OsSNDP4, a Sec14-nodulin Domain Protein, is Required for Pollen Development in Rice.

Pollen is encased in a robust wall that shields the male gametophyte from various stresses and aids in pollination. The pollen wall consists of gametophyte-derived intine and sporophyte-derived exine. The exine is mainly composed of sporopollenin, which is biopolymers of aliphatic lipids and phenolics.

Identification of two plastid transit peptides for construction of pollen-inactivation system in rice.

Unlabelled: Hybrid seed production technology (SPT) is achieved through the utilization of a recessive nuclear male-sterile mutant transformed with a transgenic cassette comprising three essential components: the wild-type gene to restore the fertility of the male-sterile mutant, an α-amylase gene to disrupt transgenic pollen grains, and red fluorescence protein gene to distinguish the transgenic seeds from the nontransgenic male sterile seeds. In rice, we establish the pollen disruption system by introducing an amyloplast targeting signal peptide (ASP) at the N-terminus of maize α-amylase protein ZM-AA1 (ZM-AA1 with the N-terminal signal peptide removed). The ASP facilitates the transport of ZM-AA1 protein into amyloplast where it degrades starch, resulting in disruption of the pollen fertility.

The nuclear-encoded plastid ribosomal protein L18s are essential for plant development.

Plastid ribosomal proteins (PRPs) are necessary components for plastid ribosome biogenesis, playing essential roles in plastid development. The ribosomal protein L18 involved in the assemble of 5S rRNA and 23S rRNA, is vital for viability, but the functions of its homologs in plant plastid remain elusive. Here, we characterized the functions of the plant plastid ribosomal protein L18s (PRPL18s) in Arabidopsis and rice.

Identification of late-stage pollen-specific promoters for construction of pollen-inactivation system in rice.

Large-scale production of male sterile seeds can be achieved by introducing a fertility-restoration gene linked with a pollen-killer gene into a recessive male sterile mutant. We attempted to construct this system in rice by using a late-stage pollen-specific (LSP) promoter driving the expression of maize α-amylase gene ZM-AA1. To obtain such promoters in rice, we conducted comparative RNA-seq analysis of mature pollen with meiosis anther, and compared this with the transcriptomic data of various tissues in the Rice Expression Database, resulting in 269 candidate LSP genes.

Lectin receptor kinase OsLecRK-S.7 is required for pollen development and male fertility.

Pollen grains are covered by exine that protects the pollen from stress and facilitates pollination. Here we isolated a male sterile mutant s13283 in rice exhibiting aborted pollen with abnormal exine and defective aperture. The mutant gene encodes a novel plasma membrane-localized legume-lectin receptor kinase that we named OsLecRK-S.