Xue Y, Carpenter R, Dickinson H G, Coen E S
Department of Genetics, John Innes Centre, Norwich, United Kingdom.
Plant Cell. 1996 May;8(5):805-14. doi: 10.1105/tpc.8.5.805.
In many plant species, self-incompatibility (SI) is genetically controlled by a single multiallelic S locus. Previous analysis of S alleles in the Solanaceae, in which S locus ribonucleases (S RNases) are responsible for stylar expression of SI, has demonstrated that allelic diversity predated speciation within this family. To understand how allelic diversity has evolved, we investigated the molecular basis of gametophytic SI in Antirrhinum, a member of the Scrophulariaceae, which is closely related to the Solanaceae. We have characterized three Antirrhinum cDNAs encoding polypeptides homologous to S RNases and shown that they are encoded by genes at the S locus. RNA in situ hybridization revealed that the Antirrhinum S RNase are primarily expressed in the stylar transmitting tissue. This expression is consistent with their proposed role in arresting the growth of self-pollen tubes. S alleles from the Scrophulariaceae form a separate group from those of the Solanaceae, indicating that new S alleles have been generated since these families separated (approximately 40 million years). We propose that the recruitment of an ancestral RNase gene into SI occurred during an early stage of angiosperm evolution and that, since that time, new alleles subsequently have arisen at a low rate.
在许多植物物种中,自交不亲和性(SI)由单个多等位基因S位点进行遗传控制。此前对茄科植物S等位基因的分析表明,该科内物种形成之前等位基因多样性就已存在,其中S位点核糖核酸酶(S RNases)负责SI的花柱表达。为了解等位基因多样性是如何进化的,我们研究了玄参科成员金鱼草中配子体自交不亲和性的分子基础,金鱼草与茄科关系密切。我们鉴定了三个编码与S RNases同源多肽的金鱼草cDNA,并表明它们由S位点的基因编码。RNA原位杂交显示,金鱼草S RNase主要在花柱传递组织中表达。这种表达与它们在阻止自花花粉管生长中的作用一致。玄参科的S等位基因与茄科的S等位基因形成一个单独的群体,这表明自这些科分离(约4000万年前)以来产生了新的S等位基因。我们提出,在被子植物进化的早期阶段,一个祖先核糖核酸酶基因被招募到自交不亲和系统中,自那时起,新的等位基因随后以低速率出现。
