A calmodulin-binding protein from Arabidopsis has an essential role in pollen germination.

Calmodulin (CaM), a ubiquitous multifunctional calcium sensor in all eukaryotes, mediates calcium action by regulating the activity/function of many unrelated proteins. Although calcium and CaM are known to play a crucial role in pollen germination and pollen tube growth, the proteins that mediate their action have not been identified. We isolated three closely related CaM-binding proteins (NPG1, NPGR1, and NPGR2) from Arabidopsis. NPG1 (No Pollen Germination1) is expressed only in pollen, whereas the NPG-related proteins (NPGR1 and NPGR2) are expressed in pollen and other tissues. The bacterially expressed NPG1 bound three isoforms of Arabidopsis CaM in a calcium-dependent manner. To analyze the function of NPG1, we performed a reverse genetics screen and isolated a mutant in which NPG1 is disrupted by a T-DNA insertion. Segregation and molecular analyses of the NPG1 knockout mutant and a cross with a male sterile mutant indicate that the mutated NPG1 is not transmitted through the male gametophyte. Expression of NPG1 in the knockout mutant complemented the mutant phenotype. Analysis of pollen development in the knockout mutant by light microscopy showed normal pollen development. Pollen from NPG1 mutant in the quartet background has confirmed that NPG1 is dispensable for pollen development. However, germination studies with pollen from the mutant in the quartet background indicate that pollen carrying a mutant allele does not germinate. Our genetic, histological, and pollen germination studies with the knockout mutant line indicate that NPG1 is not necessary for microsporogenesis and gametogenesis but is essential for pollen germination.