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萱草叶片大小相关基因挖掘与分析
Mining and Analysis of Leaf Size Related Genes of Hemerocallis fulva
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摘要: 为挖掘控制萱草叶片大小基因,支撑后续萱草属植物遗传多样性分析及良种选育,对不同叶片大小的2个萱草品种进行了转录组测序和组装,构建了转录组文库,并通过对差异基因进行通路分析和Pathway功能注释。结果显示:共得到
90366 条基因簇(Unigene),涉及10671 条表达量差异显著的Unigene,其中表达量下调的基因序列有4188 条(39.25%),上调的基因有6483 条(60.75%);将10671 条Unigene与NCBI中已报道的与叶片大小相关的678个基因进行比对,并结合参考文献,共得到17个可能与控制萱草叶片大小相关的基因序列,并进一步结合qRT−PCR证实了ARF2、BRI1、CESA3、CYP90、IAA4 5个基因在萱草叶片发育过程中与叶片大小密切相关,且发挥着重要作用。Abstract: In order to investigate the genes controlling leaf size of Hemerocallis fulva and support subsequent genetic diversity analysis and improved species selection, we conducted transcriptome sequencing and assembly on two varieties of Hemerocallis fulva with different leaf sizes. A transcriptome library was constructed, followed by pathway analysis and functional annotation of differentially expressed genes. We obtained a total of 90,366 gene clusters(Unigenes), among which 10,671 Unigenes showed significant differences in expression quantity. These Unigenes accounted for 39.25% of the genetic sequences, with 6,483 genes upregulated(60.75%). By comparing these Unigenes with NCBI database and literature references related to leaf size regulation in Hemerocallis fulva, we identified a total of 678 potentially relevant genes. Further confirmation through qRT-PCR revealed that ARF2, BRI1, CESA3, CYP90, IAA4 are closely associated with leaf development in Hemerocallis fulva and play important roles in determining leaf size. This study provides valuable transcriptome data for Hemerocallis fulva and establishes a solid theoretical foundation for future cloning and biotechnological breeding efforts targeting leaf size genes. These findings hold great significance for promoting high-quality development within the Hemerocallis fulva industry.