Congruence of conventional and molecular studies to locate genes that control flavone synthesis in maize silks

Abstract

AbstractThe presence of maysin, a flavone glycoside, and its analogues in the silks of corn is an important defence against invasion of the ear by corn earworm in the southeastern USA. Three dent maize inbreds with high silk‐maysin concentrations were evaluated for chromosomal location of major genes controlling synthesis of three antibiotic chemicals by crossing them to a series of waxy‐marked chromosome 9 reciprocal translocations. The data indicated that genes for maysin and its analogues are probably present on the short arms of chromosomes 1 and 10, and long arms of chromosomes 5 and 8 for inbred line GT114, the short arms of chromosome 1 and 6, and the long arms of chromosome 5 and 8 for inbred line GE37, and the short arms of chromosomes 1 and 10, and the long arm of chromosome 4 for inbred line SC102. These results are in general agreement with other translocation studies on corn earworm injury to sweet corn inbreds and gene and restriction fragment length polymorphism marker studies to locate quantitative trait loci (QTL) for maysin synthesis, with the exception that QTL on chromosome 9 have been found to be strongly associated with flavone synthesis. The most significant concordance between conventional and molecular techniques for locating chromosome regions influencing synthesis of antibiotic chemicals from silks of high silk antibiosis sources is found for the short arm of chromosome 1. This region is the most likely one on which to place emphasis during the initial stages of transferring high‐maysin silks to elite inbred lines. A chromosome 1 marker plus at least one more from any chosen high‐maysin inbred source should be sufficient to transfer high maysin silks to other lines. Other markers may be needed for transfer of specific traits when recovering recurrent parent genome types in a backcrossing procedure.