Isolation and Cloning of Suppressor Mutants with Improved Pollen Fertility

Abstract

Mutant screens remain among the most powerful unbiased methods for identifying key genes in a pathway or process of interest. However, mutants impacting pollen function pose special challenges due to their genetic behavior. Here we describe an approach for isolating pollen mutants based on screening for suppressors of a low pollen fertility starting genotype. By identifying suppressor mutants with improved pollen fertility, we are able to identify new genes which are functionally relevant to pathway(s) causing low seed set in the original background. With this method, the low fertility of the genetic background may be due to one or more mutations or transgenes disrupting any aspect of pollen development or function. Furthermore, screening for improved pollen fertility biases toward recovery of the desired mutants due to their enhanced male transmission. The causative mutation is cloned using next-generation sequencing. The procedure uses both genetic and bioinformatics approaches to ultimately yield a very small list of candidate causative mutations speeding the transition from mutant phenotype to underlying gene.

Keywords: Cloning; Fertility; High-throughput sequencing; Mutagenesis; Pollen; Seed set; Suppressor screen.