Abstract

Doubled haploid (DH) technology allows for the development of completely homozygous lines from heterozygous plants in only two generations. This approach has been widely adopted in maize breeding programs, as it expedites the generation of inbred lines compared to traditional methods. The DH approach is based on the use of maize genotypes that have the ability to induce haploid seeds when used as the pollen parent. The most common method for producing maize haploid plants for the generation of DH lines is in vivo maternal haploid induction. The process involves pollination with a haploid inducer maize line to generate haploid seeds. Then, haploids are screened for and identified (typically via the expression of a particular marker gene), germinated, treated with an exogenous doubling agent to induce genome duplication, and transplanted to the field. Following successful self-pollination, seeds harvested from the ear represent fully homozygous lines. The seed set at this stage, however, is often low, necessitating one or two additional rounds of self-pollination to increase the number of fully homozygous inbred lines. Here, we describe a protocol for the generation of maize DH lines using maternal haploid-inducing maize lines. We outline the steps for setting up the donor material, performing induction crosses, selecting haploids based on two different marker alleles, treating seedlings with colchicine to double the genome, transplanting the treated seedlings to the field, and self-pollinating the treated plants.

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