| Abstract: | The High chlorophyll fluorescence106 (Hcf106) gene in maize is required for chloroplast membrane biogenesis, and the hcf106-mum1 allele is caused by the insertion of a Robertson's Mutator Mu1 element into the promoter of the gene. Seedlings homozygous for hcf106-mum1 are pale green and die 3 weeks after germination, but only in the presence of Mutator activity conferred by active, autonomous Mu regulatory transposons elsewhere in the genome. When Mutator activity is lost, the mutant phenotype is suppressed, and homozygous plants have an almost wild-type phenotype. To isolate derivative alleles at the hcf106 locus that no longer require Mutator activity for phenotypic expression, we have developed a method for site-selected transposon mutagenesis in maize. This procedure, first described for Caenorhabditis elegans and Drosophila, involves using polymerase chain reaction (PCR) to screen pools of individuals for insertions and deletions in genes of known sequence. Pools of seedlings segregating for the progenitor allele hcf106-mum1 were screened by PCR for insertions and deletions associated with Robertson's Mutator. In a 360-bp target region, two new insertions and one deletion were identified in only 700 Mu-active gametes screened. One of the insertions was in the progenitor hcf106-mum1 allele and the other was in the wild-type allele, but all three new alleles were found to have break-points at the same nucleotide in the first intron. Unlike the hcf-106-mum1 progenitor allele, the deletion and one of the insertions conferred pale green seedling lethal phenotypes in the absence of mutator activity. However, the second insertion had a weak, viable phenotype under these conditions.(ABSTRACT TRUNCATED AT 250 WORDS) |
