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学者姓名:吴菁华
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Melon, a globally important horticultural crop, faces increasing continuous cropping obstacles (CCOs) due to cultivation intensification, with autotoxicity being a primary cause. Autotoxin accumulation severely impacts plant growth, reducing yield and quality. Exogenous silicon (Si) plays an important role in improving plant stress adaptation and is an environmentally friendly element with broad application prospects. This study investigated the alleviative effects and underlying mechanisms of Si on melon autotoxicity through integrated morphological, physiological, biochemical, and gene expression analyses. The results demonstrated that autotoxicity severely inhibited plant growth, manifesting as 18-30 % reductions in root length, 12-17 % decreases in plant height, and a 16.03 % decline in aboveground fresh weight. Concurrently, oxidative stress was markedly induced, exemplified by a 163.43 % increase in leaf malondialdehyde content. The application of Si effectively mitigated these perturbations, resulting in enhancements of up to 38.10 % in root length and 38.26 % in root dry weight. It also reduced oxidative damage, decreasing malondialdehyde and O-2(-) content by over 30 % and 23.40 %, respectively. The antioxidant system was significantly bolstered, with superoxide dismutase and peroxidase activities elevated by up to 102.91 % and 56.38 %. Furthermore, photosynthetic performance was substantially restored, as indicated by increases of up to 56.94 % in chlorophyll a and 71.75 % in total chlorophyll content. At the molecular level, Si application upregulated the expression of most Si transporter genes that were inhibited under autotoxicity. Correlation analysis demonstrated significant negative relationships between growth parameters and oxidative stress markers. These findings contribute to understanding the mechanisms of Si in alleviating autotoxicity stress and provide valuable insights for overcoming CCOs in melon production.
Keyword :
Autotoxicity Autotoxicity Continuous cropping obstacle Continuous cropping obstacle Melon Melon Reactive oxygen species metabolism Reactive oxygen species metabolism Silicon transporter Silicon transporter
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| GB/T 7714 | Zhang, Zhizhong , Fan, Jiaru , Wang-Pruski, Gefu et al. Autotoxicity in Cucumis melo L. and its alleviation by exogenous silicon: Physiological and biochemical mechanisms [J]. | PLANT PHYSIOLOGY AND BIOCHEMISTRY , 2025 , 229 . |
| MLA | Zhang, Zhizhong et al. "Autotoxicity in Cucumis melo L. and its alleviation by exogenous silicon: Physiological and biochemical mechanisms" . | PLANT PHYSIOLOGY AND BIOCHEMISTRY 229 (2025) . |
| APA | Zhang, Zhizhong , Fan, Jiaru , Wang-Pruski, Gefu , Wu, Jinghua . Autotoxicity in Cucumis melo L. and its alleviation by exogenous silicon: Physiological and biochemical mechanisms . | PLANT PHYSIOLOGY AND BIOCHEMISTRY , 2025 , 229 . |
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Microplastics (MPs) and copper (Cu) are common co-pollutants in agricultural environments, yet their combined effects on plants remain poorly understood. This study investigated the individual and interactive impacts of Cu and polyvinyl chloride (PVC)-MPs on Perilla frutescens, a heavy metal hyperaccumulator and economically important crop, using hydroponic experiments. Low Cu concentrations (<2 mg L-1) promoted growth, whereas higher levels (>2 mg L-1) induced leaf chlorosis, curling, and root decay. PVC-MPs alone exhibited phytotoxicity only at high concentrations (>1000 mg L-1). In combined treatments, 10-100 mg L-1 PVC-MPs alleviated Cu-induced chlorosis and increased leaf area, though higher MP concentrations suppressed root growth. Physiologically, Cu stress impaired photosynthesis, enhanced antioxidant enzyme activity, and increased osmoregulatory substance content. PVC-MPs counteracted these effects by improving photosynthetic efficiency, enhancing peroxidase activity, and reducing osmotic stress markers. Transcriptomic analysis revealed that PVC-MPs upregulated endocytosis-related genes while downregulating jasmonic acid (JA) biosynthesis and lipid metabolism pathways. ABC transporter genes were differentially expressed, functionally linked to these processes. We demonstrate for the first time that PVC-MPs mitigate Cu stress via three synergistic mechanisms: enhanced membrane trafficking (endocytosis activation), suppression of stress-signaling phytohormones (JA), and lipid metabolism reprogramming. These findings redefine MPs' dual role as both pollutants and unexpected alleviators of metal toxicity. While these findings reveal MPs' unexpected capacity to alleviate metal stress, their persistent environmental accumulation necessitates comprehensive risk-benefit analysis and long-term ecological monitoring-highlighting the imperative for science-based evaluation rather than promoting field applications of MPs as stress mitigants.
Keyword :
Endocytosis Endocytosis Jasmonic acid metabolism Jasmonic acid metabolism Lipid metabolism Lipid metabolism Microplastic-heavy metal co-contamination Microplastic-heavy metal co-contamination Microplastic-mediated stress mitigation Microplastic-mediated stress mitigation Photosynthetic characteristics Photosynthetic characteristics Transcriptional regulation Transcriptional regulation
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| GB/T 7714 | Zhang, Zhizhong , Sun, Fenghang , Yang, Xinyue et al. Morphological, physiological, and molecular responses of Perilla frutescens to copper stress alleviated by PVC microplastics [J]. | PLANT PHYSIOLOGY AND BIOCHEMISTRY , 2025 , 225 . |
| MLA | Zhang, Zhizhong et al. "Morphological, physiological, and molecular responses of Perilla frutescens to copper stress alleviated by PVC microplastics" . | PLANT PHYSIOLOGY AND BIOCHEMISTRY 225 (2025) . |
| APA | Zhang, Zhizhong , Sun, Fenghang , Yang, Xinyue , Hu, Jing , Xu, Lixian , Wang-Pruski, Gefu et al. Morphological, physiological, and molecular responses of Perilla frutescens to copper stress alleviated by PVC microplastics . | PLANT PHYSIOLOGY AND BIOCHEMISTRY , 2025 , 225 . |
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beta-ketoacyl CoA synthase (KCS) is a key enzyme in the synthesis of long-chain fatty acids. It affects plant stress resistance by regulating the chain length of fatty acid elongation products, the wax deposition in plant epidermis, and the formation of suberization layers. Through a comprehensive, genome-wide analysis, we identified members of the melon KCS (CmKCS) family and characterized their sequence features, phylogenetic relationships, and expression profiles under three abiotic stress conditions, employing bioinformatics tools and methods. Fifteen CmKCSs were identified in the melon genome and found to be unevenly distributed across eight chromosomes. The subcellular localization of most members is located on the cytoplasmic membrane and chloroplasts. The CmKCS family amplifies its members in a tandem repeat manner, which is more closely related to the cucumber KCS and has similar gene functions. Subfamilies I, IV, and VI exhibit variations in conserved domain sequences, which may indicate specific functional differentiation. The promoter region harbors various cis-acting elements related to plant hormones and abiotic stress responses. Among these, the most abundant are elements responsive to abscisic acid, methyl jasmonate, salicylic acid, and anaerobic induction. CmKCS5, CmKCS6, CmKCS10, and CmKCS12 showed high expression in autotoxicity, saline-alkali stress, and microplastic exposure environments. These four CmKCSs may play important roles in melon development and stress response. In conclusion, this study provides a comprehensive analysis of the CmKCS gene family, revealing its potential roles in melon's response to abiotic stresses and laying a foundation for further functional characterization of these genes in stress tolerance mechanisms.
Keyword :
beta-ketoacyl CoA synthase gene beta-ketoacyl CoA synthase gene cucurbits cucurbits molecular phylogeny molecular phylogeny stress response gene stress response gene very-long-chain fatty acids very-long-chain fatty acids
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| GB/T 7714 | Zhang, Lizhen , Wang, Mingcheng , Tang, Xianhuan et al. Genome-Wide Identification of β-Ketoacyl CoA Synthase Gene Family in Melon (Cucumis melo L.) and Its Expression Analysis in Autotoxicity, Saline-Alkali, and Microplastic Exposure Environments [J]. | CURRENT ISSUES IN MOLECULAR BIOLOGY , 2025 , 47 (3) . |
| MLA | Zhang, Lizhen et al. "Genome-Wide Identification of β-Ketoacyl CoA Synthase Gene Family in Melon (Cucumis melo L.) and Its Expression Analysis in Autotoxicity, Saline-Alkali, and Microplastic Exposure Environments" . | CURRENT ISSUES IN MOLECULAR BIOLOGY 47 . 3 (2025) . |
| APA | Zhang, Lizhen , Wang, Mingcheng , Tang, Xianhuan , Yang, Xinyue , Zhang, Zhizhong , Wu, Jinghua . Genome-Wide Identification of β-Ketoacyl CoA Synthase Gene Family in Melon (Cucumis melo L.) and Its Expression Analysis in Autotoxicity, Saline-Alkali, and Microplastic Exposure Environments . | CURRENT ISSUES IN MOLECULAR BIOLOGY , 2025 , 47 (3) . |
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Soil salinization and autotoxicity are major abiotic stresses constraining melon production. The ACE gene family (also known as HOTHEAD, HTH) encodes flavin-containing oxidoreductases involved in stress responses and RNA cache-mediated non-Mendelian inheritance. This study presents a comprehensive genome-wide analysis of the ACE/HTH gene family in melon through integrated bioinformatic and experimental approaches. We identified 14 CmACE genes encoding proteins of 457-595 amino acids. This gene family underwent significant expansion through tandem duplication events, particularly on chromosome 5. Phylogenetic analysis grouped these genes into three distinct clades with conserved gene structures and motif compositions. Promoter analysis identified abundant stress- and hormone-responsive cis-elements, with ABRE elements being predominant. Expression analyses revealed that multiple CmACE genes, including CmACE3, CmACE5, CmACE6 and CmACE14, were significantly upregulated under salt-alkali and autotoxicity stresses, showing distinct tissue-specific and time-dependent expression patterns. Notably, CmACE3 and CmACE6 were strongly induced under both stresses, while the tandemly duplicated pair CmACE6 and CmACE7 exhibited divergent expression patterns, suggesting functional specialization. Our findings provide the first comprehensive characterization of the CmACE gene family in melon, revealing its evolutionary history and stress-responsive regulation. These results not only offer valuable genetic resources for breeding stress-resistant melons but also lay a foundation for future research into the potential role of this conserved gene family in integrating stress adaptation with epigenetic regulatory pathways in crops.
Keyword :
ACE gene family ACE gene family autotoxicity autotoxicity Cucumis melo L. Cucumis melo L. expression analysis expression analysis genome-wide identification genome-wide identification salt-alkali stress salt-alkali stress stress response stress response
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| GB/T 7714 | Yang, Hao , Xiao, Song , Liu, Sujie et al. Genome-Wide Identification of the ACE Gene Family in Melon (Cucumis melo L.) and Its Response to Autotoxicity and Saline-Alkali Stress [J]. | HORTICULTURAE , 2025 , 11 (11) . |
| MLA | Yang, Hao et al. "Genome-Wide Identification of the ACE Gene Family in Melon (Cucumis melo L.) and Its Response to Autotoxicity and Saline-Alkali Stress" . | HORTICULTURAE 11 . 11 (2025) . |
| APA | Yang, Hao , Xiao, Song , Liu, Sujie , Cheng, Wanqing , Zhang, Yuting , Cai, Xin et al. Genome-Wide Identification of the ACE Gene Family in Melon (Cucumis melo L.) and Its Response to Autotoxicity and Saline-Alkali Stress . | HORTICULTURAE , 2025 , 11 (11) . |
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Microplastics (MPs) and copper (Cu) pollution coexist widely in cultivation environment. In this paper, polyvinyl chloride (PVC) were used to simulate the MPs exposure environment, and the combined effects of MPs + Cu on the germination of perilla seeds were analyzed. The results showed that low concentrations of Cu promoted seed germination, while medium to high concentrations exhibited inhibition and deteriorated the morphology of germinated seeds. The germination potential, germination index and vitality index of 8 mg center dot L-1 Cu treatment group with were 23.08%, 76.32% and 65.65%, respectively, of the control group. The addition of low concentration PVC increased the above indicators by 1.27, 1.15, and 1.35 times, respectively, while high concentration addition led to a decrease of 65.38%, 82.5%, and 66.44%, respectively. The addition of low concentration PVC reduced the amount of PVC attached to radicle. There was no significant change in germination rate. PVC treatment alone had no significant effect on germination. MPs + Cu inhibited seed germination, which was mainly reflected in the deterioration of seed morphology. Cu significantly enhanced antioxidant enzyme activity, increased reactive oxygen species (ROS) and MDA content. The addition of low concentration PVC enhanced SOD activity, reduced MDA and H2O2 content. The SOD activity of the Cu-8(2+) + PVC10 group was 4.05 and 1.35 times higher than that of the control group and Cu treatment group at their peak, respectively. At this time, the CAT activity of the Cu-8(2+) + PVC5000 group increased by 2.66 and 1.42 times, and the H2O2 content was 2.02 times higher than the control. Most of the above indicators reached their peak at 24 h. The activity of alpha-amylase was inhibited by different treatments, but beta-amylase activity, starch and soluble sugar content did not change regularly. The research results can provide new ideas for evaluating the impact of MPs + Cu combined pollution on perilla and its potential ecological risk.
Keyword :
Germination parameters Germination parameters Heavy metals Heavy metals Microplastics Microplastics Perilla Frutescens (L.) Britt Perilla Frutescens (L.) Britt Reactive oxygen species Reactive oxygen species
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| GB/T 7714 | Sun, Fenghang , Feng, Taojie , Xu, Yuxuan et al. Combined effects of micron-sized polyvinyl chloride particles and copper on seed germination of perilla [J]. | ENVIRONMENTAL GEOCHEMISTRY AND HEALTH , 2024 , 46 (6) . |
| MLA | Sun, Fenghang et al. "Combined effects of micron-sized polyvinyl chloride particles and copper on seed germination of perilla" . | ENVIRONMENTAL GEOCHEMISTRY AND HEALTH 46 . 6 (2024) . |
| APA | Sun, Fenghang , Feng, Taojie , Xu, Yuxuan , Zeng, Xiaolei , Wu, Jinghua , Wang-Pruski, Gefu et al. Combined effects of micron-sized polyvinyl chloride particles and copper on seed germination of perilla . | ENVIRONMENTAL GEOCHEMISTRY AND HEALTH , 2024 , 46 (6) . |
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[目的]研究不同激素配比对水仙鳞茎切块繁殖能力的影响。[方法]以‘玉玲珑’、‘金太阳’和‘秋珍珠’等3个水仙品种的鳞茎为试验材料,分别利用不同浓度的6-BA和KT进行处理,统计不同水仙品种切块繁殖情况。[结果]不同水仙品种切块繁殖能力差异显著,‘玉玲珑’切割后产生小鳞茎的能力强于‘金太阳’。使用外源激素6-BA和KT处理均能有效提升3个水仙品种的鳞茎切块繁殖系数,其中25 mg/L 6-BA+10 mg/L KT处理‘玉玲珑’切块效果较好,小鳞茎的增殖倍数是对照的1.98倍,50 mg/L 6-BA+10 mg/L KT处理‘金太阳’和‘秋珍珠’鳞茎切块的繁殖系数高,分别是对照的2.00倍和2.21倍。[结论]使用外源激素能够提升水仙的繁殖效率,加快水仙品种的推广应用。
Keyword :
切块繁殖 切块繁殖 水仙 水仙 鳞茎 鳞茎
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| GB/T 7714 | 张玉森 , 吴菁华 , 甘代奎 . 激素对水仙鳞茎切块扦插繁殖的影响 [J]. | 园艺与种苗 , 2024 , 44 (08) : 1-3,23 . |
| MLA | 张玉森 et al. "激素对水仙鳞茎切块扦插繁殖的影响" . | 园艺与种苗 44 . 08 (2024) : 1-3,23 . |
| APA | 张玉森 , 吴菁华 , 甘代奎 . 激素对水仙鳞茎切块扦插繁殖的影响 . | 园艺与种苗 , 2024 , 44 (08) , 1-3,23 . |
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以引进的6个欧洲水仙品种为材料,在福建省屏南县进行引种栽培,对其植物学特征、物候期、观赏特性和种球繁殖情况进行观测。结果表明:这6个欧洲水仙品种均能在引种地正常出苗、生长,从种植到出苗需要时间最短的水仙是“皇后日”,种植18 d后即可出苗;“金牛津”出苗需要的时间最长。“雪崩”和“金唱片”初花期相差28 d。各品种的盛花期主要集中在2月下旬至3月中旬,持续2~3周。“金牛津”的种球繁殖系数高,其余品种的繁殖系数较低。
Keyword :
引种栽培 引种栽培 欧洲水仙 欧洲水仙 物候期 物候期 生物学特性 生物学特性 闽东地区 闽东地区
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| GB/T 7714 | 张玉森 , 覃柳彬 , 吴菁华 . 六个欧洲水仙品种在闽东地区的引种栽培试验 [J]. | 南方农业 , 2024 , 18 (07) : 127-130 . |
| MLA | 张玉森 et al. "六个欧洲水仙品种在闽东地区的引种栽培试验" . | 南方农业 18 . 07 (2024) : 127-130 . |
| APA | 张玉森 , 覃柳彬 , 吴菁华 . 六个欧洲水仙品种在闽东地区的引种栽培试验 . | 南方农业 , 2024 , 18 (07) , 127-130 . |
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The red-flowered strawberry is a novel ornamental plant. This study aimed to assess the genetic diversity among ornamental strawberry germplasm resources. In this investigation, 17 red-flowered strawberry germplasms and 1 white-flowered strawberry germplasm were analyzed for genetic diversity and genetic relationships using a combination of phenotypic data, inter-simple sequence repeats (ISSR), and conserved DNA-derived polymorphism (CDDP) molecular markers. The results indicated that the 18 strawberry germplasms exhibited significant variability and genetic diversity at both phenotypic and molecular levels. The clustering results revealed notable differences between phenotypic clustering and molecular marker clustering, while the ISSR and CDDP markers grouped into broadly similar clusters. We further consolidated the ISSR and CDDP marker data to conduct the cluster analysis and population structure analysis of the 18 strawberry germplasms. The cluster analysis classified these germplasms into four clusters at a genetic similarity coefficient of 0.77. The population structure analysis categorized the germplasms into three groups, with 88.89% exhibiting a Q value >= 0.6, and 11.11% demonstrating a Q value < 0.6. This finding suggests that the genetic background of the 18 strawberry germplasms is relatively homogeneous. Notably, 'Summer Breeze-Rose' and 'Summer Breeze-Cherry' possess relatively complex genetic backgrounds (Q < 0.6). Furthermore, the floral, foliar, and plant traits of both germplasms display significant ornamental value and can serve as vital resources for the development and utilization of ornamental strawberries, as well as for the selection and breeding of new varieties.
Keyword :
CDDP CDDP genetic diversity genetic diversity ISSR ISSR phenotypic trait phenotypic trait population structure population structure red-flowered strawberry red-flowered strawberry
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| GB/T 7714 | Nong, Chaocui , Hou, Jiayi , He, Jin et al. Phenotypic and Genetic Diversity Analysis of 18 Ornamental Strawberries [J]. | HORTICULTURAE , 2024 , 10 (12) . |
| MLA | Nong, Chaocui et al. "Phenotypic and Genetic Diversity Analysis of 18 Ornamental Strawberries" . | HORTICULTURAE 10 . 12 (2024) . |
| APA | Nong, Chaocui , Hou, Jiayi , He, Jin , Zheng, Yanju , Yang, Shugen , Jiang, Lai et al. Phenotypic and Genetic Diversity Analysis of 18 Ornamental Strawberries . | HORTICULTURAE , 2024 , 10 (12) . |
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[目的]建立细柱西番莲高效再生体系,为细柱西番莲诱变育种和分子育种提供依据。[方法]以细柱西番莲真叶、叶柄和带芽茎段为外植体,研究植物生长调节剂对愈伤组织诱导、不定芽诱导、丛生芽的增殖和壮苗生根的影响。[结果]细柱西番莲的真叶和叶柄在添加不同浓度6-BA的MS培养基上均能诱导产生愈伤组织,真叶在1.0 mg/L6-BA的MS培养基上先诱导愈伤组织后形成不定芽,不定芽诱导率为51.67%,增殖系数达到5.1;带芽茎段在1.0 mg/L6-BA的MS培养基上能直接产生不定芽,增殖系数达到5.99;MS+1.0 g/L活性碳+1.0 mg/L IBA培养基适合小芽壮苗生根。组培苗移栽于泥炭土中,成活率可达83.33%。[结论]单独添加6-BA能较好地诱导细柱西番莲愈伤组织和不定芽的再生与增殖。
Keyword :
快速繁殖 快速繁殖 组织培养 组织培养 细柱西番莲 细柱西番莲
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| GB/T 7714 | 解贻龙 , 陈巧玲 , 吴菁华 . 细柱西番莲高效再生体系的建立 [J]. | 园艺与种苗 , 2023 , 43 (11) : 18-21,93 . |
| MLA | 解贻龙 et al. "细柱西番莲高效再生体系的建立" . | 园艺与种苗 43 . 11 (2023) : 18-21,93 . |
| APA | 解贻龙 , 陈巧玲 , 吴菁华 . 细柱西番莲高效再生体系的建立 . | 园艺与种苗 , 2023 , 43 (11) , 18-21,93 . |
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【目的】开花基因座T(Flowering Locus T,FT)基因广泛参与植物的生长发育,在调控开花、地下茎发育、种子萌发和逆境胁迫等过程中发挥重要作用。揭示FT基因在中国水仙(Narcissus tazetta var. chinensis Roem)中的表达模式和功能可为中国水仙花期调控提供理论依据。【方法】基于中国水仙转录组数据,对FT基因进行筛选,获得4个中国水仙FT基因。利用荧光定量PCR技术分析它们在中国水仙不同组织和花芽分化不同时期的表达模式,并在拟南芥(Arabidopsis thaliana)中超量表达。利用荧光定量PCR技术分析转NtFT1和NtFT4基因拟南芥中SUPPRESSOR OF OVEREXPRESSION OF CO 1(SOC1)、 LEAFY(LFY)和APETALA 1(AP1)基因表达水平。【结果】克隆了4个中国水仙FT同源基因Nt FT1、NtFT2、NtFT3和NtFT4,除NtFT3外,中国水仙NtFT都具有FT的保守基序;系统进化分析显示,NtFT1属于FT-like I进化枝,NtFT2、NtFT3和NtFT4同属于FT-like II类进化枝。不同的NtFT基因在中国水仙组织器官和花芽分化不同时期的表达模式存在差异:NtFT1和NtFT3在花中表达量最高,NtFT2在叶片中表达量最高,NtFT4在鳞片中的表达量最高;NtFT1在花芽分化过程中均呈先上升后下降的趋势,NtFT2整个主芽分化过程中变化幅度不大,NtFT3和NtFT4在整个花芽分化期表达量都较低。异位转化拟南芥结果显示,与野生型拟南芥相比,过表达NtFT1和NtFT2的拟南芥提早开花,过表达NtFT3拟南芥开花时间与野生型植株无明显差异,转Nt FT4基因的拟南芥植株推迟开花。过表达NtFT1拟南芥中SOC1、LFY和AP1基因表达量上升。【结论】在中国水仙中存在多个FT基因,在调控开花的功能上存在差异,NtFT1促进开花,NtFT4抑制开花。
Keyword :
FT同源基因 FT同源基因 中国水仙 中国水仙 异位表达 异位表达 花期调控 花期调控
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| GB/T 7714 | 李婷婷 , 潘秋宇 , 吴菁华 . 中国水仙FT基因的表达及功能分析 [J]. | 福建农业学报 , 2023 , 38 (12) : 1420-1427 . |
| MLA | 李婷婷 et al. "中国水仙FT基因的表达及功能分析" . | 福建农业学报 38 . 12 (2023) : 1420-1427 . |
| APA | 李婷婷 , 潘秋宇 , 吴菁华 . 中国水仙FT基因的表达及功能分析 . | 福建农业学报 , 2023 , 38 (12) , 1420-1427 . |
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