Mable Barbara K
Department of Botany, University of Guelph, Guelph, Ontario, Canada N1G 2W1.
New Phytol. 2004 Jun;162(3):803-811. doi: 10.1111/j.1469-8137.2004.01055.x.
• Researchers have hypothesized that self-compatibility (SC) should be more common in polyploid taxa than their diploid counterparts because of selection for reproductive assurance and/or the expected decline in inbreeding depression associated with having 'extra' gene copies. Support for this view has come from an observed breakdown of self-incompatibility (SI) in some species with a gametophytic system (GSI). The purpose of this research was to assess the strength of this relationship across a wider array of SI systems. • A large database, of diploid chromosome numbers, ploidy levels, and types of SI system, was assembled for angiosperm species and used to test for an association between ploidy and SC. • No strong association was found between SC and polyploidy at the level of species or families, and there was no evidence that those having a functional SI system also had fewer polyploid taxa or that most polyploids experience a breakdown in SI. • These results challenge the assumption that self-fertilization is strongly associated with polyploidy and suggest directions for further research on the evolution of polyploidy in relation to SI.
• 研究人员推测,由于生殖保障的选择和/或与拥有“额外”基因拷贝相关的近亲繁殖衰退预期下降,自交亲和性(SC)在多倍体类群中应比其二倍体对应类群更为常见。对这一观点的支持来自于在一些具有配子体系统(GSI)的物种中观察到的自交不亲和性(SI)的崩溃。本研究的目的是在更广泛的SI系统中评估这种关系的强度。
• 为被子植物物种建立了一个包含二倍体染色体数、倍性水平和SI系统类型的大型数据库,并用于测试倍性与SC之间的关联。
• 在物种或科的水平上,未发现SC与多倍体之间有强烈关联,也没有证据表明具有功能性SI系统的物种其多倍体类群较少,或者大多数多倍体经历了SI的崩溃。
• 这些结果挑战了自花受精与多倍体密切相关的假设,并为多倍体与SI相关进化的进一步研究指明了方向。
