Abstract
Previously we have shown that the nucleolus organizer region (NOR) of Neurospora crassa displays frequent size changes during crosses. In these initial studies, we observed that decreases in NOR size are far more common than increases. Here, we have investigated the inheritance of NOR size in a strain with an unusually small NOR. We call this strain SNO for small nuclelous organizer. We found that progeny that inherit their rDNA from SNO receive either an NOR that is larger than that of SNO or, rarely, the same size, but never an NOR that is smaller than that of SNO. The number of progeny that inherit their NOR from SNO is not significantly different from the number that inherit their NOR from the other parent in the cross. This argues against the idea that the failure to find progeny with NORs smaller than that of SNO is due to inviability of spores carrying such an NOR, or that it is due to unconscious bias by the experimenter against isolating such spores. These results can most easily be explained by a combination of unequal sister chromatid exchanges in the rDNA, or sister chromatid conversion, coupled with selection againts nuclei harboring small NORs during the premeiotic phase of the Neurospora life cycle. Other, less conventional, explanations are also possible, such as “directed” increase in the target NOR without corresponding loss at some other NOR.
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References
Barry EG, Perkins DD (1969) Position of linkage group V markers in chromosome 2 of Neurospora crassa. J Hered 60:120–125
Butler DK, Metzenberg RL (1989) Premeiotic change of nucleolus organizer size in Neurospora. Genetics 122:783–791
Butler DK, Metzenberg RL (1990) Expansion and contraction of the nucleolus organizer region of Neurospora: changes originate in both proximal and distal segments. Genetics 126:325–333
Chu G, Vollrath D, Davis RW (1986) Separation of large DNA molecules by contour-clamped homogeneous electric fields. Science 234:1582–1584
Fogel S, Welch JW, Louis EJ (1984) Meiotic gene conversion mediates gene amplification in yeast. Cold Spring Harbor Symp Quant Biol 49:55–65
Hawley RS, Tartof KD (1983) The effect of mei-41 on rDNA redundancy in Drosophila melanogaster. Genetics 104:63–80
Hawley RS, Marcus CH, Cameron ML, Schwartz RL, Zitron AE (1985) Repair-deficient mutations inhibit rDNA magnification in Drosophila and discriminate between meiotic and premeiotic magnification. Proc Natl Acad Sci USA 82:8095–8099
Krumlauf R, Marzluf GA (1980) Genome organization and characterization of the repetitive and inverted DNA sequences in Neurospora crassa. J Biol Chem 255:1138–1145
Long EO, Dawid IB (1980) Repeated genes in eukaryotes. Annu Rev Biochem 49:727–764
Metzenberg RL (1988) An alternate way of collecting, storing and dissecting Neurospora asci. Fungal Genet Newslett 35:28
Perkins DD, Barry EG (1977) The cytogenetics of Neurospora Adv Genet 19:133–285
Perkins DD, Radford A, Newmeyer D, Bjorkman M (1982) Chromosomal loci of Neurospora. Microbiol Rev 46: 426–570
Perkins DD, Metzenberg RL, Raju NB, Selker EU, Barry EG (1986) Reversal of a Neurospora translocation by crossing over involving displaced rDNA, and methylation of the rDNA segments that result from recombination. Genetics 114:791–817
Ritossa F (1968) Unstable redundancy of genes for ribosomal RNA. Proc Natl Acad Sci USA 60:509–516
Ritossa F (1972) Procedure for magnification of lethal deletions of genes for ribosomal RNA. Nature New Biol 240:109–111
Ritossa F, Atwood KC, Spiegelman S (1966) A molecular explanation of the bobbed mutants of Drosophila as deficiencies of “ribosomal” DNA. Genetics 54:819–834
Russell PJ, Petersen RC, Wagner S (1988) Ribosomal DNA inheritance and recombination in Neurospora crassa. Mol Gen Genet 211:541–544
Tartof KD (1973) Regulation of ribosomal RNA gene multiplicity in Drosophila melanogaster. Genetics 73:57–71
Tartof KD (1974) Unequal mitotic sister chromatid exchange as the mechanism of ribosomal RNA gene magnification. Proc Natl Acad Sci USA 71:1272–1276
Vollrath D, Davis RW (1987) Resolution of DNA molecules greater than 5 megabases by contour-clamped homogeneous electric fields. Nucleic Acids Res 15:7865–7876
Westergaard M, Mitchell HK (1947) Neurospora V. A synthetic medium favoring sexual reproduction. Am J Bot 34:573–577
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Communicated by: S. Gerbi
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Butler, D.K., Metzenberg, R.L. Amplification of the nucleolus organizer region during the sexual phase of Neurospora crassa . Chromosoma 102, 519–525 (1993). https://doi.org/10.1007/BF00368345
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DOI: https://doi.org/10.1007/BF00368345