生物量草雀麦和鸭茅在水淹和干旱胁迫下的转录组特征和差异表达基因。
Transcriptome characterization and differentially expressed genes under flooding and drought stress in the biomass grasses Phalaris arundinacea and Dactylis glomerata.
机构信息
Teagasc Crops Environment and Land Use Programme, Oak Park Crops Research Centre, Carlow, Ireland.
Computational Biology Center, IBM T. J. Watson Research Center, Yorktown Heights, NY, USA.
出版信息
Ann Bot. 2019 Oct 29;124(4):717-730. doi: 10.1093/aob/mcz074.
BACKGROUND AND AIMS
Perennial grasses are a global resource as forage, and for alternative uses in bioenergy and as raw materials for the processing industry. Marginal lands can be valuable for perennial biomass grass production, if perennial biomass grasses can cope with adverse abiotic environmental stresses such as drought and waterlogging.
METHODS
In this study, two perennial grass species, reed canary grass (Phalaris arundinacea) and cocksfoot (Dactylis glomerata) were subjected to drought and waterlogging stress to study their responses for insights to improving environmental stress tolerance. Physiological responses were recorded, reference transcriptomes established and differential gene expression investigated between control and stress conditions. We applied a robust non-parametric method, RoDEO, based on rank ordering of transcripts to investigate differential gene expression. Furthermore, we extended and validated vRoDEO for comparing samples with varying sequencing depths.
KEY RESULTS
This allowed us to identify expressed genes under drought and waterlogging whilst using only a limited number of RNA sequencing experiments. Validating the methodology, several differentially expressed candidate genes involved in the stage 3 step-wise scheme in detoxification and degradation of xenobiotics were recovered, while several novel stress-related genes classified as of unknown function were discovered.
CONCLUSIONS
Reed canary grass is a species coping particularly well with flooding conditions, but this study adds novel information on how its transcriptome reacts under drought stress. We built extensive transcriptomes for the two investigated C3 species cocksfoot and reed canary grass under both extremes of water stress to provide a clear comparison amongst the two species to broaden our horizon for comparative studies, but further confirmation of the data would be ideal to obtain a more detailed picture.
背景和目的
多年生草本植物作为饲料是全球资源,也可用于生物能源和加工工业的原材料。如果多年生生物量草能够应对干旱和水涝等不利非生物环境胁迫,可以利用边际土地进行多年生生物量草的生产。
方法
本研究对两种多年生草本植物——菵草(Phalaris arundinacea)和鸭茅(Dactylis glomerata)进行了干旱和水淹胁迫处理,以研究它们的响应,从而深入了解如何提高对环境胁迫的耐受性。记录了生理反应,建立了参考转录组,并在对照和胁迫条件下研究了差异基因表达。我们应用了一种稳健的非参数方法 RoDEO,基于转录本的排序进行差异基因表达研究。此外,我们扩展并验证了 vRoDEO 用于比较具有不同测序深度的样本。
主要结果
这使我们能够在仅使用有限数量的 RNA 测序实验的情况下鉴定出在干旱和水涝条件下表达的基因。通过验证该方法,我们发现了几个参与解毒和外来化合物降解的三阶段逐步方案的差异表达候选基因,同时还发现了几个被归类为功能未知的新的应激相关基因。
结论
菵草是一种特别能适应水淹条件的物种,但本研究增加了其在干旱胁迫下转录组反应的新信息。我们为两种研究的 C3 物种鸭茅和菵草在两种极端水分胁迫下构建了广泛的转录组,以便在两个物种之间进行清晰的比较,从而拓宽我们进行比较研究的视野,但进一步确认数据将是理想的,以获得更详细的图片。
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