NSF Award
8760705
There is a definite need in crop improvement for a method to isolate plant genes which relies primarily on phenotypes. The idea of using plant transposons in such a strategy is attractive but its efficient implementation awaits a detailed investigation into factors which might influence transposition frequency. The corn transposon Ac (Activator), which has been used in gene isolation in corn, is known to transpose in tobacco, but existing systems for monitoring the activity of the transposon are limited by the absence of any phenotype which can be easily scored in whole plants. This poses problems in assessing the effectiveness of systems for gene isolation based on transposon mutagenesis. Dr. Jones has engineered a useful visual assay for Ac transposition is seedlings based on scoring somatic excisions from a streptomycin resistance gene. He proposes to carry out further studies on genetic and other factors which might influence transposition frequency in dicots in order to refine plant transposon technology so that it can effectively be used for gene isolation in this group of plants. The development of this transposon technology will enable the isolation of plant genes which could not easily be isolated by other means.
