Full-Length Transcriptome Assembly of Platycladus orientalis Root Integrated with RNA-Seq to Identify Genes in Response to Root Pruning

Forests Pub Date : 2024-07-15 DOI:10.3390/f15071232

Hao Dou, Huijuan Sun, Xi Feng, Tiantian Wang, Yilin Wang, Jin’e Quan, Xitian Yang

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Abstract

Platycladus orientalis (P. orientalis) is a common tree used for vegetation restoration in northern China, and its large area propagation helps to improve site conditions. However, under harsh conditions such as poor land, the survival rate of P. orientalis is very low. Numerous studies have shown that root pruning can promote the formation of lateral roots in seedlings, enhancing the roots’ capacity to absorb soil nutrients and water, and thereby improving the survival rate of seedlings. In this study, a one-third root pruning treatment was applied to P. orientalis seedlings, and the whole transcriptome of seedlings subjected to both control (CK) and root pruning treatments was sequenced to analyze their gene expression profiles. This study investigated the regulatory mechanisms of lateral root development in response to root pruning damage at the molecular level. Using nine cells, 15.28 Gb of clean data were obtained, which yielded 101,688 high-quality full-length transcript sequences and 22,955 low-quality full-length transcript sequences after clustering. Redundancy was then removed using CD-HIT, and Illumina RNA-seq sequencing produced 139.26 Gb of clean data. A total of 2025 differentially expressed genes (DEGs) were identified at three time points following root pruning treatment. Enrichment analysis revealed that the peroxidase gene family plays a significant role in lateral root proliferation. Furthermore, the expression levels of the peroxidase gene family were notably upregulated in comparison to the control group. Pathway enrichment analysis identified 22 relevant genes, which appeared to be highly associated with root growth and resilience to stress. Through examining the expression patterns and correlations of these genes, five central genes emerged as key players. The findings of this research suggest that the peroxidase gene family plays a crucial role in the stress response and root development of P. orientalis, providing reference and guidance for root development in other plant species.

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东方桔梗根的全长转录组组装与 RNA-Seq 整合，以确定对根部修剪做出反应的基因

东方木（Platycladus orientalis）是中国北方植被恢复的常用树种，其大面积繁殖有助于改善现场条件。然而，在土地贫瘠等恶劣条件下，东方木的成活率非常低。大量研究表明，修剪根系可以促进幼苗侧根的形成，增强根系吸收土壤养分和水分的能力，从而提高幼苗的成活率。本研究对东方木幼苗进行了三分之一的根修剪处理，并对对照组（CK）和根修剪处理的幼苗的整个转录组进行测序，分析其基因表达谱。本研究从分子水平研究了根修剪损伤对侧根发育的调控机制。利用九个细胞获得了 15.28 Gb 的纯净数据，经过聚类后得到了 101,688 条高质量的全长转录本序列和 22,955 条低质量的全长转录本序列。然后使用 CD-HIT 去除冗余，Illumina RNA-seq 测序产生了 139.26 Gb 的干净数据。在根修剪处理后的三个时间点，共鉴定出 2025 个差异表达基因（DEG）。富集分析表明，过氧化物酶基因家族在侧根增殖中起着重要作用。此外，与对照组相比，过氧化物酶基因家族的表达水平明显上调。通路富集分析确定了 22 个相关基因，这些基因似乎与根的生长和抗逆性高度相关。通过研究这些基因的表达模式和相关性，发现有五个中心基因起着关键作用。研究结果表明，过氧化物酶基因家族在东方豹的应激反应和根系发育过程中起着至关重要的作用，为其他植物物种的根系发育提供了参考和指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Forests

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