Abstract
Gametophytic self-incompatibility (GSI) allows plants to block fertilization by haploid pollen whose S-allele constitution matches one of the two S-alleles in the diploid styles. GSI in Solanum chacoense requires a stylar S-RNase, first secreted from cells of the transmitting tract then imported into incompatible (self) pollen tubes. However, the molecular mechanisms allowing compatible pollen to evade S-RNase attack are less clear, as compatible pollen tubes also import S-RNase. Using styles of the same age and size in order to lower the degree of inter-style variability in S-RNase levels, we observe reduction of up to 30% of the total non-self stylar S-RNase in vivo during compatible crosses, whereas no degradation of self S-RNases is detected. This marked difference in stylar S-RNase levels dovetails with measurements of pollen-specific Lat52 mRNA, which decreases four-fold in incompatible compared to compatible crosses. Unexpectedly, we also find evidence for a reciprocal signaling mechanism from compatible pollen to the cells of the transmitting tract that results in a roughly three-fold decrease in S-RNase transcript levels. These findings reveal a previously unsuspected feedback loop that may help reinforce the compatible reaction.
Highlights
Self-incompatibility (SI) is a genetically inherited prezygotic barrier widespread among flowering plant species that promotes outbreeding by allowing the pistil of a hermaphrodite flower to discriminate between genetically related and unrelated pollen [1,2]
Previous attempts to document a decrease in SI is a glycoprotein with RNase activity (S-RNase) during compatible crosses in S. chacoense have been hampered by a roughly 70% difference in S-RNase levels between styles [41]
We have examined the molecular events occurring in both pollen and style during compatible and incompatible crosses
Summary
Self-incompatibility (SI) is a genetically inherited prezygotic barrier widespread among flowering plant species that promotes outbreeding by allowing the pistil of a hermaphrodite flower to discriminate between genetically related (self) and unrelated (nonself) pollen [1,2]. This cell-cell recognition mechanism involves finely tuned interactions of gene products secreted by specialized cells of the pistil with complementary proteins expressed inside the pollen tube. When the compatibility of the pollen is determined by its haploid genotype, SI is termed gametophytic (GSI). Variants of the entire S-locus have been termed Shaplotypes, whereas variants of the individual polymorphic genes within the S-locus are called alleles [4]
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