A TILLING Reverse Genetics Tool and a Web-Accessible Collection of Mutants of the Legume Lotus japonicus

Abstract

Reverse genetics aims to identify the function of a gene with known sequence by phenotypic analysis of cells or organisms in which the function of this gene is impaired. Commonly used strategies for reverse genetics encompass transposon mutagenesis (Tissier et al., 1999) and RNA-mediated gene silencing or RNA interference (Voinnet, 2002). We adopted a complementary strategy to set up a reverse genetics tool for the legume Lotus japonicus that identifies individuals carrying point mutations in any gene of interest within a large population of ethyl methane- sulfonate (EMS)-mutagenized M2 plants. This strat- egy was first described by McCallum et al. (2000a,b) using the acronym TILLING (Targeted Induced Local Lesions in Genomes). The target sequence is PCR amplified from pooled M2 individuals. DNA with point mutations are detected by melting and re- annealing of the PCR products. This results in the formation of heteroduplex DNA in which one strand originates from the mutant and the other from the wild-type PCR product. A mismatch occurs at the site of the point mutation, which can be detected using mismatch-specific endonucleases such as CEL I from celery (Apium graveolens; Yang et al., 2000). This enzyme recognizes mismatches in heteroduplex DNA and cleaves DNA specifically at the mis- matched site. The cleavage products can be separated by gel electrophoresis, typically sequencing-type de- naturing PAGE. This method of mismatch detection is amenable to pooling strategies. In the Arabidopsis TILLING facility, DNA of eight M2 plants is mixed to form a pool (Colbert et al., 2001). At this pool size, a population of 768 individuals can be screened by PCR in a 96-well microtiter plate, and run on one 96-well gel, each well representing eight individuals. Individuals from pools yielding cleavage products are then PCR amplified individually to identify the mutation bearing plant, progeny of which will seg- regate the mutation of interest.