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学者姓名:陈晓婷
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【目的】研究OsAOS2在水稻抵抗稻瘟病菌和白叶枯病菌中的作用,为水稻抗病育种工作提供依据。【方法】采用同源重组方法和CRISPR/Cas9系统分别构建OsAOS2的过表达载体和敲除载体,遗传转化获得转基因水稻,筛选得到过表达株系(OsAOS2-OE)和纯合敲除株系(OsAOS2-KO)。将野生型水稻日本晴(NPB)植株分别接种稻瘟病菌和白叶枯病菌后,通过qRT-PCR检测OsAOS2表达量的变化情况;将OsAOS2转基因水稻和NPB分别接种稻瘟病菌和白叶枯病菌后,观察植株表型的变化;在稻瘟病菌侵染下,对OsAOS2转基因水稻和NPB进行抗病相关基因的qRT-PCR分析;在几丁质和flg22诱导下,检测水稻活性氧(ROS)积累情况;同时,分析接种稻瘟病菌24 h后OsAOS2-KO和NPB的转录组数据。【结果】qRT-PCR分析表明,NPB接种稻瘟病菌48 h和白叶枯病菌8 d时,OsAOS2表达量显著上调。对OsAOS2转基因水稻和NPB喷雾接种稻瘟病菌7 d后,NPB病斑面积显著大于OsAOS2-OE且小于OsAOS2-KO;剪叶法接种白叶枯病菌14 d后,NPB病斑面积显著小于OsAOS2-KO。对OsAOS2转基因水稻接种稻瘟病菌后,抗病相关基因OsPBZ1、OsPR1a、OsPAL1、OsLOX5在OsAOS2-OE中的表达量显著上调。在几丁质和flg22诱导下,OsAOS2-KO中ROS的积累量显著低于NPB,但是起峰时间比NPB有所提前。转录组数据分析表明,上调基因和下调基因分别有1 605个和1 151个。上调差异基因主要富集在金属离子结合和核糖体通路,下调差异基因主要富集在翻译通路和细胞外区域。韦恩图显示:52个基因在NPB中受稻瘟病菌诱导,但在OsAOS2-KO中受到抑制;11个基因在NPB中受抑制,但在OsAOS2-KO中受诱导。对这63个表达模式相反的差异基因进行GO和KEGG分析发现,参与应激反应和植物激素信号转导通路的基因数最多。【结论】稻瘟病菌和白叶枯病菌可以诱导OsAOS2的表达,OsAOS2通过病原菌分子模式触发的免疫(PTI)途径和茉莉酸(JA)、水杨酸(SA)介导的抗病反应正调控水稻对稻瘟病菌的抗性,同时,OsAOS2在水稻抵御白叶枯病菌中也起重要作用。
Keyword :
OsAOS2 OsAOS2 抗病性 抗病性 白叶枯病 白叶枯病 稻瘟病 稻瘟病 茉莉酸 茉莉酸 转录组分析 转录组分析
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| GB/T 7714 | 周永林 , 庄小倩 , 王朝露 et al. OsAOS2基因在水稻抗稻瘟病菌和白叶枯病菌中的作用 [J]. | 福建农林大学学报(自然科学版) , 2025 , 54 (02) : 145-156 . |
| MLA | 周永林 et al. "OsAOS2基因在水稻抗稻瘟病菌和白叶枯病菌中的作用" . | 福建农林大学学报(自然科学版) 54 . 02 (2025) : 145-156 . |
| APA | 周永林 , 庄小倩 , 王朝露 , 林巧霞 , 李正康 , 许丹洁 et al. OsAOS2基因在水稻抗稻瘟病菌和白叶枯病菌中的作用 . | 福建农林大学学报(自然科学版) , 2025 , 54 (02) , 145-156 . |
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【目的】茉莉酸(Jasmonic acid, JA)在植物生长发育和应对(非)生物胁迫中发挥重要功能,12-氧-植物二烯酸还原酶(12-oxo-phytodienoic acid reductase, OPR)是JA生物合成途径中的关键酶。创制OsOPR10转基因水稻,进行稻瘟病和白叶枯病抗性分析,揭示OsOPR10调控水稻抗病的分子机制,有望为水稻抗病育种提供种质资源。【方法】构建OsOPR10的CRISPR/Cas9敲除载体和过表达载体,并分别利用农杆菌介导转化野生型水稻日本晴(Nipponbare, NPB),获得OsOPR10敲除和过表达转基因水稻。对转基因后代进行抗病性、活性氧(ROS)爆发、水杨酸(salicylic acid, SA)与茉莉酸(JA)途径基因表达模式分析。利用激光共聚焦显微镜观察OsOPR10的亚细胞定位,酵母双杂交实验和荧光素酶互补实验获取OsOPR10的互作蛋白。【结果】获得OsOPR10纯合的敲除和过表达植株。接菌试验结果表明,OsOPR10过表达植株对稻瘟病和白叶枯病抗性更强。在几丁质(chitin)和细菌鞭毛蛋白(flg22)诱导后,OsOPR10过表达植株的ROS积累量明显高于野生型。qRT-PCR结果显示,在接种稻瘟菌12h后,OsOPR10过表达植株中JA通路基因(OsAOS2、OsAOC)和SA通路基因(OsPR1a、OsPAL1)较NPB表达上调。亚细胞定位结果显示,OsOPR10蛋白定位于叶绿体。通过酵母双杂交试验获取OsOPR10的互作蛋白OsCYP28。【结论】OsOPR10受稻瘟病菌和白叶枯菌以及外源茉莉酸甲酯与SA诱导。OsOPR10参与了病原菌分子模式触发的免疫途径(PTI),并且正调控水稻对稻瘟病和白叶枯病的抗性。此外,OsOPR10可能通过JA和SA途径介导水稻抗病反应。OsOPR10蛋白定位于叶绿体,与OsCYP28蛋白存在互作。
Keyword :
CRISPR/Cas9 CRISPR/Cas9 OsOPR10 OsOPR10 水稻 水稻 白叶枯病 白叶枯病 稻瘟病 稻瘟病 茉莉酸 茉莉酸 过表达 过表达
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| GB/T 7714 | 许丹洁 , 林巧霞 , 李正康 et al. OsOPR10正调控水稻对稻瘟病和白叶枯病的抗性 [J]. | 中国水稻科学 , 2024 , 38 (04) : 364-374 . |
| MLA | 许丹洁 et al. "OsOPR10正调控水稻对稻瘟病和白叶枯病的抗性" . | 中国水稻科学 38 . 04 (2024) : 364-374 . |
| APA | 许丹洁 , 林巧霞 , 李正康 , 庄小倩 , 凌宇 , 赖美玲 et al. OsOPR10正调控水稻对稻瘟病和白叶枯病的抗性 . | 中国水稻科学 , 2024 , 38 (04) , 364-374 . |
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Transcriptional regulation mediated by the balance of histone acetylation and deacetylation is fundamental in responding to environmental cues by impacting chromatin remodeling. Histone deacetylases (HDACs) are enzymes that remove acetyl groups from histone and non-histone proteins, thus restoring a tight chromatin structure. In pathogenic fungi, HDACs have been implicated in growth, secondary metabolite biosynthesis, and virulence. However, the role of HDACs in the mycotoxin fumonisin B1 (FB1)-producing fungus Fusarium verticillioides is poorly understood. In this study, we systematically characterized six F. verticillioides HDACs. An increased level of H4K16ac was observed in the deletion mutant of FvHOS2, which was associated with vegetative growth, conidiation, and virulence when infecting sugarcane and maize. FvRpd3 appeared to be essential for vegetative growth, while FvHda1 promoted growth, and both contributed to conidiation and pathogenicity. In contrast, FvSirt4 displayed a negative correlation with these processes. Additionally, the FB1 production was positively affected by FvHos2 and FvRpd3, but negatively impacted by Fvhda1, FvSir2, FvHst2, and FvSirt4 through the regulation of different key fumonisin biosynthetic (FUM) genes. Further findings indicate an association between FvSirt4 and FvSkb1, which is a histone methylase that positively regulates FB1 and pathogenicity. Moreover, as a global transcriptional regulator, over 2365 genes (similar to 15% of the genome) enriched in multiple metabolic pathways were significantly downregulated in the Delta Fvhos2 mutants relative to the wild type. Overall, our results suggest distinct roles of HDACs in regulating the growth, virulence, mycotoxin FB1 production, and gene expression in F. verticillioides.
Keyword :
fumonisin B1 (FB1) fumonisin B1 (FB1) F. verticillioides F. verticillioides histone deacetylase (HDAC) histone deacetylase (HDAC) pathogenicity pathogenicity
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| GB/T 7714 | Yu, Wenying , Wang, Jiajia , Wang, Meiduo et al. Regulation of Fumonisin B1 Production and Pathogenicity in Fusarium verticillioides by Histone Deacetylases [J]. | AGRONOMY-BASEL , 2024 , 14 (10) . |
| MLA | Yu, Wenying et al. "Regulation of Fumonisin B1 Production and Pathogenicity in Fusarium verticillioides by Histone Deacetylases" . | AGRONOMY-BASEL 14 . 10 (2024) . |
| APA | Yu, Wenying , Wang, Jiajia , Wang, Meiduo , Wen, Gaolong , Liang, Jiayan , Chen, Xiaoting et al. Regulation of Fumonisin B1 Production and Pathogenicity in Fusarium verticillioides by Histone Deacetylases . | AGRONOMY-BASEL , 2024 , 14 (10) . |
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突如其来的新冠肺炎疫情使得2020年春季学期福建农林大学本科生未能返校,在“停课不停教,停课不停学”的号召下,借鉴美国马里兰大学和华中农业大学的教学经验和成果,对有机化学开展线上教学。为避免线上教学缺乏师生互动、学生居家主动学习动力不足和部分学生自学能力欠缺等问题,进行了多种教学形式的线上教学实践,减少网课的枯燥乏味感觉,提升了学生的学习成绩。线上教学不仅使教师熟悉了中国大学慕课、超星泛雅平台、微助教、腾讯会议等教学平台,增加了上课直播的教学经验,对今后开展线上线下教学和深化教学改革奠定了良好基础。
Keyword :
农林院校 农林院校 在线教学 在线教学 教学改革 教学改革 有机化学 有机化学 非化学专业 非化学专业 马里兰大学 马里兰大学
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| GB/T 7714 | 陈晓婷 , 黄玉梓 , 吴羽平 et al. 疫情之下非化学专业有机化学混合式教学探索与实践——以福建农林大学为例 [J]. | 化学工程与装备 , 2022 , (01) : 263-265 . |
| MLA | 陈晓婷 et al. "疫情之下非化学专业有机化学混合式教学探索与实践——以福建农林大学为例" . | 化学工程与装备 01 (2022) : 263-265 . |
| APA | 陈晓婷 , 黄玉梓 , 吴羽平 , 周学酬 , 郑石英 , 聂丽华 . 疫情之下非化学专业有机化学混合式教学探索与实践——以福建农林大学为例 . | 化学工程与装备 , 2022 , (01) , 263-265 . |
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【目的】由稻瘟病菌(Magnaporthe oryzae)引起的稻瘟病和由水稻黄单胞菌(Xanthomonas oryzae pv. oryzae,Xoo)引起的白叶枯病严重影响水稻的产量和品质。创制转OsLOX10基因水稻材料,进行稻瘟菌和白叶枯菌的抗病性分析,有助于揭示其调控水稻对稻瘟病和白叶枯病的抗性机制。【方法】采用CRISPR/Cas9系统构建OsLOX10的敲除载体,利用限制性内切酶XcmⅠ线性化p CXUN-HA,TA连接构建OsLOX10的过表达载体,遗传转化获得OsLOX10转基因水稻,筛选过表达株系和纯合敲除株系进行真菌和细菌的抗病性分析。在稻瘟菌(Guy11)侵染水稻后,对水杨酸(salicylic acid,SA)、茉莉酸(jasmonic acid,JA)途径的标志基因进行q RT-PCR分析;在几丁质(chitin)和flg22诱导下,观测水稻活性氧(reactive oxygen species,ROS)的暴发情况。【结果】qRT-PCR分析表明,接种稻瘟菌和白叶枯菌24 h后,OsLOX10表达量上调;OsLOX10的纯合敲除和过表达水稻转基因株系接种稻瘟病菌Guy11孢子悬浮液,与野生型(日本晴)相比,OsLOX10敲除株系更易感病,过表达株系则无典型的病斑症状;接种6、12、24和36h时,3个病程相关蛋白基因OsPBZ1、OsPR1a、OsPR1b和SA通路基因OsPAL1,以及JA合成通路上的2个基因OsAOS2、OsLOX5的转录水平在敲除转基因株系中显著下调,而在过表达转基因株系中显著上调。对转OsLOX10基因水稻接种白叶枯菌(PXO99A),发现敲除OsLOX10的转基因水稻对白叶枯菌更易感病。q RT-PCR分析OsPR1b和OsPAL1以及JA合成通路上的3个基因OsAOS2、OsAOC和OsJAZ在OsLOX10过表达基因水稻中表达量明显上调,而在敲除OsLOX10的转基因水稻中却保持在较低水平,在接种7 d后表现出显著性差异。在几丁质和flg22诱导下,OsLOX10敲除株系的ROS水平显著性降低,而且在几丁质诱导下,ROS的起峰时间推迟。【结论】稻瘟病菌和白叶枯病菌能够诱导OsLOX10的表达,OsLOX10通过病原菌分子模式触发的免疫途径(PTI)参与抗病反应,其在水稻抵御稻瘟病和白叶枯病中起着正调控作用。同时,OsLOX10可能通过调节SA和JA介导的信号通路来正调控水稻对稻瘟病和白叶枯病的抗性。
Keyword :
CRISPR/Cas9基因编辑技术 CRISPR/Cas9基因编辑技术 OsLOX10 OsLOX10 信号途径 信号途径 抗病性 抗病性 白叶枯病 白叶枯病 稻瘟病 稻瘟病
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| GB/T 7714 | 周永林 , 申小磊 , 周立帅 et al. OsLOX10正调控水稻对稻瘟病和白叶枯病的抗性 [J]. | 中国水稻科学 , 2022 , 36 (04) : 348-356 . |
| MLA | 周永林 et al. "OsLOX10正调控水稻对稻瘟病和白叶枯病的抗性" . | 中国水稻科学 36 . 04 (2022) : 348-356 . |
| APA | 周永林 , 申小磊 , 周立帅 , 林巧霞 , 王朝露 , 陈静 et al. OsLOX10正调控水稻对稻瘟病和白叶枯病的抗性 . | 中国水稻科学 , 2022 , 36 (04) , 348-356 . |
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Soil fungi play an important role in the process of planting tea tree. However, effects of acidification on the diversity and function of the fungi community in tea rhizosphere soil have been rarely reported. In this study, tea rhizosphere soils with pH of 3.3, 4.7, 5.3 and 6.4 were investigated for diversity and function of fungal communities through T-RFLP technology. The results showed that the abundance and diversity of fungi increased significantly with the decrease of pH value of rhizosphere soil. The results of significance analysis showed that 38 T-RFs fragments were significantly correlated with pH value, among which 32 were negatively correlated with pH value and 6 were positively correlated with pH value. After database comparison, 23 fungi were identified and classified according to their nutritional patterns, which can be divided into four types, including pathotroph, symbiotroph, saprotroph and unknown, accounting for 36.85%, 7.89%, 15.79% and 39.47%, respectively. At pH value of 3.3, the fungus abundance reached the maximum value. In conclusion, acidification leads to changes in the structure and diversity of the fungi community in tea rhizosphere soil, specifically, a significant increase in the number and species of fungi, of which the pathotroph type is the largest. This study provides an important theoretical basis for controlling fungal diseases of tea tree in acidified tea plantations.
Keyword :
fungi community structure fungi community structure pH value pH value rhizosphere soil rhizosphere soil tea tree tea tree T-RFLP T-RFLP
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| GB/T 7714 | Ye, Jiang Hua , Chen, Xiao Ting , Liu, Guo Ying et al. Effect of tea soil acidification on the diversity and function of fungi community [J]. | JOURNAL OF APPLIED BOTANY AND FOOD QUALITY , 2021 , 94 : 199-, . |
| MLA | Ye, Jiang Hua et al. "Effect of tea soil acidification on the diversity and function of fungi community" . | JOURNAL OF APPLIED BOTANY AND FOOD QUALITY 94 (2021) : 199-, . |
| APA | Ye, Jiang Hua , Chen, Xiao Ting , Liu, Guo Ying , Jia, Xiao Li , Zhang, Qi , Zhu, Chun Lian et al. Effect of tea soil acidification on the diversity and function of fungi community . | JOURNAL OF APPLIED BOTANY AND FOOD QUALITY , 2021 , 94 , 199-, . |
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We determined the soil autotoxicity in the rhizosphere soil of passion fruit continued cropping up to 3 years, and analyzed the changes in the enzyme activity, microbial quantity and diversity in rhizosphere soil. The results showed that the autotoxicity of passion fruit rhizosphere soil increases with the increase in continuous cropping years. The microbial biomass carbon, microbial respiration, and the activity of enzymes (protease, urease and catalase) in passion fruit rhizosphere soil decreased with increases in passion fruit continuous cropping years. Contrarily, the activity of polyphenol oxidase was opposite, showing an upward trend. The results of BIOLOG eco-plate showed that the differences in soil carbon sources between different continuous cropping years were mainly amino acids, carboxylic acids, phenolic acids and amine carbon sources. The ratio of bacteria, bacteria/fungus ratio, actinomycetes, protozoa and total marker PLFA in the rhizosphere soil decreased significantly with the increase of soil planting years, while the total PLFA of fungi increased. Thus, with the increase of continuous cropping years of passion fruit, the soil autotoxicity was intensified and the soil enzyme activity and soil microbial diversity decreased.
Keyword :
Autotoxicity Autotoxicity bacteria bacteria continuous cropping continuous cropping fungi fungi microbes microbes Passiflora edulis Passiflora edulis passion fruit passion fruit rhizosphere soil rhizosphere soil soil enzymes soil enzymes soil microbes soil microbes
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| GB/T 7714 | Zhang, Q. X. , Chen, X. T. , Wang, Y. C. et al. Autotoxicity of continuously cropped Passion fruit (Passiflora edulis Sims) Soil [J]. | ALLELOPATHY JOURNAL , 2021 , 53 (1) : 101-110 . |
| MLA | Zhang, Q. X. et al. "Autotoxicity of continuously cropped Passion fruit (Passiflora edulis Sims) Soil" . | ALLELOPATHY JOURNAL 53 . 1 (2021) : 101-110 . |
| APA | Zhang, Q. X. , Chen, X. T. , Wang, Y. C. , Wang, Y. H. , Zhu, C. L. , Lin, L. W. et al. Autotoxicity of continuously cropped Passion fruit (Passiflora edulis Sims) Soil . | ALLELOPATHY JOURNAL , 2021 , 53 (1) , 101-110 . |
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为提高教学效果以及学生学习《有机化学》课程的兴趣,我们对有机化学课程的教育教学内容进行改革,挖掘本课程知识体系中蕴含的马克思主义哲学观点及其课程思政元素。文章以一个基于有机分子反应机理的课程思政教学案例为范例,论述了《有机化学》课程思政教学的原理、内容和方法,力图使有机化学课堂教学达到学理性与政治性的相统一。结果表明,有机化学课堂开展"课程思政"教学的效果良好,提高了学生的学习积极性。
Keyword :
反应机理 反应机理 有机化学 有机化学 竞争 竞争 课程思政 课程思政
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| GB/T 7714 | 黄玉梓 , 蒋疆 , 蔡向阳 et al. 《有机化学》课程思政教学探索——以有机分子反应机理的教学为例 [J]. | 化学工程与装备 , 2021 , (12) : 310-313 . |
| MLA | 黄玉梓 et al. "《有机化学》课程思政教学探索——以有机分子反应机理的教学为例" . | 化学工程与装备 12 (2021) : 310-313 . |
| APA | 黄玉梓 , 蒋疆 , 蔡向阳 , 陈进 , 陈晓婷 . 《有机化学》课程思政教学探索——以有机分子反应机理的教学为例 . | 化学工程与装备 , 2021 , (12) , 310-313 . |
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Soil metaproteomics technology was used to analyse and undertand the changes in microbial diversity in rhizospheric soil of Tieguanyin tea trees (Camellia sinensis (L.) O. Ktze.) of different ages. The results showed We identified 2911 protein spots in the rhizosphere soil of tea tree. These were derived from 388 species of microorganisms [331 species of bacteria (85.31 %) and 57 species of fungi (14.69 %)]. According to the analysis of microbial species in tea tree rhizospheric soil with different ages, the number of microbial species in 0, 4, 9 and 30-years old rhizospheric soils were 346, 350, 345 and 354, respectively. Among them, 310 microbial species co-existed in the rhizospheric soil with different ages tea trees. The analysis of results of microbial species and function showed that, as the tea tree age increased, the pathogenic microorganisms in its rhizospheric soil increased, while the microorganisms, for decomposing harmful substances, probiotics and microorganisms related to carbon cycle and nitrogen cycle decreased. The microbial structure and functions of tea tree rhizospheric soil changed significantly with increase in tea tree age.
Keyword :
Age of tree Age of tree bacteria bacteria Camellia sinensis Camellia sinensis fungi fungi microbial diversity microbial diversity rhizospheric soil rhizospheric soil soil metaproteomics soil metaproteomics soil sickness soil sickness Tea tree Tea tree
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| GB/T 7714 | Wang, H. B. , Zhang, Q. X. , Chen, X. T. et al. Analysis of microbial diversity of tea tree (Camellia sinensis (L.) O. Ktze.) sick rhizospheric soil using soil metaproteomic technology [J]. | ALLELOPATHY JOURNAL , 2020 , 51 (2) : 147-155 . |
| MLA | Wang, H. B. et al. "Analysis of microbial diversity of tea tree (Camellia sinensis (L.) O. Ktze.) sick rhizospheric soil using soil metaproteomic technology" . | ALLELOPATHY JOURNAL 51 . 2 (2020) : 147-155 . |
| APA | Wang, H. B. , Zhang, Q. X. , Chen, X. T. , Wang, Y. H. , Lin, L. W. , Ye, J. H. et al. Analysis of microbial diversity of tea tree (Camellia sinensis (L.) O. Ktze.) sick rhizospheric soil using soil metaproteomic technology . | ALLELOPATHY JOURNAL , 2020 , 51 (2) , 147-155 . |
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In order to explore the effect of soil on the synthesis of aroma components in tea leaves, tea seedlings replanted in tea rhizosphere soil of different ages were used as research materials. Tea seedlings were replanted in soils aged 0, 4, 9, and 30 years, and after one year of growth, 34, 37, 29, and 26 substances were detected in the tea leaves, respectively, using gas chromatography-mass spectrometry (GC-MS). The relative contents of terpenoids and alcohols in the tea leaves dropped from 66.40% to 44.52% and 5.21% to 2.61%, respectively, as the age of the rhizosphere soil increased. Aldehydes, esters, and nitrogen compounds increased from 3.80% to 22.36%, 1.33% to 12.02%, and 3.13% to 19.96%, respectively, as the age of the rhizosphere soil increased. Gene differential expression measured by fluorescence quantitative PCR (qRT-PCR) showed that the number of nerolidol synthetase and linalool synthase genes in tea leaves increased significantly, and the terpineol synthetase, phellandrene synthase, myrcene synthetase, ocimene synthase, limonene synthetase, germacrene synthase, and farnesene synthase genes declined significantly with the increase in soil age. In summary, as the number of years tea had been planted in the soil increased, the soil significantly affected the expression of terpene synthase genes in tea leaves, and then the composition and content of aroma substances in tea leaves changed. The results provide a theoretical basis for the improvement of tea quality.
Keyword :
Aroma components Aroma components Gene expression Gene expression Rhizosphere soil Rhizosphere soil Tea tree Tea tree Terpenoid synthases Terpenoid synthases
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| GB/T 7714 | Wang, Haibin , Chen, Xiaoting , Wang, Yuhua et al. Effects of tea garden soil on aroma components and related gene expression in tea leaves [J]. | JOURNAL OF APPLIED BOTANY AND FOOD QUALITY , 2020 , 93 : 105-111 . |
| MLA | Wang, Haibin et al. "Effects of tea garden soil on aroma components and related gene expression in tea leaves" . | JOURNAL OF APPLIED BOTANY AND FOOD QUALITY 93 (2020) : 105-111 . |
| APA | Wang, Haibin , Chen, Xiaoting , Wang, Yuhua , Ye, Jianghua , Jia, Xiaoli , Zhang, Qi et al. Effects of tea garden soil on aroma components and related gene expression in tea leaves . | JOURNAL OF APPLIED BOTANY AND FOOD QUALITY , 2020 , 93 , 105-111 . |
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