Abstract
Calcium-dependent protein kinases (CPKs) play an essential role in the regulation of pollen tube growth. Although CPK genes have been identified in maize, and some have been functionally characterized, the molecular function of ZmCPKs associated with pollen tube development remains less well studied. Here, we report that a pollen-specific CPK, ZmCPK32, is involved in the regulation of pollen germination and tube extension. ZmCPK32 exhibited CPK activity and was localized on the plasma membrane and punctate internal membrane compartments via N-terminal acylation. In situ hybridization and real-time PCR revealed that ZmCPK32 transcripts accumulated in pollen and expression was dramatically upregulated during shedding. To elucidate the function of this gene, we transiently expressed a ZmCPK32-GFP fusion protein in tobacco pollen using microparticle bombardment. ZmCPK32 accumulation inhibited pollen germination and reduced pollen tube growth, but this effect was abolished when the kinase-inactive variant was expressed, indicating that kinase activity is critical for its regulatory function. In addition, the plasma membrane localization of ZmCPK32 is essential for regulating polar growth, as pollen expressing the cytosol-localized kinase displayed reduced tube length but germinated well. Moreover, the constitutively active form of ZmCPK32 enhanced the reduction in the germination rate, indicating that the specific activation of ZmCPK32 via calcium ions at the cortical growth point is essential for regulating appropriate germination. The results suggest that ZmCPK32 is functionally associated with pollen tube growth, and could represent a potential target for breeding male-sterile maize.
Highlights
Pollen tube growth is important for plant reproductive development, as it delivers two sperm cells into the embryo sac
To identify maize Calcium-dependent protein kinases (CPKs) potentially associated with pollen tube development, we analyzed the phylogenetic relationship of ZmCPKs with Arabidopsis and Petunia inflata CPKs involved in the regulation of pollen tube development
These analyses identified CPK genes in maize, but some isoforms were not included in overlapping studies
Summary
Pollen tube growth is important for plant reproductive development, as it delivers two sperm cells into the embryo sac. The pollen tube exhibits polar growth that depends on ion dynamics. Oscillations in tip Ca2+ concentration share the same frequency with the pollen tube growth rate [6,7,8], and tip localized Ca2+-dependent protein kinase (CPK or CDPK) activities are essential for polar pollen tube growth [5, 9, 10]. The Ca2+ signal can be sensed and transduced by a series of phosphorylation cascades regulated by various protein kinases, including CPKs, Ca2+/calmodulin-dependent protein kinases (CCaMKs), and calcineurin B-like interacting protein kinases (CIPKs). CPKs possess both a kinase and sensing domain, and include a variable N-terminal region, a kinase domain, an autoinhibitory junction domain, and a calmodulin-like domain (CaM-LD) with four EF-hand Ca2+-binding motifs [11, 12]. CPKs are considered to be sensor-independent kinases, because they contain both Ca2+-sens-
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