Abstract
Although male sterility has been identified as a useful trait for hybrid vigor utilization and hybrid seed production, its underlying molecular mechanisms in Cucurbitaceae species are still largely unclear. Here, a spontaneous male-sterile watermelon mutant, Se18, was reported to have abnormal tapetum development, which resulted in completely aborted pollen grains. Map-based cloning demonstrated that the causal gene Citrullus lanatus Abnormal Tapetum 1 (ClATM1) encodes a basic helix-loop-helix (bHLH) transcription factor with a 10-bp deletion and produces a truncated protein without the bHLH interaction and functional (BIF) domain in Se18 plants. qRT–PCR and RNA in situ hybridization showed that ClATM1 is specifically expressed in the tapetum layer and in microsporocytes during stages 6–8a of anther development. The genetic function of ClATM1 in regulating anther development was verified by CRISPR/Cas9-mediated mutagenesis. Moreover, ClATM1 was significantly downregulated in the Se18 mutant, displaying a clear dose effect at the transcriptional level. Subsequent dual-luciferase reporter, β-glucuronidase (GUS) activity, and yeast one-hybrid assays indicated that ClATM1 could activate its own transcriptional expression through promoter binding. Collectively, ClATM1 is the first male sterility gene cloned from watermelon, and its self-regulatory activity provides new insights into the molecular mechanism underlying anther development in plants.
Highlights
Male sterility, a common phenomenon in flowering plants, is an important breeding tool for hybrid seed production and heterosis utilization[1], and male-sterile materials are valuable for the study of anther and pollen development, meiosis, and programmed cell death (PCD)[2,3,4]
Se18 is a complete male-sterile mutant Previously, we identified a spontaneous watermelon mutant, Se18, which is completely male sterile, and the phenotype was stably inherited in the propagules[40]
Abnormal tapetum and persistent callose are observed in Se18 anthers
Summary
A common phenomenon in flowering plants, is an important breeding tool for hybrid seed production and heterosis utilization[1], and male-sterile materials are valuable for the study of anther and pollen development, meiosis, and programmed cell death (PCD)[2,3,4]. A defective tapetum generally leads to abnormal pollen, which causes male sterility in plants[13]. The development and function of the tapetum are regulated by many transcription factors (TFs), including R2R3 myeloblastosis (MYB), plant homeodomain (PHD) fingers, and basic helix-loop-helix (bHLH) proteins[5,10,13,14,15,16]. Among these TFs, members of bHLH subfamilies II and III (a + c)[1] have been inferred to play conserved roles in regulating
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