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  

Genome-wide transcriptome profiling provides insights into floral bud development of summer-flowering Camellia azalea被引量：48收藏 分享

作者：Fan, Zhengqi[1,2] Li, Jiyuan[1,2] Li, Xinlei[1,2] Wu, Bin[1] Wang, Jiangying[1]

机构：Chinese Acad Forestry;Key Lab Forestgenet & Breeding;Univ Maryland

来源：SCIENTIFIC REPORTS  2015

Functional analyses of a flavonol synthase-like gene from Camellia nitidissima reveal its roles in flavonoid metabolism during floral pigmentation被引量：41收藏 分享

作者：Zhou, Xing-Wen[1,2] Fan, Zheng-Qi[1] Chen, Yue[1] Zhu, Yu-Lin[2] Li, Ji-Yuan[1]

机构：Chinese Acad Forestry;Yulin Normal Univ

来源：JOURNAL OF BIOSCIENCES  2013

关键词：Anthocyanin   Camellia   flavonoid   flavonol synthase   flavonol   pigmentation  

De novo Assembly of the Camellia nitidissima Transcriptome Reveals Key Genes of Flower Pigment Biosynthesis被引量：38收藏 分享

作者：Zhou, Xingwen[1,2] Li, Jiyuan[3] Zhu, Yulin[1,2] Ni, Sui[4] Chen, Jinling[2]

机构：Guangxi Univ;Yulin Normal Univ;Chinese Acad Forestry;Ningbo Univ

来源：FRONTIERS IN PLANT SCIENCE  2017

关键词：RNA-sequencing   transcriptome   metabolic pathway   carotenoids   flavonoids   flower color   Camellia nitidissima  

Distinct double flower varieties in Camellia japonica exhibit both expansion and contraction of C-class gene expression被引量：36收藏 分享

作者：Sun, Yingkun[1,3] Fan, Zhengqi[1] Li, Xinlei[1] Liu, Zhongchi[4] Li, Jiyuan[1,2]

机构：Chinese Acad Forestry;Zhejiang Prov Key Lab Forest Genet & Breeding;Qingdao Agr Univ;Univ Maryland

来源：BMC PLANT BIOLOGY  2014

关键词：Double flower   AGAMOUS   Camellia   Domestication  

The APETALA1 and FRUITFUL homologs in Camellia japonica and their roles in double flower domestication被引量：29收藏 分享

作者：Sun, Yingkun[1,2] Fan, Zhengqi[1] Li, Xinlei[1] Li, Jiyuan[1] Yin, Hengfu[1]

机构：Chinese Acad Forestry;Qingdao Agr Univ

来源：MOLECULAR BREEDING  2014

关键词：AP1/FUL gene family   Petal development   ABC model   Camellia   Double flower formation  

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  

Overexpression of CaAPX Induces Orchestrated Reactive Oxygen Scavenging and Enhances Cold and Heat Tolerances in Tobacco被引量：24收藏 分享

作者：Wang, Jiangying[1,2] Wu, Bin[1] Yin, Hengfu[1] Fan, Zhengqi[1] Li, Xinlei[1]

机构：Chinese Acad Forestry;Lianyungang Acad Agr Sci;Ningbo Univ;Hunan Agr Univ

来源：BIOMED RESEARCH INTERNATIONAL  2017

Overexpression of the Gibberellin 2-Oxidase Gene from Camellia lipoensis Induces Dwarfism and Smaller Flowers in Nicotiana tabacum被引量：22收藏 分享

作者：Xiao, Zheng[1,2] Fu, Ruipeng[3] Li, Jiyuan[1] Fan, Zhengqi[1] Yin, Hengfu[1]

机构：Chinese Acad Forestry;Jiangsu Acad Agr Sci;Northwest A&F Univ

来源：PLANT MOLECULAR BIOLOGY REPORTER  2016

关键词：Camellia lipoensis   Dwarf   Gibberellin 2-oxidase   Morphological alteration  

Comparative genomics analysis reveals gene family expansion and changes of expression patterns associated with natural adaptations of flowering time and secondary metabolism in yellow Camellia被引量：13收藏 分享

作者：Li, Xinlei[1,2] Fan, Zhengqi[1,2] Guo, Haobo[3,4] Ye, Ning[5] Lyu, Tao[1,6]

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

来源：FUNCTIONAL & INTEGRATIVE GENOMICS  2018

关键词：Comparative genomics   Gene expression   Gene family   Camellia   Trait adaptation   Floral pigmentation  

Global gene expression defines faded whorl specification of double flower domestication in Camellia被引量：13收藏 分享

作者：Li, Xinlei[1,2] Li, Jiyuan[1,2] Fan, Zhengqi[1,2] Liu, Zhongchi[3,4] Tanaka, Takayuki[5]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Univ Maryland;Univ Maryland;Tokai Univ

来源：SCIENTIFIC REPORTS  2017

Overexpression of phosphoenolpyruvate carboxylase from Jatropha curcas increases fatty acid accumulation in Nicotiana tabacum被引量：12收藏 分享

作者：Fan, Zhengqi[1] Li, Jiyuan[1] Lu, Mengzhu[2] Li, Xinlei[2] Yin, Hengfu[1]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：ACTA PHYSIOLOGIAE PLANTARUM  2013

关键词：Carbon partitioning   JcPEPC1   Biofuel tree   Fatty acid biosynthesis   Jatropha curcas  

Composition analysis of floral scent within genus Camellia uncovers substantial interspecific variations被引量：11收藏 分享

作者：Fan, Zhengqi[1,2] Li, Jiyuan[1,2] Li, Xinlei[1,2] Yin, Hengfu[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：SCIENTIA HORTICULTURAE  2019

关键词：Floral scent   Volatiles   Camellia   Theopsis   HS-SPME-GC-MS  

Identification of alternatively spliced gene isoforms and novel noncoding RNAs by single-molecule long-read sequencing in Camellia被引量：11收藏 分享

作者：Hu, Zhikang[1,2,3] Lyu, Tao[1,3] Yan, Chao[1,4] Wang, Yupeng[1,2] Ye, Ning[2]

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

来源：RNA BIOLOGY  2020

关键词：Alternative splicing   single-molecule sequencing   phased small interfering RNA   polyadenylation   Camellia   lipoxygenase  

Flavonoid 3 '-hydroxylase of Camellia nitidissima Chi. promotes the synthesis of polyphenols better than flavonoids被引量：10收藏 分享

作者：Jiang, Lina[1,2,3] Fan, Zhengqi[1,3] Tong, Ran[1] Yin, Hengfu[1,2,3] Li, Jiyuan[1,3]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Chinese Acad Forestry;Fujian Univ Technol

来源：MOLECULAR BIOLOGY REPORTS  2021

关键词：Camellia nitidissima   F3 ' H   Expression patterns   Functional verification   Polyphenol synthesis  

Physiological Responses of Handeliodendron bodinieri (Levl.) Rehd. to Exogenous Calcium Supply under Drought Stress被引量：10收藏 分享

作者：Leng, Xiuhui[1,2] Xue, Liang[1,3] Wang, Jia[1,3] Li, Sheng[1,3] Yang, Zhiling[1]

机构：Chinese Acad Forestry;Nanjing Forestry Univ;Observat & Res Stn Rock Desert Ecosyst

来源：FORESTS  2020

关键词：exogenous calcium   drought stress   physiological response   calcicole   Handeliodendron bodinieri (Levl.) Rehd  

Functional Diversification of the Dihydroflavonol 4-Reductase from Camellia nitidissima Chi. in the Control of Polyphenol Biosynthesis被引量：9收藏 分享

作者：Jiang, Lina[1,2] Fan, Zhengqi[1,2] Tong, Ran[1] Zhou, Xingwen[3] Li, Jiyuan[1]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Yulin Normal Univ

来源：GENES  2020

关键词：floral pigmentation   dihydroflavonol 4-reduetase   Camellia nitidissima Chi   polyphenols   anthocyanins  

Genetic diversity in the endangered Camellia nitidissima assessed using transcriptome-based SSR markers被引量：9收藏 分享

作者：Li, Xin-lei[1,2] Wang, Jie[1,2] Fan, Zheng-qi[1,2] Li, Ji-yuan[1,2] Yin, Heng-fu[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：TREES-STRUCTURE AND FUNCTION  2020

关键词：Camellia nitidissima   Genetic diversity   Genetic structure   SSR   Germplasm conservation  

Unraveling the Roles of Regulatory Genes during Domestication of Cultivated Camellia: Evidence and Insights from Comparative and Evolutionary Genomics被引量：8收藏 分享

作者：Yan, Chao[1,2,3] Lin, Ping[1,2] Lyu, Tao[1,2,4] Hu, Zhikang[1,2] Fan, Zhengqi[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Chinese Acad Forestry;Ningbo Univ

来源：GENES  2018

关键词：domestication   genomics   Camellia   transcription factors   quantitative trait locus   genome-wide association study   fruit development  

Transcriptomic and Chemical Analyses Reveal the Hub Regulators of Flower Color Variation from Camellia japonica Bud Sport被引量：7收藏 分享

作者：Fan, Menglong[1] Zhang, Ying[1] Yang, Meiying[1] Wu, Si[1] Yin, Hengfu[1]

机构：Chinese Acad Forestry

来源：HORTICULTURAE  2022

关键词：Camellia japonica   anthocyanin   flower color   transcriptome   bud sport  

Integrated Physiological and Transcriptomic Analyses Reveal a Regulatory Network of Anthocyanin Metabolism Contributing to the Ornamental Value in a Novel Hybrid Cultivar of Camellia japonica被引量：7收藏 分享

作者：Pan, Liqin[1,2] Li, Jiyuan[1] Yin, Hengfu[1] Fan, Zhengqi[1] Li, Xinlei[1]

机构：Chinese Acad Forestry;Taizhou Vocat Coll Sci & Technol

来源：PLANTS-BASEL  2020

关键词：Camellia japonica   leaf color   anthocyanin   metabolism   transcriptome  

CcBLH6, a bell-like homeodomain-containing transcription factor, regulates the fruit lignification pattern被引量：7收藏 分享

作者：Yan, Chao[1,2,3] Hu, Zhikang[1,2] Nie, Ziyan[1,2,4] Li, Jiyuan[2] Yao, Xiaohua[2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Chinese Acad Forestry;Anhui Agr Univ

来源：PLANTA  2021

关键词：BELL-like homeodomain gene   Camellia chekiangoleosa   Fruit development   Lignification   TALE transcription factor  

Characterization and phylogenetic significance of the complete chloroplast genome of Camellia Kissii, an economic crop for producing oil被引量：5收藏 分享

作者：Cao, Lei[1,2,3] Li, Jiyuan[2,3] Fan, Zhengqi[2,3] Yin, Hengfu[2,3] Li, Xinlei[2,3]

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

来源：MITOCHONDRIAL DNA PART B-RESOURCES  2020

关键词：Camellia kissii   chloroplast genome   oil production   phylogenetic significance  

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  

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  

The potential role of B-function gene involved in floral development for double flowers formation in Camellia changii Ye被引量：4收藏 分享

作者：Zhu, Gaopu[1,2] Li, Jiyuan[1] Ni, Sui[1,3] Fan, Zhengqi[1] Yin, Hengfu[1]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Ningbo Univ

来源：AFRICAN JOURNAL OF BIOTECHNOLOGY  2011

关键词：Petaloid phenotype   double flowers   B-function gene   Camellia changii Ye   real-time polymerase chain reaction (PCR)  

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  

Characterization of the complete chloroplast genome ofCamellia yuhsienensisHu, a resilient shrub with strong floral fragrance被引量：4收藏 分享

作者：Nie, Ziyan[1,2] Huang, Xingzhao[1] Hu, Zhikang[2] Li, Xinlei[2] Yin, Hengfu[2]

机构：Anhui Agr Univ;Chinese Acad Forestry

来源：MITOCHONDRIAL DNA PART B-RESOURCES  2020

关键词：Camellia yuhsienensisHu   chloroplast genome   phylogenetic analysis  

ASSESSMENT OF GENETIC DIVERSITY AND POPULATION STRUCTURE OF ENDANGERED CAMELLIA CHEKIANGOLEOSA HU USING ISSR MARKERS被引量：3收藏 分享

作者：Xie, Yun[1,2,3] Li, Jiyuan[2] Zhang, Donglin[3]

机构：Zhejiang A&F Univ;Chinese Acad Forestry;Univ Georgia

来源：PAKISTAN JOURNAL OF BOTANY  2018

关键词：Camellia chekiangoleosa Hu   Population   Genetic diversity   Genetic differentiation   ISSR