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  • 收录类型=SCI-EXPANDED x
  • 人物=李湘阳 x

6 条 记 录,以下是 1-6

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Comparative physiological, biochemical, metabolomic, and transcriptomic analyses reveal the formation mechanism of heartwood for Acacia melanoxylon被引量:1收藏 分享
作者:Zhang, Ruping[1] Zhang, Zhiwei[1] Yan, Caizhen[2] Chen, Zhaoli[1] Li, Xiangyang[1]
机构:Chinese Acad Forestry;Sihui Fengfu Forestry Dev Co ltd
来源:BMC PLANT BIOLOGY  2024
关键词:Heartwood formation   Metabolomic   Transcriptomic   Flavonoids   Phenolics   Terpenoids   Acacia melanoxylon  
Growth and Transcriptomics Analysis of Michelia macclurei Dandy Plantlets with Different LED Quality Treatments被引量:0收藏 分享
作者:Chen, Zhaoli[1] Liu, Ying[1] Zeng, Bingshan[1] Jiang, Qingbin[1] Wang, Shengkun[1]
机构:Chinese Acad Forestry
来源:PHYTON-INTERNATIONAL JOURNAL OF EXPERIMENTAL BOTANY  2023
关键词:Michelia macclurei   plantlets   growth characteristics   transcriptome  
Selection of Reference Genes for Gene Expression Analysis in Acacia melanoxylon under Different Conditions被引量:0收藏 分享
作者:Chen, Zhaoli[1] Bai, Xiaogang[2] Li, Xiangyang[1] Zeng, Bingshan[1] Hu, Bing[1]
机构:Chinese Acad Forestry;Zhongkai Univ Agr & Engn
来源:FORESTS  2023
关键词:Acacia melanoxylon   RT-qPCR   expression stability   normalization  
Morphological, Anatomical, and Physiological Characteristics of Heteroblastic Acacia melanoxylon Grown under Weak Light被引量:0收藏 分享
作者:Bai, Xiaogang[1,2] Chen, Zhaoli[1] Chen, Mengjiao[1] Zeng, Bingshan[1] Li, Xiangyang[1]
机构:Chinese Acad Forestry;Zhongkai Univ Agr & Engn
来源:PLANTS-BASEL  2024
关键词:heteroblasty   phenotypic plasticity   phyllodes   stress   photosynthesis   Acacia melanoxylon  
Physiological, Biochemical, and Molecular Analyses Reveal Dark Heartwood Formation Mechanism in Acacia melanoxylon被引量:0收藏 分享
作者:Zhang, Ruping[1] Bai, Xiaogang[1] Chen, Zhaoli[1] Chen, Mengjiao[1] Li, Xiangyang[1]
机构:Chinese Acad Forestry
来源:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES  2024
关键词:Acacia melanoxylon   clones   flavonoids   heartwood formation   metabolomic   transcriptomic   phenolics  
Physiological and molecular mechanisms of Acacia melanoxylon stem in response to boron deficiency被引量:0收藏 分享
作者:Chen, Zhaoli[1] Bai, Xiaogang[2] Zeng, Bingshan[1] Fan, Chunjie[1] Li, Xiangyang[1]
机构:Chinese Acad Forestry;Zhongkai Univ Agr & Engn
来源:FRONTIERS IN PLANT SCIENCE  2023
关键词:boron deficiency   transcriptome   cell wall   hormone   Acacia melanoxylon  
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