Adhesion of pollen grains to the stigmatic surface is a critical step during sexual reproduction in plants. In Brassica, S locus-related glycoprotein 1 (SLR1), a stigma-specific protein belonging to the S gene family of proteins, has been shown to be involved in this step. However, the identity of the interacting counterpart in pollen and the molecular mechanism of this interaction have not been determined. Using an optical biosensor immobilized with S gene family proteins, we detected strong SLR1-binding activity in pollen coat extracts of Brassica campestris. Two SLR1-binding proteins, named SLR1-BP1 and SLR1-BP2, were identified and purified by the combination of SLR1 affinity column chromatography and reversephase HPLC. Sequence analyses revealed that these two proteins (i) differ only in that a proline residue near the N terminus is hydroxylated in SLR1-BP1 but not in SLR1-BP2, and (ii) are members of the class A pollen coat protein (PCP) family, which includes PCP-A1, an SLG (S locus glycoprotein)-binding protein isolated from Brassica oleracea. Kinetic analysis showed that SLR1-BP1 and SLR1-BP2 specifically bound SLR1 with high affinity (Kd ؍ 5.6 and 4.4 nM, respectively). The SLR1-BP gene was specifically expressed in pollen at late stages of development, and its sequence is highly conserved in Brassica species with the A genome.
Sexual reproduction in plants depends on highly specific interactions between pollen and the pistil. These interactions are the basis of interspecific and intraspecific recognition systems, which allow the pistil to distinguish among genetically diverse ranges of pollen grains arriving at the stigma. Germination and growth of ''appropriate'' pollen grains are selectively promoted, whereas ''inappropriate'' pollen grains are selectively inhibited. One notable example of an intraspecific recognition system is self-incompatibility (SI) (1).In Brassica, SI is controlled by a single polymorphic locus, termed the S locus. Two stigmatically expressed polymorphic genes have been identified at the S locus. One is the S locus glycoprotein (SLG) gene, which encodes a secreted glycoprotein (2, 3), and the other is the S locus receptor kinase (SRK) gene, which encodes a receptor-like serine͞threonine protein kinase (4). SRK is the sole determinant of the S haplotype specificity of the stigma (5); its extracellular domain, which is highly similar to SLG, is thought to interact with the pollen S determinant of the same S haplotype. Recently, the gene encoding the pollen S determinant has been identified (6-8). This gene, designated SP11 (S locus protein 11) or SCR (S locus cysteine-rich), encodes a novel class within a family of proteins named the pollen coat protein (PCP) family (9, 10). It is hypothesized that interactions between SP11͞SCR and SRK elicit a signaling cascade within the surface cells of the stigma, the papillae, leading to the rejection of self-pollen. The role of SLG in SI is enhancing the recognition process between the stigma and self-pollen (5).The Brassica genome contai...
