Dockter Rhyan B, Elzinga David B, Geary Brad, Maughan P Jeff, Johnson Leigh A, Tumbleson Danika, Franke JanaLynn, Dockter Keri, Stevens Mikel R
BMC Genet. 2013 Aug 8;14:66. doi: 10.1186/1471-2156-14-66.
Penstemon's unique phenotypic diversity, hardiness, and drought-tolerance give it great potential for the xeric landscaping industry. Molecular markers will accelerate the breeding and domestication of drought tolerant Penstemon cultivars by, creating genetic maps, and clarifying of phylogenetic relationships. Our objectives were to identify and validate interspecific molecular markers from four diverse Penstemon species in order to gain specific insights into the Penstemon genome.
We used a 454 pyrosequencing and GR-RSC (genome reduction using restriction site conservation) to identify homologous loci across four Penstemon species (P. cyananthus, P. davidsonii, P. dissectus, and P. fruticosus) representing three diverse subgenera with considerable genome size variation. From these genomic data, we identified 133 unique interspecific markers containing SSRs and INDELs of which 51 produced viable PCR-based markers. These markers produced simple banding patterns in 90% of the species × marker interactions (~84% were polymorphic). Twelve of the markers were tested across 93, mostly xeric, Penstemon taxa (72 species), of which ~98% produced reproducible marker data. Additionally, we identified an average of one SNP per 2,890 bp per species and one per 97 bp between any two apparent homologous sequences from the four source species. We selected 192 homologous sequences, meeting stringent parameters, to create SNP markers. Of these, 75 demonstrated repeatable polymorphic marker functionality across the four sequence source species. Finally, sequence analysis indicated that repetitive elements were approximately 70% more prevalent in the P. cyananthus genome, the largest genome in the study, than in the smallest genome surveyed (P. dissectus).
We demonstrated the utility of GR-RSC to identify homologous loci across related Penstemon taxa. Though PCR primer regions were conserved across a broadly sampled survey of Penstemon species (93 taxa), DNA sequence within these amplicons (12 SSR/INDEL markers) was highly diverse. With the continued decline in next-generation sequencing costs, it will soon be feasible to use genomic reduction techniques to simultaneously sequence thousands of homologous loci across dozens of Penstemon species. Such efforts will greatly facilitate our understanding of the phylogenetic structure within this important drought tolerant genus. In the interim, this study identified thousands of SNPs and over 50 SSRs/INDELs which should provide a foundation for future Penstemon phylogenetic studies and breeding efforts.
钓钟柳独特的表型多样性、耐寒性和耐旱性使其在旱生园林行业具有巨大潜力。分子标记将通过构建遗传图谱和阐明系统发育关系,加速耐旱钓钟柳品种的育种和驯化。我们的目标是从四种不同的钓钟柳物种中鉴定和验证种间分子标记,以便深入了解钓钟柳基因组。
我们使用454焦磷酸测序和GR-RSC(利用限制性位点保守性进行基因组缩减)来鉴定代表三个不同亚属且基因组大小差异显著的四种钓钟柳物种(蓝花钓钟柳、戴维森钓钟柳、裂叶钓钟柳和灌木状钓钟柳)之间的同源位点。从这些基因组数据中,我们鉴定出133个包含SSR和INDEL的独特种间标记,其中51个产生了可行的基于PCR的标记。这些标记在90%的物种×标记相互作用中产生简单的条带模式(约84%为多态性)。12个标记在93个主要为旱生的钓钟柳分类群(72个物种)中进行了测试,其中约98%产生了可重复的标记数据。此外,我们在每个物种中平均每2890 bp鉴定出一个SNP,在四个来源物种的任意两个明显同源序列之间平均每97 bp鉴定出一个SNP。我们选择了192个符合严格参数的同源序列来创建SNP标记。其中,75个在四个序列来源物种中表现出可重复的多态性标记功能。最后,序列分析表明,在研究中基因组最大的蓝花钓钟柳基因组中,重复元件的普遍性比所调查的最小基因组(裂叶钓钟柳)高约70%。
我们证明了GR-RSC在鉴定相关钓钟柳分类群之间同源位点的实用性。尽管在对钓钟柳物种(93个分类群)的广泛抽样调查中PCR引物区域是保守的,但这些扩增子(12个SSR/INDEL标记)内的DNA序列高度多样。随着下一代测序成本的持续下降,使用基因组缩减技术同时对数十种钓钟柳物种的数千个同源位点进行测序很快将变得可行。这些努力将极大地促进我们对这个重要耐旱属内系统发育结构的理解。在此期间,本研究鉴定出数千个SNP和50多个SSR/INDEL,这应为未来钓钟柳系统发育研究和育种工作提供基础。
