Identification of the pollen self-incompatibility determinant in Papaver rhoeas

花粉 爸爸 生物 雌蕊 基因座(遗传学) 遗传学 基因 等位基因 花粉管 植物 授粉 雄蕊
作者
Michael Wheeler,Barend H. J. de Graaf,Natalie Hadjiosif,Ruth M. Perry,Natalie S. Poulter,Kim Osman,Sabina Vatovec,Andrea L. Harper,F. Chris H. Franklin,Vernonica E. Franklin‐Tong
出处
期刊:Nature [Nature Portfolio]
卷期号:459 (7249): 992-995 被引量:208
标识
DOI:10.1038/nature08027
摘要

Higher plants produce seed through pollination, using specific interactions between pollen and pistil. Self-incompatibility is an important mechanism used in many species to prevent inbreeding; it is controlled by a multi-allelic S locus. 'Self' (incompatible) pollen is discriminated from 'non-self' (compatible) pollen by interaction of pollen and pistil S locus components, and is subsequently inhibited. In Papaver rhoeas, the pistil S locus product is a small protein that interacts with incompatible pollen, triggering a Ca(2+)-dependent signalling network, resulting in pollen inhibition and programmed cell death. Here we have cloned three alleles of a highly polymorphic pollen-expressed gene, PrpS (Papaver rhoeas pollen S), from Papaver and provide evidence that this encodes the pollen S locus determinant. PrpS is a single-copy gene linked to the pistil S gene (currently called S, but referred to hereafter as PrsS for Papaver rhoeas stigma S determinant). Sequence analysis indicates that PrsS and PrpS are equally ancient and probably co-evolved. PrpS encodes a novel approximately 20-kDa protein. Consistent with predictions that it is a transmembrane protein, PrpS is associated with the plasma membrane. We show that a predicted extracellular loop segment of PrpS interacts with PrsS and, using PrpS antisense oligonucleotides, we demonstrate that PrpS is involved in S-specific inhibition of incompatible pollen. Identification of PrpS represents a major advance in our understanding of the Papaver self-incompatibility system. As a novel cell-cell recognition determinant it contributes to the available information concerning the origins and evolution of cell-cell recognition systems involved in discrimination between self and non-self, which also include histocompatibility systems in primitive chordates and vertebrates.
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