Li Yuan 's group from Northwest A&F University has made progress in the study of watermelon haploid induction

Generating haploid plants for the purpose of obtaining pure doubled haploid (DH) lines is widely recognized as one of the most efficient breeding strategies in modern agriculture. Watermelon (Citrullus lanatus), an important fruit crop known for its nutritional value and flavor, has undergone long-term artificial selection resulting in genetic narrowing. Therefore, there is an urgent need for a haploid induction system to enhance traditional breeding methods and facilitate the development of valuable pure DH lines.

In March 2023, the Plant Biotechnology Journal published an online paper titled "Production of double haploid watermelon via maternal haploid induction" by Xu Yong's team from the Beijing Academy of Agricultural and Forestry Sciences (https://doi.org/10.1111/pbi.14045). This report showcases the successful production of DH plants through an in vivo (seed-based) haploid induction system, a pioneering achievement in cucurbit crop breeding. It introduces a new avenue for implementing the haploid breeding system within the Cucurbitaceae family.

Coincidentally, in April 2023, the journal Horticulture Research also published an online paper titled "Creation of a watermelon haploid inducer line via ClDMP3-mediated single fertilization of the central cell" by Yuan Li's team at the College of Horticulture, Northwest A&F University.

Previous studies have demonstrated that irradiation of pollen grains can induce haploids in cucurbit crops, likely due to its preferential fertilization of the central cell over the egg cell. It is known that disruption of the DMP gene can cause single fertilization of the central cell, leading to the development of haploid plants. This study provides a detailed method for creating a watermelon haploid inducer line through ClDMP3 mutation. The cldmp3 mutant successfully induced haploid plants in multiple watermelon genotypes at rates reaching up to 1.12%. These haploid plants were confirmed through the use of fluorescent markers, flow cytometry, molecular markers, and immuno-staining. The creation of this haploid inducer line holds immense potential for significantly advancing watermelon breeding in the future.

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References

Authors

Xiner Chen, Yuxiu Li, Gongli Ai, Jinfan Chen, Dalong Guo, Zhonghou Zhu, Xuejie Zhu, Shujuan Tian, Jiafa Wang, Man Liu*, Li Yuan*

Affiliations

College of Horticulture, Northwest A&F University