成果/Result

Selection of suitable reference genes for quantitative real-time PCR gene expression analysis in Salix matsudana under different abiotic stresses被引量：137收藏 分享

作者：Zhang, Yunxing[1,2,3] Han, Xiaojiao[1,2] Chen, Shuangshuang[1,2] Zheng, Liu[1,2] He, Xuelian[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Henan Polytech Univ;Yunnan Agr Univ

来源：SCIENTIFIC REPORTS  2017

Integration of small RNAs, degradome and transcriptome sequencing in hyperaccumulator Sedum alfredii uncovers a complex regulatory network and provides insights into cadmium phytoremediation被引量：86收藏 分享

作者：Han, Xiaojiao[1,2] Yin, Hengfu[2] Song, Xixi[1,2] Zhang, Yunxing[1,2] Liu, Mingying[1,2]

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

来源：PLANT BIOTECHNOLOGY JOURNAL  2016

关键词：Sedum alfredii Hance   cadmium stress   phytoremediation   integration analysis   coexpression network  

Sedum alfredii SaNramp6 Metal Transporter Contributes to Cadmium Accumulation in Transgenic Arabidopsis thaliana被引量：77收藏 分享

作者：Chen, Shuangshuang[1,2] Han, Xiaojiao[1,2] Fang, Jie[1,2,3] Lu, Zhuchou[4] Qiu, Wenmin[1,2]

机构：State Key Lab Forest Genet & Breeding;Chinese Acad Forestry;Lishui Inst Agr Sci;Three Gorges Univ

来源：SCIENTIFIC REPORTS  2017

Overexpressing the Sedum alfredii Cu/Zn Superoxide Dismutase Increased Resistance to Oxidative Stress in Transgenic Arabidopsis被引量：73收藏 分享

作者：Li, Zhen[1,2] Han, Xiaojiao[1,2] Song, Xixi[1,2] Zhang, Yunxing[1,2] Jiang, Jing[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：FRONTIERS IN PLANT SCIENCE  2017

关键词：Cd stress   co-expression network   Cu/Zn SOD   oxidative stress   Sedum alfredii  

MAPK Cascades and Transcriptional Factors: Regulation of Heavy Metal Tolerance in Plants被引量：54收藏 分享

作者：Li, Shaocui[1,2,3] Han, Xiaojiao[1,3] Lu, Zhuchou[1,3] Qiu, Wenmin[1,3] Yu, Miao[1,3]

机构：Chinese Acad Forestry;Nanjing Forestry Univ;Chinese Acad Forestry;Zhejiang Acad Agr Sci;China Three Gorges Univ

来源：INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES  2022

关键词：MAPK   transcriptional factors   heavy metals   pathway  

OsPAP26 Encodes a Major Purple Acid Phosphatase and Regulates Phosphate Remobilization in Rice被引量：51收藏 分享

作者：Gao, Wenwen[1] Lu, Linghong[1] Qiu, Wenmin[1,2] Wang, Chuang[1,3] Shou, Huixia[1]

机构：Zhejiang Univ;Chinese Acad Forestry;Huazhong Agr Univ

来源：PLANT AND CELL PHYSIOLOGY  2017

关键词：Acid phosphatase   Organic phosphorus   OsPAP26   Phosphate remobilization   Rice  

SaHsfA4c From Sedum alfredii Hance Enhances Cadmium Tolerance by Regulating ROS-Scavenger Activities and Heat Shock Proteins Expression被引量：39收藏 分享

作者：Chen, Shuangshuang[1,2,3] Yu, Miao[1,2] Li, He[1,2] Wang, Ying[1,2] Lu, Zhuchou[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Jiangsu Acad Agr Sci;Chinese Acad Sci

来源：FRONTIERS IN PLANT SCIENCE  2020

关键词：Sedum alfredii Hance   heat shock transcription factor   cadmium stress   overexpression   ROS-scavenging enzyme  

PzTAC and PzLAZY from a narrow-crown poplar contribute to regulation of branch angles被引量：33收藏 分享

作者：Xu, Dong[1] Qi, Xiao[1] Li, Jihong[1] Han, Xiaojiao[2] Wang, Jinnan[1]

机构：Shandong Agr Univ;Chinese Acad Forestry;Forestry Sci Acad Shandong

来源：PLANT PHYSIOLOGY AND BIOCHEMISTRY  2017

关键词：PzTAC   PzLAZY   Poplar   Branch angle   Narrow-crown  

Identification, Expression Analysis of the Hsf Family, and Characterization of Class A4 in Sedum Alfredii Hance under Cadmium Stress被引量：33收藏 分享

作者：Chen, Shuang-Shuang[1,2] Jiang, Jing[1,2] Han, Xiao-Jiao[1,2] Zhang, Yun-Xing[1,2] Zhuo, Ren-Ying[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES  2018

关键词：Sedum alfredii Hance   heat shock transcription factor (Hsf)   cadmium stress   class A4  

Integrative analysis of transcriptome and proteome provides insights into adaptation to cadmium stress in Sedum plumbizincicola被引量：33收藏 分享

作者：Zhu, Yue[1,2] Qiu, Wenmin[1,2] He, Xiaoyang[3] Wu, Longhua[4] Bi, De[5]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Agr Technol Extens Ctr Dongtai;Chinese Acad Sci;Suzhou Polytech Inst Agr

来源：ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY  2022

关键词：Sedum plumbizincicola   Cadmium   Transcriptome   Proteome   Integrative analysis, FAOMT  

cDNA Library for Mining Functional Genes in Sedum alfredii Hance Related to Cadmium Tolerance and Characterization of the Roles of a Novel SaCTP2 Gene in Enhancing Cadmium Hyperaccumulation被引量：32收藏 分享

作者：Liu, Mingying[1,2,3] He, Xuelian[1,2] Feng, Tongyu[1,2] Zhuo, Renying[1,2] Qiu, Wenmin[1,2]

机构：State Key Lab Tree Genet & Breeding;Chinese Acad Forestry;Zhejiang Chinese Med Univ;Tsinghua Univ

来源：ENVIRONMENTAL SCIENCE & TECHNOLOGY  2019

关键词：Antioxidants - Bioremediation - Cadmium - Complex networks - Plants (botany)  

Comparative of Quercus spp. and Salix spp. for phytoremediation of Pb/Zn mine tailings被引量：32收藏 分享

作者：Shi, Xiang[1,2] Wang, Shufeng[1] Sun, Haijing[1] Chen, Yitai[1] Wang, Dongxue[1,3]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Inner Mongolia Agr Univ

来源：ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH  2017

关键词：Mine tailing   Phytoremediation   Tolerance   Quercus spp   Salix spp   Root  

Transporters and ascorbate-glutathione metabolism for differential cadmium accumulation and tolerance in two contrasting willow genotypes被引量：28收藏 分享

作者：Han, Xiaojiao[1,2] Zhang, Yunxing[1,2,3] Yu, Miao[1,2] Zhang, Jin[4] Xu, Dong[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Henan Polytech Univ;Oak Ridge Natl Lab

来源：TREE PHYSIOLOGY  2020

关键词：accumulation and detoxification   AsA-GSH metabolism pathway   cadmium stress   comparative morphophysiology and transcriptome   Salix matsudana var. matsudana f. umbraculifera  

An Efficient Genetic Transformation and CRISPR/Cas9-Based Genome Editing System for Moso Bamboo (Phyllostachys edulis)被引量：27收藏 分享

作者：Huang, Biyun[1,2] Zhuo, Renying[1,2] Fan, Huijin[1,2] Wang, Yujun[1,2] Xu, Jing[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：FRONTIERS IN PLANT SCIENCE  2022

关键词：Phyllostachys edulis   plant regeneration   genetic transformation   genome editing   immature embryo culture  

Genome-Wide Identification of the Expansin Gene Family and Its Potential Association with Drought Stress in Moso Bamboo被引量：27收藏 分享

作者：Jin, Kang-Ming[1,2] Zhuo, Ren-Ying[1,2] Xu, Dong[1,2] Wang, Yu-Jun[1,2] Fan, Hui-Jin[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES  2020

关键词：expansins   evolutionary pattern   abiotic stress   plant cell wall   drought  

Overexpression of CaAPX Induces Orchestrated Reactive Oxygen Scavenging and Enhances Cold and Heat Tolerances in Tobacco被引量：26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

Data and Text Mining SPDE: a multi-functional software for sequence processing and data extraction被引量：25收藏 分享

作者：Xu, Dong[1,2] Lu, Zhuchou[1,2] Jin, Kangming[1,2] Qiu, Wenmin[1,2] Qiao, Guirong[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry

来源：BIOINFORMATICS  2021

Overexpression of the Gibberellin 2-Oxidase Gene from Camellia lipoensis Induces Dwarfism and Smaller Flowers in Nicotiana tabacum被引量：24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  

SEMI-ROLLED LEAF 10 stabilizes catalase isozyme B to regulate leaf morphology and thermotolerance in rice (Oryza sativa L.)被引量：24收藏 分享

作者：Wang, Jiajia[1,2,3] Xu, Jing[1,4] Wang, Li[1] Zhou, Mengyu[1] Nian, Jinqiang[1]

机构：China Natl Rice Res Inst;Huazhong Agr Univ;Huazhong Agr Univ;Chinese Acad Forestry;Hainan Yazhou Bay Seed Lab

来源：PLANT BIOTECHNOLOGY JOURNAL  0

关键词：rice (Oryza sativaL.)   microRNA   leaf morphology   catalase isozyme B (CATB)   thermotolerance  

Transcriptome analysis of immature xylem in the Chinese fir at different developmental phases被引量：22收藏 分享

作者：Zhang, Yunxing[1,2,3] Han, Xiaojiao[1,2] Sang, Jian[1,2] He, Xuelian[2] Liu, Mingying[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Henan Polytech Univ;Chinease Acad Forestry

来源：PEERJ  2016

关键词：Transcriptome   Chinese fir   RNA-Seq   Wood formation   Xylem  

Pathogenesis-related protein PR10 from Salix matsudana Koidz exhibits resistance to salt stress in transgenic Arabidopsis thaliana被引量：20收藏 分享

作者：Han, Xiaojiao[1,2] He, Xuelian[1,2] Qiu, Wenmin[1,2] Lu, Zhuchou[3] Zhang, Yunxing[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;China Three Gorges Univ

来源：ENVIRONMENTAL AND EXPERIMENTAL BOTANY  2017

关键词：Pathogenesis-related protein 10   Salix matsudana   Salt stress   Overexpression  

Woody species Rhus chinensis Mill. seedlings tolerance to Pb: Physiological and biochemical response被引量：20收藏 分享

作者：Shi, Xiang[1,2] Wang, Shufeng[1] Wang, Dongxue[1,3] Sun, Haijing[1] Chen, Yitai[1]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Forestry Coll Inner Mongolia Agr Univ

来源：JOURNAL OF ENVIRONMENTAL SCIENCES  2019

关键词：Lead   Tolerance   Subcellular distribution   Chemical form   Low molecular weight organic acids  

Identification and comprehensive analysis of the characteristics and roles of leucine-rich repeat receptor-like protein kinase (LRR-RLK) genes in Sedum alfredii Hance responding to cadmium stress被引量：20收藏 分享

作者：He, Xuelian[1,2] Feng, Tongyu[1,2] Zhang, Dayi[3] Zhuo, Renying[1,2] Liu, Mingying[1,2]

机构：State Key Lab Forest Genet & Breeding;Chinese Acad Forestry;Tsinghua Univ

来源：ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY  2019

关键词：Sedum alfredii Hance   Leucine-rich repeat receptor-like protein kinase (LRR-RLK)   Cadmium stress   Signal transduction  

Identification and expression analysis of the GDSL esterase/lipase family genes, and the characterization of SaGLIP8 in Sedum alfredii Hance under cadmium stress被引量：19收藏 分享

作者：Li, He[1,2,3] Han, Xiaojiao[2,3] Qiu, Wenmin[2,3] Xu, Dong[2,3] Wang, Ying[2,3]

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

来源：PEERJ  2019

关键词：Sedum alfredii Hance   GDSL esterase/lipase proteins (GELPs)   Cadmium stress   SaGLIP8  

Overexpression of quinone reductase from Salix matsudana Koidz enhances salt tolerance in transgenic Arabidopsis thaliana被引量：18收藏 分享

作者：Song, Xixi[1,2] Fang, Jie[1,2] Han, Xiaojiao[1,2] He, Xuelian[1,3] Liu, Mingying[1,2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;China Three Gorges Univ;Chinese Acad Forestry

来源：GENE  2016

关键词：Quinone reductase   Salix matsudana   Salt stress   Overexpression  

Quantitative proteome analysis reveals changes of membrane transport proteins in Sedum plumbizincicola under cadmium stress被引量：18收藏 分享

作者：Zhu, Yue[1,2,3] Qiu, Wenmin[1,3] Li, Yuhong[1,3] Tan, Jinjuan[4] Han, Xiaojiao[1,3]

机构：Chinese Acad Forestry;Nanjing Forestry Univ;Chinese Acad Forestry;Zhejiang Acad Agr Sci;Chinese Acad Sci

来源：CHEMOSPHERE  2022

关键词：Integrative membrane protein   Cadmium tolerance and accumulation   Sedum plumbizincicola   TMT labeling Based quantification proteome   Transporter  

Molecular breeding of water lily: engineering cold stress tolerance into tropical water lily被引量：18收藏 分享

作者：Yu, Cuiwei[1,2,3] Qiao, Guirong[1,3] Qiu, Wenmin[1,3] Yu, Dongbei[2] Zhou, Shirong[2]

机构：Chinese Acad Forestry;Zhejiang Humanities Landscape Co Ltd;Chinese Acad Forestry;Fujian Agr & Forestry Univ

来源：HORTICULTURE RESEARCH  2018

Identification of Chalcone Isomerase Family Genes and Roles of CnCHI4 in Flavonoid Metabolism in Camellia nitidissima被引量：14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  

Phenotypic and Comparative Transcriptome Analysis of Different Ploidy Plants in Dendrocalamus latiflorus Munro被引量：14收藏 分享

作者：Qiao, Guirong[1,2] Liu, Mingying[1,2] Song, Kunlin[3] Li, Haiying[2] Yang, Huiqin[2]

机构：Chinese Acad Forestry;Chinese Acad Forestry;Chinese Acad Forestry

来源：FRONTIERS IN PLANT SCIENCE  2017

关键词：Ma bamboo   digital gene expression   ploidy   coexpression network   growth properties   anatomical characteristics  

Genome-Wide Characterization of Sedum plumbizincicola HMA Gene Family Provides Functional Implications in Cadmium Response被引量：14收藏 分享

作者：Huang, Qingyu[1,2,3] Qiu, Wenmin[2,3] Yu, Miao[2] Li, Shaocui[2] Lu, Zhuchou[2]

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

来源：PLANTS-BASEL  2022

关键词：HMA family genes   Sedum plumbizincicola   evolution   nutrient deficiency   divalent metal toxicity   expression profiles   SpHMA7