中国农业科学

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最新录用:月月粉NAC家族全基因组鉴定及皮刺发育相关成员的筛选

由玉婉,张雨,孙嘉毅,张蔚*   

  1. 华中农业大学园艺林学学院/园艺植物生物学教育部重点实验室/农业农村部华中都市农业重点实验室, 武汉 430070
  • 发布日期:2022-05-11

Genome-Wide Identification of NAC Family and Screening of Its Members Related to Prickle Development in Rosa chinensis Old Blush

YOU YuWan, ZHANG Yu, SUN JiaYi, ZHANG Wei*   

  1. College of Horticulture & Forestry Sciences, Huazhong Agricultural University/Key Laboratory of Horticultural Plant Biology, Ministry of Education/Key Laboratory of Urban Agriculture in Central China, Ministry of Agriculture and Rural Affairs, Wuhan 430070
  • Online:2022-05-11

摘要: 【目的】从月月粉全基因组中鉴定NAC家族成员,并进行生物信息学和表达模式分析,为研究月月粉NAC的潜在功能提供理论基础,筛选可能参与皮刺发育的候选基因。【方法】以拟南芥NAC氨基酸序列为参考,利用双向BLASTHMM结构域检索筛选RcNAC;对筛选成员进行理化性质、亚细胞定位、序列特征、顺式元件和系统进化分析;基于已释放转录组数据,分析RcNAC不同组织器官,和不同逆境处理条件下的表达特性;同时通过月月粉不同发育阶段皮刺组织转录组测序,筛选与皮刺发育可能相关的RcNAC基因。【结果】共鉴定得到116个RcNACs,均含有完整典型的NAM保守结构域,其编码蛋白包含69-713个氨基酸不等,等电点从4.43-9.54不等,分子质量从7.87-79.99kD不等,81RcNACs被预测定位于细胞核内;115个RcNACs7条染色体上不均匀分布,1RcNAC未明确位置信息;系统进化树分析将AtNACsOsNACsRcNACs聚为21类;在不同组织器官中,116个RcNACs表达模式各异,遭受水胁迫和感染灰霉病之后,31个RcNACs表达量发生变化;在衰老的花组织中,6RcNACs表达量上升;皮刺转录组数据中检测到53个RcNACs,其中26个RcNACs为差异表达基因。【结论】基于已有转录组数据分析,RcNACs协同调控植物组织发育及逆境胁迫响应;结合皮刺转录组数据,部分成员可能参与皮刺细胞增殖、次生细胞壁生物合成及细胞程序性死亡等过程,可作为皮刺发育相关候选基因进行深入研究。


关键词: 月月粉, NAC转录因子, 转录组测序, 皮刺发育

Abstract: 【ObjectiveThis study was designed to identify the NAC gene family in Rosa chinensis ‘Old Blush’, analyze the sequences characteristics and expression pattern of RcNACs to reveal the biological functions of RcNACs. It also provides an important foundation to explore the role of RcNACs in prickles. 【MethodThe BLATP and HMMER search were conducted to identify NAC proteins in Rosa chinensis ‘Old Blush’ using the sequences of NAC proteins of Arabidopsis. Physical and chemical properties, subcellular location, structure and phylogenetic relationship of each gene were further analyzed. Based on the released transcriptome data, the expression characteristics of RcNACs in different tissues and organs and under different stress conditions were analyzed. What’s more, the technology of RNA-seq was used to screen RcNAC genes that might be related to the prickle development. 【ResultIn this study, we identified and characterized 116 NAC genes from Rosa chinensis ‘Old Blush’ genome. These RcNACs genes encoded proteins containing 69 to 713 amino acids, with the theoretical isoelectric points ranging from 4.43 to 9.54 and the molecular weight ranging from 7.87 to 79.99kD. The prediction of subcellular localization showed that 81 RcNACs were located in the nucleus. Moreover, RcNACs were unevenly distributed on 7 chromosomes. According to phylogenetic relationships, AtNACs, OsNACs and RcNACs were clustered into 21 groups. These 116 RcNACs were differentially expressed in various tissues and organs, and the expression levels of 31 members changed in response to abiotic and biotic stresses. Furthermore, in the RNA-seq data of prickles, 53 RcNACs were detected, of which 26 members were differentially expressed genes. ConclusionThis study demonstrated that RcNACs were involved in the regulation of plant development and stress responses. Some members might be involved in the processes of prickle cell proliferation, secondary cell wall biosynthesis and programmed cell death, which could be selected as candidate genes related with prickle development for further study.


Key words: Rosa chinensis , ‘Old Blush’, NAC transcription factor,  , transcriptome sequencing,  , prickle development