Asmussen M A, Orive M E
Department of Genetics, University of Georgia, Athens 30602-7223, USA.
Genetics. 2000 Jun;155(2):813-31. doi: 10.1093/genetics/155.2.813.
We determine the nuclear-dicytoplasmic effects of unidirectional gene flow via pollen and seeds upon a mixed-mating plant population, focusing on nuclear-mitochondrial-chloroplast systems where mitochondria are inherited maternally and chloroplasts paternally, as in many conifers. After first delineating the general effects of admixture (via seeds or individuals) on the nonrandom associations in such systems, we derive the full dicytonuclear equilibrium structure, including when disequilibria may be indicators of gene flow. Substantial levels of permanent two- and three-locus disequilibria can be generated in adults by (i) nonzero disequilibria in the migrant pools or (ii) intermigrant admixture effects via different chloroplast frequencies in migrant pollen and seeds. Additionally, three-locus disequilibria can be generated by higher-order intermigrant effects such as different chloroplast frequencies in migrant pollen and seeds coupled with nuclear-mitochondrial disequilibria in migrant seeds, or different nuclear frequencies in migrant pollen and seeds coupled with mitochondrial-chloroplast disequilibria in migrant seeds. Further insight is provided by considering special cases with seed or pollen migration alone, complete random mating or selfing, or migrant pollen and seeds lacking disequilibria or intermigrant admixture effects. The results complete the theoretical foundation for a new method for estimating pollen and seed migration using joint cytonuclear or dicytonuclear data.
我们研究了单向基因流通过花粉和种子对混合交配植物种群产生的核质效应,重点关注核 - 线粒体 - 叶绿体系统,其中线粒体像许多针叶树一样母系遗传,叶绿体父系遗传。在首先描述了混合(通过种子或个体)对这类系统中非随机关联的一般影响之后,我们推导了完整的双核质平衡结构,包括不平衡何时可能是基因流的指标。在成年个体中,大量的永久性两位点和三位点不平衡可由以下情况产生:(i) 迁移群体中的非零不平衡,或 (ii) 迁移花粉和种子中不同叶绿体频率导致的迁移者间混合效应。此外,三位点不平衡可由高阶迁移者效应产生,例如迁移花粉和种子中不同的叶绿体频率,再加上迁移种子中的核 - 线粒体不平衡,或者迁移花粉和种子中不同的核频率,再加上迁移种子中的线粒体 - 叶绿体不平衡。通过考虑仅种子或花粉迁移、完全随机交配或自交,或迁移花粉和种子缺乏不平衡或迁移者间混合效应的特殊情况,可获得进一步的见解。这些结果为一种利用联合细胞质 - 核或双核质数据估计花粉和种子迁移的新方法奠定了理论基础。