Baack Eric J, Whitney Kenneth D, Rieseberg Loren H
Department of Biology, Indiana University, 1001 East Third Street, Bloomington, IN 47405, USA.
New Phytol. 2005 Aug;167(2):623-30. doi: 10.1111/j.1469-8137.2005.01433.x.
Hybridization and polyploidy can induce rapid genomic changes, including the gain or loss of DNA, but the magnitude and timing of such changes are not well understood. The homoploid hybrid system in Helianthus (three hybrid-derived species and their two parents) provides an opportunity to examine the link between hybridization and genome size changes in a replicated fashion. Flow cytometry was used to estimate the nuclear DNA content in multiple populations of three homoploid hybrid Helianthus species (Helianthus anomalus, Helianthus deserticola, and Helianthus paradoxus), the parental species (Helianthus annuus and Helianthus petiolaris), synthetic hybrids, and natural hybrid-zone populations. Results confirm that hybrid-derived species have 50% more nuclear DNA than the parental species. Despite multiple origins, hybrid species were largely consistent in their DNA content across populations, although H. deserticola showed significant interpopulation differences. First- and sixth-generation synthetic hybrids and hybrid-zone plants did not show an increase from parental DNA content. First-generation hybrids differed in DNA content according to the maternal parent. In summary, hybridization by itself does not lead to increased nuclear DNA content in Helianthus, and the evolutionary forces responsible for the repeated increases in DNA content seen in the hybrid-derived species remain mysterious.
杂交和多倍体能够引发快速的基因组变化,包括DNA的增减,但此类变化的幅度和时间尚不明确。向日葵中的同倍体杂交系统(三个杂交衍生种及其两个亲本)提供了一个以重复方式研究杂交与基因组大小变化之间联系的机会。运用流式细胞术估算了三种同倍体杂交向日葵物种(异常向日葵、沙漠向日葵和奇异向日葵)、亲本物种(向日葵和叶柄向日葵)、合成杂种以及天然杂交区群体中多个种群的核DNA含量。结果证实,杂交衍生种的核DNA比亲本物种多50%。尽管有多个起源,但杂交物种在不同种群间的DNA含量基本一致,不过沙漠向日葵表现出显著的种群间差异。第一代和第六代合成杂种以及杂交区植物的DNA含量并未超过亲本。第一代杂种的DNA含量因母本而异。总之,在向日葵中,杂交本身并不会导致核DNA含量增加,而导致杂交衍生种中DNA含量反复增加的进化力量仍然成谜。