成果/Result

The Flavonoid Biosynthesis Network in Plants被引量：233收藏 分享

作者：Liu, Weixin[1,2] Feng, Yi[1,2] Yu, Suhang[1,2] Fan, Zhengqi[1,2] Li, Xinlei[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES  2021

关键词：flavonoids   biosynthesis   molecular structure   biosynthetic enzyme   gene regulation  

The genome of oil-Camellia and population genomics analysis provide insights into seed oil domestication被引量：59收藏 分享

作者：Lin, Ping[1,2] Wang, Kailiang[2] Wang, Yupeng[3] Hu, Zhikang[1,2] Yan, Chao[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Nanjing Forestry Univ

来源：GENOME BIOLOGY  2022

关键词：Oil-Camellia   Genome   Population genomics   Genome-wide association analysis   Oil biosynthesis   Domestication  

Phylogenetic tree-informed microRNAome analysis uncovers conserved and lineage-specific miRNAs in Camellia during floral organ development被引量：27收藏 分享

作者：Yin, Hengfu[1,2] Fan, Zhengqi[1,2] Li, Xinlei[1,2] Wang, Jiangying[1] Liu, Weixin[1]

机构：Chinese Acad Forestry;Key Lab Forest Genet & breeding;Univ Maryland

来源：JOURNAL OF EXPERIMENTAL BOTANY  2016

关键词：Camellia   differential expression   floral development   lineage specific   microRNA identification   miRNA-target regulation  

Identification of Chalcone Isomerase Family Genes and Roles of CnCHI4 in Flavonoid Metabolism in Camellia nitidissima被引量：5收藏 分享

作者：Yu, Suhang[1,2,3] Li, Jiyuan[1,3] Peng, Ting[4] Ni, Sui[2] Feng, Yi[1]

机构：Chinese Acad Forestry;Ningbo Univ;Jinhua Moxian Hort Engn Co Ltd;Guizhou Univ;Changchun GeneSci Pharmaceut Co Ltd

来源：BIOMOLECULES  2023

关键词：Camellia nitidissima   chalcone isomerase   flavonoids   CnCHI4   MYB  

Multi-Approach Analysis Reveals Pathways of Cold Tolerance Divergence in Camellia japonica被引量：4收藏 分享

作者：Fan, MengLong[1] Zhang, Ying[1] Li, XinLei[1] Wu, Si[1] Yang, MeiYing[1]

机构：Chinese Acad Forestry

来源：FRONTIERS IN PLANT SCIENCE  2022

关键词：cold   transcriptome   proteome   plant hormone   co-expression   Camellia japonica  

Comparative Transcriptome and Pigment Analyses Reveal Changes in Gene Expression Associated with Flavonol Metabolism in Yellow Camellia被引量：4收藏 分享

作者：Liu, Weixin[1] Yu, Suhang[1] Feng, Yi[1] Mo, Runhong[1] Wang, Kaineng[2]

机构：Chinese Acad Forestry;Zhejiang Construct Technician Coll

来源：FORESTS  2022

关键词：Camellia nitidssima   hybrids   flower color   transcriptome   flavonol   ethylene  

Comparative Transcriptome Analysis of Flower Senescence of Camellia lutchuensis被引量：3收藏 分享

作者：Liu, Weixin[1,2] Yin, Hengfu[1,2] Feng, Yi[1,2] Yu, Suhang[1,2] Fan, Zhengqi[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：CURRENT GENOMICS  2022

关键词：Camellia lutchuensis   flower senescence   transcriptome   differentially expressed genes   ethylene   reactive oxygen species  

Novel insight into anthocyanin metabolism and molecular characterization of its key regulators in Camellia sasanqua被引量：2收藏 分享

作者：Fan, Menglong[1] Li, XinLei[1] Zhang, Ying[1] Yang, Meiying[1] Wu, Si[1]

机构：Chinese Acad Forestry

来源：PLANT MOLECULAR BIOLOGY  0

关键词：Camellia sasanqua   Flower color   Delphinidin   Coexpression   Transcriptome  

Genomics insights into flowering and floral pattern formation: regional duplication and seasonal pattern of gene expression in Camellia被引量：1收藏 分享

作者：Hu, Zhikang[1,2,3] Fan, Zhengqi[1,3] Li, Sijia[1,2,3] Wang, Minyan[1,3] Huang, Mingchuan[1,4]

机构：Chinese Acad Forestry;Nanjing Forestry Univ;Chinese Acad Forestry;Qingdao Agr Univ

来源：BMC BIOLOGY  2024

关键词：Camellia japonica   Genome   Ornamental traits   Annual gene expression   Genome duplication  

Transcriptome Analysis Reveals the Molecular Mechanisms Associated with Flower Color Formation in Camellia japonica 'Joy Kendrick'被引量：1收藏 分享

作者：Yu, Suhang[1,2] Liu, Weixin[2] Ni, Sui[1] Li, Jiyuan[2]

机构：Ningbo Univ;Chinese Acad Forestry

来源：FORESTS  2023

关键词：Camellia japonica   anthocyanin   flower color   transcriptome   phytohormone  

Floral organ transcriptome in Camellia sasanqua provided insight into stamen petaloid被引量：1收藏 分享

作者：Fan, Menglong[1,2] Li, Xinlei[1] Zhang, Ying[1] Wu, Si[1] Song, Zhixin[1]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：BMC PLANT BIOLOGY  2022

关键词：Camellia sasanqua   Double flower   Transcriptome   Petaloid stamen   ABCE model   Phytohormone  

Genomics insights into flowering and floral pattern formation: regional duplication and seasonal pattern of gene expression in Camellia (vol 22, 50, 2024)被引量：0收藏 分享

作者：Hu, Zhikang[1,2,3] Fan, Zhengqi[1,3] Li, Sijia[1,2,3] Wang, Minyan[1,3] Huang, Mingchuan[1,4]

机构：Chinese Acad Forestry;Nanjing Forestry Univ;Chinese Acad Forestry;Qingdao Agr Univ

来源：BMC BIOLOGY  2024

Function of FT in Flowering Induction in Two Camellia Species被引量：0收藏 分享

作者：Wang, Xiong[1,2] Li, Jiyuan[1] Yin, Hengfu[1] Li, Xinlei[1] Liu, Weixin[1]

机构：Chinese Acad Forestry;Nanjing Forestry Univ

来源：PLANTS-BASEL  2024

关键词：Camellia azalea   Camellia japonica   FT   flowering regulation  

Comparative Transcriptome Analysis Reveals Changes in Gene Expression Associated with Anthocyanin Metabolism in begonia semperflorens under Light Conditions被引量：0收藏 分享

作者：Zhao, Kunkun[1] Liu, Airong[2] Zhang, Yuanbing[1] Liu, Weixin[3] Zhao, Zhimin[2]

机构：Anhui Sci & Technol Univ;Anhui Sci & Technol Univ;Chinese Acad Forestry

来源：HORTICULTURAE  2024

关键词：ornamental plants   transcriptomics   abiotic stress   high light exposure   leaf color  

Transcriptome and Pigment Analyses Provide Insights into Carotenoids and Flavonoids Biosynthesis in Camellia nitidissima Stamens被引量：0收藏 分享

作者：Feng, Yi[1,2] Zhao, Kunkun[3] Li, Jiyuan[1] Wang, Minyan[1] Yin, Hengfu[1]

机构：Chinese Acad Forestry;Nanjing Forestry Univ;Anhui Sci & Technol Univ

来源：HORTICULTURAE  2024

关键词：Camellia nitidissima   stamen color   transcriptome   flavonoid   carotenoid