Evaluating Quantitative Variation in the Genome of ZEA MAYS

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Genomic diversity within the species Zea mays has been examined by measuring the variation in the repetitive component of the nuclear genome among North American inbred lines and varieties. This was done by preparing a set of clones of repetitive maize sequences that differ in function, molecular arrangement and multiplicity and then using these as probes for quantitative hybridization to DNA from various maize genotypes. The comparison showed that the majority of repeated sequences are markedly variable in copy number among the ten maize strains tested.—The clone sample contained the rDNA and 5S genes, the major repeat of the chromosome knobs, sequences functioning as origins of DNA replication in yeast (ARS sequences) and randomly cloned sequences of unknown function and chromosomal location. The sequences ranged in reiteration frequency from 200 to greater than 105 copies and included both tandemly arrayed and dispersed repeats. The copy numbers were measured by hybridizing labeled cloned sequences to aliquots of high molecular weight genomic DNA that were applied to nitrocellulose filters through a slotted template (slot blotting). The hybridization signal on an autoradiogram occurred in a narrow band that could be scored reliably with a densitometer. This provided a rapid method of determining the abundance of particular repeated sequences in individual plants and plant populations. Using this technique, we found that the copy number of repeated sequences of all types generally varied among the strains by two- to threefold, although at least one sequence showed no detectable variation.—In contrast to the variability found between strains, individuals within an inbred line or variety were found to be indistinguishable in terms of specific sequence multiplicity. Each genotype has a different pattern of copy numbers for the set of repeated sequence clones, and this pattern is characteristic of all individuals of a particular genotype. The data also show that the copy number of each sequence varies independently. No strains had uniformly high or low copy numbers for the entire set of probes.

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