Guangdong Key Laboratory of Plant Epigenetics, College of Life Sciences and Oceanography, Shenzhen University, Shenzhen 518060, China.
TerViva, Oakland, CA 94612, USA.
Int J Mol Sci. 2019 Jul 17;20(14):3509. doi: 10.3390/ijms20143509.
Pongamia ( syn. ) is a multipurpose biofuel tree which can withstand a variety of abiotic stresses. Commercial applications of Pongamia trees may substantially benefit from improvements in their oil-seed productivity, which is governed by complex regulatory mechanisms underlying seed development. MicroRNAs (miRNAs) are important molecular regulators of plant development, while relatively little is known about their roles in seed development, especially for woody plants. In this study, we identified 236 conserved miRNAs within 49 families and 143 novel miRNAs via deep sequencing of Pongamia seeds sampled at three developmental phases. For these miRNAs, 1327 target genes were computationally predicted. Furthermore, 115 differentially expressed miRNAs (DEmiRs) between successive developmental phases were sorted out. The DEmiR-targeted genes were preferentially enriched in the functional categories associated with DNA damage repair and photosynthesis. The combined analyses of expression profiles for DEmiRs and functional annotations for their target genes revealed the involvements of both conserved and novel miRNA-target modules in Pongamia seed development. Quantitative Real-Time PCR validated the expression changes of 15 DEmiRs as well as the opposite expression changes of six targets. These results provide valuable miRNA candidates for further functional characterization and breeding practice in Pongamia and other oilseed plants.
麻疯树(syn.)是一种多用途的生物燃料树,能够耐受多种非生物胁迫。麻疯树的商业应用可能会从其油籽生产力的提高中获得实质性的收益,而油籽生产力受种子发育背后复杂的调控机制所控制。microRNAs(miRNAs)是植物发育的重要分子调节剂,然而,关于它们在种子发育中的作用,人们知之甚少,特别是对于木本植物。在这项研究中,我们通过对三个发育阶段的麻疯树种子进行深度测序,鉴定了 49 个家族中的 236 个保守 miRNA 和 143 个新的 miRNA。对于这些 miRNA,通过计算预测了 1327 个靶基因。此外,还筛选出了 115 个在连续发育阶段之间差异表达的 miRNA(DEmiRs)。DEmiR 靶向的基因在与 DNA 损伤修复和光合作用相关的功能类别中优先富集。对 DEmiRs 的表达谱和其靶基因的功能注释进行综合分析,揭示了保守和新的 miRNA 靶向模块在麻疯树种子发育中的参与。定量实时 PCR 验证了 15 个 DEmiRs 的表达变化以及 6 个靶基因的相反表达变化。这些结果为进一步在麻疯树和其他油料植物中进行功能特征分析和育种实践提供了有价值的 miRNA 候选基因。
