Key Laboratory of Molecular Epigenetics of the Ministry of Education (MOE), Northeast Normal University, Changchun, 130024, China.
Jilin Academy of Agricultural Sciences, Changchun, 130032, China.
J Integr Plant Biol. 2016 Feb;58(2):150-64. doi: 10.1111/jipb.12357. Epub 2015 Jun 12.
Interspecific hybridization is a driving force in evolution and speciation of higher plants. Interspecific hybridization often induces immediate and saltational changes in gene expression, a phenomenon collectively termed "transcriptome shock". Although transcriptome shock has been reported in various plant and animal taxa, the extent and pattern of shock-induced expression changes are often highly idiosyncratic, and hence entails additional investigations. Here, we produced a set of interspecific F1 triploid hybrid plants between Oryza sativa, ssp. japonica (2n = 2x = 24, genome AA) and the tetraploid form of O. punctata (2n = 4x = 48, genome, BBCC), and conducted RNA-seq transcriptome profiling of the hybrids and their exact parental plants. We analyzed both homeolog expression bias and overall gene expression level difference in the hybrids relative to the in silico "hybrids" (parental mixtures). We found that approximately 16% (2,541) of the 16,112 expressed genes in leaf tissue of the F1 hybrids showed nonadditive expression, which were specifically enriched in photosynthesis-related pathways. Interestingly, changes in the maternal homeolog expression, including non-stochastic silencing, were the major causes for altered homeolog expression partitioning in the F1 hybrids. Our findings have provided further insights into the transcriptome response to interspecific hybridization and heterosis.
种间杂交是高等植物进化和物种形成的驱动力。种间杂交通常会立即引起基因表达的跳跃式变化,这种现象被统称为“转录组冲击”。尽管转录组冲击已在各种植物和动物类群中被报道,但冲击诱导的表达变化的程度和模式往往是高度特异的,因此需要进一步的研究。在这里,我们产生了一组 Oryza sativa,ssp. japonica(2n = 2x = 24,基因组 AA)和四倍体形式的 O. punctata(2n = 4x = 48,基因组 BBCC)之间的种间 F1 三倍体杂种植物,并对杂种及其精确的亲本植物进行了 RNA-seq 转录组谱分析。我们分析了杂种相对于“杂种”(亲本混合物)在同源基因表达偏倚和整体基因表达水平差异。我们发现,在 F1 杂种叶片组织中,大约有 16%(2541 个)的 16112 个表达基因表现出非加性表达,这些基因特别富集在光合作用相关途径中。有趣的是,母本同源基因表达的变化,包括非随机沉默,是导致 F1 杂种中同源基因表达分配改变的主要原因。我们的研究结果为种间杂交和杂种优势的转录组反应提供了进一步的见解。
