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白花泡桐PfCCR全基因组鉴定及逆境响应OA

Genome-wide Identification and Stress Response of PfCCR Gene Family in Paulownia fortunei

中文摘要英文摘要

[目的]为解析白花泡桐木质素生物合成途径中关键限速酶肉桂酰辅酶 A还原酶(CCR)的基因组学特征及功能分化,基于白花泡桐全基因组数据,对 CCR家族进行全基因组鉴定和系统分析,探究白花泡桐在木质素合成及生物和非生物胁迫下的响应机制,为基因编辑技术定向培育优良抗逆泡桐新品种提供理论参考.[方法]以拟南芥中已知的 CCR蛋白序列为诱饵,基于泡桐基因组数据库进行 BLAST比对,获得白花泡桐 PfCCRs家族成员,并利用生物信息学技术分析其家族成员进化关系、启动子结合元件、共线性等特征,采用实时荧光定量PCR(RT-qPCR)技术对白花泡桐 PfCCRs在不同组织以及逆境胁迫下的表达水平进行检测.[结果]1)在白花泡桐全基因组中鉴定到 14个 PfCCRs成员,氨基酸长度 111~360 aa,分为 Cluster Ⅰ~Cluster Ⅴ 5个亚家族,均含有NADB_Rossmann结构域.2)PfCCRs启动子区域富集光响应、激素信号响应和逆境胁迫响应相关元件,且 PfCCRs不均匀分布于 8条染色体,其分别与双子叶植物芝麻和拟南芥 CCRs之间产生 10个共线基因对.3)系统发育树构建与分析表明,PfCCR9和 PfCCR11与拟南芥木质素合成调控因子 AtCCR1以及抗病防御相关基因 AtCCR2共同聚集于Cluster Ⅰ,此外,在干旱、盐胁迫下PfCCR9和PfCCR11的表达显著上调,表明其在抗逆分子调控中发挥关键作用;而PfCCR12在丛枝植原体(PaWB)感染苗中的表达显著上调,表明其在病原体胁迫中起重要功能.4)PfCCR1、PfCCR3、PfCCR6、PfCCR7、PfCCR11、PfCCR13和 PfCCR14在茎中显著高表达,而 PfCCR10和 PfCCR11在根中显著高表达,表明这 8个基因在木质素合成中发挥重要作用.[结论]本研究鉴定调控泡桐木质素合成、抗逆等分子机制中发挥作用的 PfCCRs家族关键成员,根据进化分析与表达量验证预测 Cluster Ⅰ中的 PfCCR9和 PfCCR11以及Cluster Ⅰ中PfCCR12的在抗逆胁迫中具有重要调控作用,为泡桐抗逆新品种选育的候选基因.

[Objective]To elucidate the genomic characteristics and functional divergence of cinnamoyl-CoA reductase(CCR),a key rate-limiting enzyme in the lignin biosynthetic pathway of Paulownia fortunei,the genome-wide identification and systematic analysis of the CCR gene family were conducted based on the whole-genome data.The lignin synthesis in P.fortunei and the response mechanisms to biotic and abiotic stresses were explored,which would provide a theoretical basis for the targeted breeding of new elite stress-resistant Paulownia varieties via genome editing technology.[Method]The known CCR amino acid sequence from Arabidopsis thaliana was used as a query,with which BLAST alignment was performed against the P.fortunei genome database to obtain P.fortunei PfCCRs family members.Bioinformatics techniques were then used to analyze the evolutionary relationships,promoter binding elements,and collinearity of these family members.Real-time quantitative PCR(RT-qPCR)was employed to analyze the expression levels of P.fortunei PfCCRs in different tissues and under abiotic stress conditions.[Result]1)In this study,a total of 14 PfCCR members were identified in the P.fortunei genome,with amino acid lengths ranging from 111 to 360 aa.These members were classified into five subfamilies(Cluster Ⅰ to Cluster Ⅴ)and all contained the NADB_Rossmann domain.2)The PfCCR promoter regions were enriched with cis-acting elements associated with light response,hormone signal response,and stress response.Furthermore,the PfCCR genes were unevenly distributed across 8 chromosomes,and 10 collinear gene pairs were identified between P.fortunei and the dicotyledonous plants Sesamum indicum(sesame)and A.thaliana CCRs.3)Phylogenetic tree construction and analysis indicated that PfCCR9 and PfCCR11 clustered together with A.thaliana lignin synthesis regulator AtCCR1 and disease resistance-related gene AtCCR2 in Cluster Ⅰ.Furthermore,the expression of PfCCR9 and PfCCR11 was significantly upregulated under drought and salt stress,suggesting their critical roles in the molecular regulation of stress tolerance.In contrast,PfCCR12 expression was significantly upregulated in seedlings infected with Paulownia witches'broom phytoplasma(PaWB),indicating an important function in pathogen stress response.4)PfCCR1,PfCCR3,PfCCR6,PfCCR7,PfCCR11,PfCCR13,and PfCCR14 exhibited significantly high expression in stems,while PfCCR10 and PfCCR11 were highly expressed in roots,indicating that these 8 genes play important roles in lignin biosynthesis.[Conclusion]This study has identified key members of the PfCCRs family that play a role in regulating lignin synthesis and stress resistance in Paulownia wood.Based on evolutionary analysis and expression level validation,PfCCR9 and PfCCR11 in Cluster Ⅰ,as well as PfCCR12 in Cluster Ⅰ,play important regulatory roles in stress resistance,making them candidate genes for breeding new stress-resistant Paulownia varieties.

王若雨;冯梦琦;司马璐;赵振利;范国强

河南农业大学林学院 郑州 450046河南农业大学林学院 郑州 450046河南农业大学林学院 郑州 450046河南农业大学林学院 郑州 450046河南农业大学林学院 郑州 450046

农业科技

白花泡桐CCR基因家族全基因组鉴定木质素逆境响应调控机制

Paulownia fortuneiCCR gene familygenome-wide identificationligninstress responseregulatory mechanisms

《林业科学》 2026 (5)

1-15,15

中国博士后科学基金项目:(2024M750814,2025T180542)中原学者科学家工作室建设项目(30601986)国家自然科学基金项目(32401613).

10.11707/j.1001-7488.LYKX20260014

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