Pearl millet (Pennisetum typhoides) produces three ADH isozymes, sets I, II, and III, with set III being expressed only in anaerobically treated seeds of seedlings. Variant strains have been identified which produce ADH isozymes with altered electrophoretic mobilities for sets I and II but not for set III activity. Based on genetic analysis of these variants and on dissociation-reassociation experiments, we propose that the three ADH isozymes are dimers of subunits coded by two structural genes, Adh1 and Adh2, with set I being a homodimer specified by Adh1, set III a homodimer specified by Adh2, and set II a heterodimer formed between the products of Adh1 and Adh2.
Pearl millet produces three ADH isozymes, Sets I, II, and III. Naturally occurring ADH electrophoretic variants affecting Sets I and II isozymes but not III have been previously described. Analysis of such variants led to the identification of the Adh1 structural gene. The existence of a second Adh structural gene was inferred from dissociation-reassociation studies of Set II. In the present report, a naturally occurring variant affecting the electrophoretic mobility of Sets III and II but not Set I is described. Analysis of this variant confirms the existence of a second structural gene, Adh2. Crosses utilizing this Adh2 marker reveal a dissimilarity with maize and other plants such as sunflower and narrow-leafed lupins. Adh1 and Adh2 of pearl millet do not segregate independently; indeed, no recombinants have been observed. This is the first major difference encountered in an otherwise remarkably similar genetic and environmental control of the ADH isozymes in maize and millet. The organization of the Adh genes of pearl millet may reflect a more primitive arrangement than that of maize.
Two linked genes, Adh1 and Adh2, specify three sets of ADH isozymes in pearl millet. Set I is a homodimer specified by Adh1, Set III is a homodimer specified by Adh2, and Set II is a heterodimer consisting of one ADH1 subunit and one ADH2 subunit. Dry seeds exhibit only Sets I and II. Anaerobic treatment of seeds greatly increases the activity of Sets I and II and causes the Set III isozymes to be expressed. In the investigation reported here, the ADH zymogram phenotypes of 112 inbred pearl millet lines were analyzed. Two kinds of naturally occurring ADH variant strains were observed: in the "low-activity" variant, Set II activity is low in the dry seed, and no Set II activity is present upon anaerobic treatment. In the "high-activity" variant, Set II activity is high and Set III isozymes are expressed in the dry seed. The mutation in the high-activity strain appears to affect the product of Adh2 and not the product of Adh1. Dominance tests show that the mutations in both types of variant strains act in cis. These observations and linkage tests indicate that the mutations are closely linked to or at the Adh2 locus.
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