechanisms at the pan-2 locus in Neurospora crossa. Cold Spring Harbor Symposia on Quantitative Biology 23, 119135.Google Scholar
Catcheside, D. E. A. (1968). Regulation of the am-1 locus in Neurospora: Evidence of independent control of allelic recombination and gene expression. Genetics 59, 443452.CrossRefGoogle Scholar
Catcheside, D. E. A. (1970). Control of recombination within the nitrate-2 locus of Neurospora crossa: an unlinked dominant gene which reduces phototroph yields. Australian Journal of Biological Sciences 23, 855865.CrossRefGoogle Scholar
Catcheside, D. G. (1966). A second gene controlling allelic recombination in Neurospora crossa. Australian Journal of Biological Sciences 19, 10391046.Google Scholar
Catcheside, D. G. & Austin, B. (1969). The control of allelic recombination in histidine loci in Neurospora crossa. American Journal of Biology 56 (7), 685690.Google Scholar
Catcheside, D. G. & Austin, B. (1971). Common regulation of recombination at the amination-1 and histidine-2 loci in Neuropora crossa. Australian Journal of Biological Sciences 24, 107115.Google Scholar
Catcheside, D. G., Jessop, A. P. & Smith, B. R. (1964). Genetic controls of allelic recombination in Neurospora. Nature, London 202, 12421243.CrossRefGoogle ScholarPubMed
Connoly, V. & Simchen, G. (1968). Linkage to the incompatibility factors and maintenance of genetic variation in selection lines of Schizophyllum commune. Heredity 23, 387402.Google Scholar
Engels, F. M. & Croes, A. F. (1968). The synaptinemal complex in yeast. Chromosoma (Berl.) 25, 104106.Google Scholar
Fambrough, D. M. & Bonner, J. (1969). Limited molecular heterogeneity of plant histones. Biochimica et biophysica acta 175, 113122.CrossRefGoogle ScholarPubMed
Fincham, J. R. S. (1967). Recombination within the am gene of Neurospora crossa. Genetical Research 9, 4962.Google Scholar
Fogel, S. & Hurst, D. D. (1967). Meiotic gene conversion in yeast tetrads and the theory of recombination. Genetics 57, 455481.Google Scholar
Freese, E. (1957). The correlation effect for a histidine locus of Neurospora crossa. Genetics 42, 671684.Google Scholar
Gilmour, R. S. & Paul, J. (1969). RNA transcribed from reconstituted nueleoprotein is similar to natural BNA. Journal of Molecular Biology 40, 137139.CrossRefGoogle Scholar
Hawthorne, D. O. & Friis, J. (1964). Osmotic-remedial mutants. A new classification for nutritional mutants in yeast. Genetics 50, 829839.CrossRefGoogle ScholarPubMed
Huang, B. C. C. & Huang, P. C. (1969). Effect of protein-bound RNA associated with chick embryo chromatin on template specificity of the chromatin. Journal of Molecular Biology 39, 365378.CrossRefGoogle ScholarPubMed
Jessop, A. P. & Catcheside, D. G. (1965). Interallelic recombination at the his-1 locus in Neurospora crossa and its genetic control. Heredity 20, 237256.CrossRefGoogle Scholar
Jha, K. K. (1967). Genetic control of allelic recombination at the histidine-3 locus of Neurospora crossa. Genetics 57, 865873.CrossRefGoogle Scholar
Jha, K. K. (1969). Genetic factors affecting genetic recombination at the histidine-3 locus of Neurospora crossa. Molecular and General Genetics 105, 3037.Google Scholar
Kleinsmith, J. L., Heidema, J. & Carroll, A. (1970). Specific binding of rat liver nuclear proteins to DNA. Nature, London 226, 10251026.CrossRefGoogle ScholarPubMed
Koltun, Y., Raper, J. R. & Simchen, G. (1967). The genetic structure of the incompatibility factors of Schizophyllum commune: the B factor. Proceedings of the National Academy of Sciences, U.S.A. 57, 5562.Google Scholar
KoslovYu, V. Yu, V. & Georgiev, G. P. (1970). Mechanism of inhibitory action of histones on DNA template activity in vitro. Nature, London 228, 245247.CrossRefGoogle ScholarPubMed
Kruszewska, A. & Gajewski, W. (1967). Recombination within the Y locus in Ascobolua immersus. Genetical Research 9, 159177.CrossRefGoogle Scholar
Lamb, B. C. (1968). Gene conversion: temperature data from Sordaria fimicola on the correction of mispaired bases. Nature, London 217, 353354.CrossRefGoogle Scholar
Lamb, B. C. (1969 a). Related and unrelated changes in conversion and recombination frequencies with temperature in Sordaria fimicola, and their relevance to hybrid-DNA models of recombination. Genetics 62, 6778.Google Scholar
Lamb, B. C. (1969 b). Evidence from Sordaria that recombination and conversion are partly determined before meiosis, and for a general model of the control of recombination frequencies. Genetics 63, 807820.CrossRefGoogle ScholarPubMed
Leblon, G. & Rossignol, J. L. (1970). Sur les facteurs influençant les fréquences de conversions chez les Ascobolua immersus. Colloque Société française de génétique, Toulouse, 1970 (in the Press).Google Scholar
Leighton, T. J., Dill, B. C., Stock, J. J. & Phillips, C. (1971). Absence of histones from the chromosomal proteins of fungi. Proceedings of the National Academy of Sciences, U.S.A. 68, 677680.CrossRefGoogle ScholarPubMed
Lissouba, P. (1960). Mise en évidence d'une unité génétique polarisée et essai d'analyse d'un cas d'interférence négative. Annals des Sciences Naturelles (Botanique), 12e série, pp. 645720.Google Scholar
Lissouba, P., Mousseau, J., Rizet, G. & Rossignol, J. L. (1962). Fine structure of genes in the Ascomycete Ascobolus immersus. Advances in Genetics 11, 343380.CrossRefGoogle Scholar
Lu, B. C. & Baju, N. B. (1970). Meiosis in Coprinus. II. Chromosome pairing and the lamp-brush diplotene stage of meiotic prophase, Chromosoma (Beri.) 29, 305316.Google Scholar
Marakewicz, A. (1964). First results of genetic analysis in series 726 of Aecobolws immersile. Acta Societatis botanicorum Polaniae 33, 18.Google Scholar
Marcou, D. (1969). Sur la nature des recombinaisons intracistroniques et sur leur répercussions sur la ségrégation de marqueurs extérieurs chez le Podospora anserina. Comptes rendus hebdomadaires des séances de l'Academie des Sciences, Paris 269, 23622365.Google Scholar
Martin-Smith, C. (1961). A genetic investigation of the ad9 cistron of Aspergillus nidulans. Ph.D. thesis, University of Glasgow.Google Scholar
Moens, P. B. (1970). Premeiotic DNA synthesis and the time of chromosome pairing in Locusta migratoria. Proceedings of the National Academy of Sciences, U.S.A. 66, 9498.Google Scholar
Moses, M. J. (1968). Synaptinemal complex. Annual Review of Genetics 2, 363412.Google Scholar
Moses, M. J. (1969). Structure and function of the synaptinemal complex. Genetics 61 (Suppl. 1), 4151.Google Scholar
Mousseau, J. (1967). Analyse de la structure fine d'un géne chez Ascobolus immeraus. Contribution à l'étude de la recombinaison méiotique. Ph.D. thesis, Université de Paris.Google Scholar
Murray, N. E. (1963). Polarized recombination and the fine structure within the me-2 gene of Neurospora crossa. Genetics 48, 11631183.CrossRefGoogle Scholar
Murray, N. E. (1968). Polarized intragenic recombination in chromosome rearrangements of Neurospora. Genetics 58, 181191.Google Scholar
Murray, N. E. (1969). Reversal of polarized recombination of alleles in Neuroapora as a function of their position. Genetics 61, 6777.CrossRefGoogle ScholarPubMed
Olins, D. E. (1969). Interaction of lysine-rich histones and DNA. Journal of Molecular Biology 43, 439460.Google Scholar
Paszewski, A. (1967). A study on simultaneous conversion in linked genes in Ascobolus immersus. Genetical Research 10, 121128.Google Scholar
Paszewski, A. & Prazmo, W. (1969). The bearing of mutant and cross specificity on the pattern of intragenic recombination. Genetical Research 11, 3343.Google Scholar
Paul, J. & Gilmour, R. S. (1968). Organ-specific restriction of transcription in mammalian chromatin. Journal of Molecular Biology 34, 305316.Google Scholar
Pees, E. (1967). Genetic fine structure and polarized negative interference at the lya-51 (FL) locus of Aspergillus nidulans. Genetica 38, 275304.Google Scholar
Pritchard, R. H. (1955). The linear arrangement of a series of alleles in Aspergillus nidulans. Heredity 9, 343371.Google Scholar
Pritchard, R. H. (1960). Localized negative interference and its bearing on models of gene recombination. Genetical Research 1, 124.Google Scholar
Putrament, A. (1964). Mitotic recombination in the pabal cistron of Aspergillus nidulans. Genetical Research 5, 316327.Google Scholar
Putrament, A. (1967). Mitotic recombination in Aspergillus nidulans. II. Simultaneous recombination within two closely linked cistrons. Molecular and General Genetics 100, 321336.CrossRefGoogle ScholarPubMed
Putrament, A., Rozbicka, T. & Wojciechowska, J. (1971). The highly polarized recombination pattern within the methA cistron of Aspergillus nidulans. Genetical Research 17, 125131.CrossRefGoogle ScholarPubMed
Rifaat, O. M. (1969). Crossing-over across the centromere in the mating-type chromosome of Neurospora crossa. Genetica 40, 8996.Google Scholar
Rizet, G., Lissouba, P. & Mousseau, J. (1960). Les mutations d'ascospores chez l'ascomycete Ascobolus immersus et l'analyse de la structure fine des genes. Bulletin de la Société française de physiologie végétale 6, 175193.Google Scholar
Rossen, J. M. & Westergaard, M. (1966). Studies on the mechanism of crossing over. II. Meiosis and the time of meiotio chromosome replication in the ascomycete Neotiella rutilons (Fr.) Dennis. Comptes Rendus des Travaux de Laboratoire Carlsberg 35, 233260.Google Scholar
Rossignol, J. L. (1964). Phénomènes de recombinaison intragénique et unité fonctionelle d'un locus chez l'Asocbolus immersus. First part of Ph.D. thesis, Université de Paris.Google Scholar
Rossignol, J. L. (1967). Contribution à l'étude des phénomènes de recombinaison intragénique. Second part of Ph.D. thesis, Université de Paris.Google Scholar
Rossignol, J. L. (1969). Existence of homogenous categories of mutants exhibiting various conversion pattern in gene 75 of Ascobolus immersus. Genetics 63, 795805.Google Scholar
DeSerres, F. J. (1958). Recombination and interference in the ad-3 region of Neurospora crossa. Cold Spring Harbor Symposia on Quantitative Biology 23, 111118.Google Scholar
Shih, T. H. & Bonner, J. (1970 a). Thermal denaturation and template properties of DNA complexes with purified histone fractions. Journal of Molecular Biology 48, 469487.CrossRefGoogle ScholarPubMed
Shih, T. Y. & Bonner, J. (1970 b). Template properties of DNA-polipeptyde complexes. Journal of Molecular Biology 50, 333344.Google Scholar
Siddiqi, O. H. (1962). The fine genetic structure of the paba 1 region of Aspergillus nidulans. Genetical Research 3, 6989.CrossRefGoogle Scholar
Siddiqi, O. H. & Putrament, A. (1963). Polarized negative interference in the pabal region of Aspergillus nidulans. Genetical Research 4, 1220.CrossRefGoogle Scholar
Simchen, G. (1967). Genetic control of recombination and the incompatiblity system in Schizophyllum commune. Genetical Research 9, 195210.Google Scholar
Simchen, G., Bail, N. & Nachsohn, I. (1971). Fine control of genetic recombination in yeast. Heredity 26, 137140.CrossRefGoogle ScholarPubMed
Simchen, G. & Connolly, V. (1968). Changes in recombination frequency following inbreeding in Schizophyllum. Genetics 58, 319326.Google Scholar
Simchen, G. & Stamberg, J. (1969 a). Genetic control of recombination in Schizophyllum commune: specific and independent regulation of adjacent and non-adjacent chromosomal regions. Heredity 24, 369381.CrossRefGoogle ScholarPubMed
Simchen, G. & Stamberg, J. (1969 b). Fine and coarse controls of genetic recombination. Nature, London 222, 329332.Google Scholar
Sirolap, Y. M. & Bonner, J. (1971). Association of chromosomal RNA with repetitive DNA. Proceedings of the National Academy of Sciences, U.S.A. 68, 387389.Google Scholar
Smith, B. R. (1965). Interallelic recombination at the his-5 locus in Neurospora crossa. Heredity 20, 257276.Google Scholar
Smith, B. R. (1966). Genetic controls of recombination. I. The recombination-2 gene of Neurospora crossa. Heredity 21, 481498.Google Scholar
Smyth, D. R. (1971). Effect of rec-3 on polarity of recombination in the amination-1 locus of Neurospora crossa. Australian Journal of Biological Sciences 24, 97106.CrossRefGoogle Scholar
Spelsberg, T. C., Tankersley, S. & Hnilica, L. S. (1969). The interaction of RNA poly-merase with histones. Proceedings of the National Academy of Sciences U.S.A. 62, 12181225.Google Scholar
Stadler, D. R. (1959). The relationship of gene conversion to crossing over in Neurospora. Proceedings of the National Academy of Sciences, U.S.A. 45, 16251629.Google Scholar
Stadler, D. R. & Karyia, B. (1969). Intragenic recombination at the mtr locus of Neurospora with segregation at an unselected site. Genetics 63, 291316.Google Scholar
Stadler, D. R. & Towe, A. M. (1962). Genetic factors influencing crossing over frequency in Neurospora. Genetics 47, 839846.CrossRefGoogle ScholarPubMed
Stabler, D. R. & Towe, A. M. (1963). Recombination of allelic cysteine mutants in Neurospora. Genetics 48, 13231344.Google Scholar
Stamberg, J. (1968). Two independent gene systems controlling recombination in Schizophyllum commune. Molecular and General Genetics 102, 221228.Google Scholar
Stamberg, J. (1969 a). Genetic control of recombination in Schizophyllum commune: separation of the controlled and controlling loci. Heredity 24, 306309.Google Scholar
Stamberg, J. (1969 b). Genetic control of recombination in Schizophyllum commune: the occurrence and significance of natural variation. Heredity 24, 361368.CrossRefGoogle ScholarPubMed
Stamberg, J. & Simchen, G. (1970). Specific effects of temperature on recombination in Schizophyllum commune. Heredity 25, 4152.Google Scholar
Stern, H. & Hotta, Y. (1969). DNA synthesis in relation to chromosomal pairing and chiasma formation. Genetics 61 (Suppl. 1), 2739.Google Scholar
Thomas, P. L. & Catcheside, D. G. (1969). Genetic control of flanking marker behaviour in an allelic cross of Neurospora crassa. Canadian Journal of Genetics and Cytology 11, 558566.Google Scholar
Westergaard, M. & Von Wettstein, D. (1966). Studies on the mechanism of crossing over. III. On the ultrastructure of the chromosomes in Neotiella rutilans (Fr.) Dennis. Comptes rendus des travaux de Laboratoire de Carlsberg 37, 239268.Google Scholar
Westergaard, M. & Von Wettstein, D. (1968). The meiotic cycle in an ascomycete. In Effects of Radiation on Meitic Systems, pp. 113120. Vienna: International Atomic Energy Agency.Google Scholar
Westergaard, M. & Von Wettstein, D. (1970). Studies on the mechanism of crossing over. IV. The molecular organization of the synaptinemal complex in Neotiella (Cooke) Saccado (Ascomycetes). Comptes randus des Travaux de Laboratoire de Carlsberg 37, 239268.Google Scholar
Zimmermann, F. K. (1971). Inducation of mitotic gene conversion by mutagens. Mutation Research 11, 327337.Google Scholar