Abstract
The knotted1 gene was first defined by dominant mutations that affect leaf morphology. The original allele, Kn1-O, results from a 17-kb tandem duplication. Mutator (Mu) insertions near the junction of the two repeats suppress the leaf phenotype to different degrees depending on the position of the insertion. The Mu insertions also increase the frequency of recombination at Kn1-O to create derivative alleles in which the Mu element and one copy of the repeat are lost. These derivatives are normal in appearance. Here we describe two derivatives that retained the tandem duplication but gained insertions of 1.7 and 3 kb in length in place of the Mu element. In each case, the inserted DNA is a sequence that normally flanks the distal repeat unit. Thus, each derivative consists of a tandem duplication in which the repeat unit has been extended at its distal end by the length of the new insertion. The 1.7-kb insertion dampens the phenotype, as did the original Mu insertion, whereas the 3-kb insertion completely suppresses the knotted phenotype. We propose that gene conversion, stimulated by the double-strand break of the Mu excision, gave rise to these derivatives.