From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnology

From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnology

Abstract Biological applications of nanomaterials as delivery carriers have been embedded in traditional biomedical research for decades. Despite lagging behind, recent significant breakthroughs in the use of nanocarriers as tools for plant biotechnology have created great interest. In this Perspect...

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Main Authors: Xue Xia, Bingyang Shi, Lei Wang, Yang Liu, Yan Zou, Yun Zhou, Yu Chen, Meng Zheng, Yingfang Zhu, Jingjing Duan, Siyi Guo, Ho Won Jang, Yuchen Miao, Kelong Fan, Feng Bai, Wei Tao, Yong Zhao, Qingyu Yan, Gang Cheng, Huiyu Liu, Yan Jiao, Shanhu Liu, Yuanyu Huang, Daishun Ling, Wenyi Kang, Xue Xue, Daxiang Cui, Yongwei Huang, Zongqiang Cui, Xun Sun, Zhiyong Qian, Zhen Gu, Gang Han, Zhimou Yang, David Tai Leong, Aiguo Wu, Gang Liu, Xiaogang Qu, Youqing Shen, Qiangbin Wang, Gregory V. Lowry, Ertao Wang, Xing‐Jie Liang, Jorge Gardea‐Torresdey, Guoping Chen, Wolfgang J. Parak, Paul S. Weiss, Lixin Zhang, Martina M. Stenzel, Chunhai Fan, Ashley I. Bush, Gaiping Zhang, Christopher P. L. Grof, Xuelu Wang, David W. Galbraith, Ben Zhong Tang, Christina E. Offler, John W. Patrick, Chun‐Peng Song
Format: Article
Language:English
Published: Wiley 2021-08-01
Series:Exploration
Subjects:
nanocarrier
plant nano‐biotechnology
Online Access:https://doi.org/10.1002/EXP.20210002
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author Xue Xia
Bingyang Shi
Lei Wang
Yang Liu
Yan Zou
Yun Zhou
Yu Chen
Meng Zheng
Yingfang Zhu
Jingjing Duan
Siyi Guo
Ho Won Jang
Yuchen Miao
Kelong Fan
Feng Bai
Wei Tao
Yong Zhao
Qingyu Yan
Gang Cheng
Huiyu Liu
Yan Jiao
Shanhu Liu
Yuanyu Huang
Daishun Ling
Wenyi Kang
Xue Xue
Daxiang Cui
Yongwei Huang
Zongqiang Cui
Xun Sun
Zhiyong Qian
Zhen Gu
Gang Han
Zhimou Yang
David Tai Leong
Aiguo Wu
Gang Liu
Xiaogang Qu
Youqing Shen
Qiangbin Wang
Gregory V. Lowry
Ertao Wang
Xing‐Jie Liang
Jorge Gardea‐Torresdey
Guoping Chen
Wolfgang J. Parak
Paul S. Weiss
Lixin Zhang
Martina M. Stenzel
Chunhai Fan
Ashley I. Bush
Gaiping Zhang
Christopher P. L. Grof
Xuelu Wang
David W. Galbraith
Ben Zhong Tang
Christina E. Offler
John W. Patrick
Chun‐Peng Song
author_facet Xue Xia
Bingyang Shi
Lei Wang
Yang Liu
Yan Zou
Yun Zhou
Yu Chen
Meng Zheng
Yingfang Zhu
Jingjing Duan
Siyi Guo
Ho Won Jang
Yuchen Miao
Kelong Fan
Feng Bai
Wei Tao
Yong Zhao
Qingyu Yan
Gang Cheng
Huiyu Liu
Yan Jiao
Shanhu Liu
Yuanyu Huang
Daishun Ling
Wenyi Kang
Xue Xue
Daxiang Cui
Yongwei Huang
Zongqiang Cui
Xun Sun
Zhiyong Qian
Zhen Gu
Gang Han
Zhimou Yang
David Tai Leong
Aiguo Wu
Gang Liu
Xiaogang Qu
Youqing Shen
Qiangbin Wang
Gregory V. Lowry
Ertao Wang
Xing‐Jie Liang
Jorge Gardea‐Torresdey
Guoping Chen
Wolfgang J. Parak
Paul S. Weiss
Lixin Zhang
Martina M. Stenzel
Chunhai Fan
Ashley I. Bush
Gaiping Zhang
Christopher P. L. Grof
Xuelu Wang
David W. Galbraith
Ben Zhong Tang
Christina E. Offler
John W. Patrick
Chun‐Peng Song
author_sort Xue Xia
collection DOAJ
description Abstract Biological applications of nanomaterials as delivery carriers have been embedded in traditional biomedical research for decades. Despite lagging behind, recent significant breakthroughs in the use of nanocarriers as tools for plant biotechnology have created great interest. In this Perspective, we review the outstanding recent works in nanocarrier‐mediated plant transformation and its agricultural applications. We analyze the chemical and physical properties of nanocarriers determining their uptake efficiency and transport throughout the plant body.
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spelling doaj.art-d10028468baf4ab8868e5872de3bbdfc2022-12-22T00:20:08ZengWileyExploration2766-85092766-20982021-08-011192010.1002/EXP.20210002From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnologyXue Xia0Bingyang Shi1Lei Wang2Yang Liu3Yan Zou4Yun Zhou5Yu Chen6Meng Zheng7Yingfang Zhu8Jingjing Duan9Siyi Guo10Ho Won Jang11Yuchen Miao12Kelong Fan13Feng Bai14Wei Tao15Yong Zhao16Qingyu Yan17Gang Cheng18Huiyu Liu19Yan Jiao20Shanhu Liu21Yuanyu Huang22Daishun Ling23Wenyi Kang24Xue Xue25Daxiang Cui26Yongwei Huang27Zongqiang Cui28Xun Sun29Zhiyong Qian30Zhen Gu31Gang Han32Zhimou Yang33David Tai Leong34Aiguo Wu35Gang Liu36Xiaogang Qu37Youqing Shen38Qiangbin Wang39Gregory V. Lowry40Ertao Wang41Xing‐Jie Liang42Jorge Gardea‐Torresdey43Guoping Chen44Wolfgang J. Parak45Paul S. Weiss46Lixin Zhang47Martina M. Stenzel48Chunhai Fan49Ashley I. Bush50Gaiping Zhang51Christopher P. L. Grof52Xuelu Wang53David W. Galbraith54Ben Zhong Tang55Christina E. Offler56John W. Patrick57Chun‐Peng Song58Henan‐Macquarie University Joint Centre for Biomedical Innovation, School of Life Sciences Henan University Kaifeng Henan ChinaHenan‐Macquarie University Joint Centre for Biomedical Innovation, School of Life Sciences Henan University Kaifeng Henan ChinaState Key Laboratory of Crop Stress Adaptation and Improvement Henan University Kaifeng Henan ChinaHenan‐Macquarie University Joint Centre for Biomedical Innovation, School of Life Sciences Henan University Kaifeng Henan ChinaHenan‐Macquarie University Joint Centre for Biomedical Innovation, School of Life Sciences Henan University Kaifeng Henan ChinaState Key Laboratory of Crop Stress Adaptation and Improvement Henan University Kaifeng Henan ChinaMaterdicine Lab, School of Life Sciences Shanghai University Shanghai ChinaHenan‐Macquarie University Joint Centre for Biomedical Innovation, School of Life Sciences Henan University Kaifeng Henan ChinaState Key Laboratory of Crop Stress Adaptation and Improvement Henan University Kaifeng Henan ChinaSchool of Energy and Power Engineering Nanjing University of Science and Technology Nanjing ChinaState Key Laboratory of Crop Stress Adaptation and Improvement Henan University Kaifeng Henan ChinaDepartment of Material Science and Engineering, Research Institute of Advanced Materials Seoul National University Seoul Republic of KoreaState Key Laboratory of Crop Stress Adaptation and Improvement Henan University Kaifeng Henan ChinaEngineering Laboratory for Nanozyme, Institute of Biophysics Chinese Academy of Sciences Beijing ChinaKey Laboratory for Special Functional Materials of Ministry of Education, National & Local Joint Engineering Research Center for High‐efficiency Display and Lighting Technology, School of Materials Science and Engineering, Collaborative Innovation Center of Nano Functional Materials and Applications Henan University Kaifeng Henan ChinaCenter for Nanomedicine and Department of Anesthesiology, Brigham and Women's Hospital Harvard Medical School Boston Massachusetts USAKey Laboratory for Special Functional Materials of Ministry of Education, National & Local Joint Engineering Research Center for High‐efficiency Display and Lighting Technology, School of Materials Science and Engineering, Collaborative Innovation Center of Nano Functional Materials and Applications Henan University Kaifeng Henan ChinaSchool of Materials Science and Engineering Nanyang Technological University Singapore SingaporeKey Laboratory for Special Functional Materials of Ministry of Education, National & Local Joint Engineering Research Center for High‐efficiency Display and Lighting Technology, School of Materials Science and Engineering, Collaborative Innovation Center of Nano Functional Materials and Applications Henan University Kaifeng Henan ChinaBeijing Advanced Innovation Centre for Soft Matter Science and Engineering, State Key Laboratory of Organic‐Inorganic Composites, Bionanomaterials & Translational Engineering Laboratory, Beijing Laboratory of Biomedical Materials Beijing University of Chemical Technology Beijing ChinaCentre for Materials in Energy and Catalysis (CMEC), School of Chemical Engineering and Advanced Materials The University of Adelaide Adelaide South Australia AustraliaCollege of Chemistry and Chemical Engineering Henan University Kaifeng Henan ChinaAdvanced Research Institute of Multidisciplinary Science, School of Life Science, Institute of Engineering Medicine, Key Laboratory of Molecular Medicine and Biotherapy Beijing Institute of Technology Beijing ChinaInstitute of Pharmaceutics, Zhejiang Province Key Laboratory of Anti‐Cancer Drug Research, Hangzhou Institute of Innovative Medicine Zhejiang University Hangzhou ChinaHenan Key Laboratory of Brain Targeted Bio‐nanomedicine, School of Life Sciences & School of Pharmacy Henan University Kaifeng Henan ChinaState Key Laboratory of Medicinal Chemical Biology, College of Pharmacy Nankai University Tianjin ChinaInstitute of Nano Biomedicine and Engineering, Key Laboratory for Thin Film and Microfabrication Technology of the Ministry of Education, Shanghai Engineering Research Center for Intelligent Diagnosis and Treatment Instrument, Department of Instrument Science & Engineering, School of Electronic Information and Electrical Engineering Shanghai Jiao Tong University Shanghai ChinaLaboratory for NanoMedical Photonics, School of Basic Medical Science Henan University Kaifeng Henan ChinaState Key Laboratory of Virology, Wuhan Institute of Virology, Center for Biosafety Mega‐Science Chinese Academy of Sciences Wuhan ChinaCollege of Materials Science and Engineering Sichuan University Chengdu ChinaState Key Laboratory of Biotherapy and Cancer Center, National Clinical Research Center for Geriatrics, West China Hospital Sichuan University Chengdu ChinaCollege of Pharmaceutical Sciences Zhejiang University Hangzhou ChinaDepartment of Biochemistry and Molecular Pharmacology University of Massachusetts Medical School Worcester Massachusetts USAState Key Laboratory of Medicinal Chemical Biology, Key Laboratory of Bioactive Materials, Ministry of Education, College of Life Sciences Nankai University Tianjin ChinaDepartment of Chemical and Biomolecular Engineering National University of Singapore Singapore SingaporeCixi Institute of Biomedical Engineering, International Cooperation Base of Biomedical Materials Technology and Application, CAS Key Laboratory of Magnetic Materials and Devices, Zhejiang Engineering Research Center for Biomedical Materials, Ningbo Institute of Materials Technology and Engineering Chinese Academy of Sciences Ningbo ChinaState Key Laboratory of Molecular Vaccinology and Molecular Diagnostics & Center for Molecular Imaging and Translational Medicine, School of Public Health Xiamen University Xiamen ChinaLaboratory of Chemical Biology and State Key Laboratory of Rare Earth Resource Utilization, Changchun Institute of Applied Chemistry Chinese Academy of Sciences Changchun Jilin ChinaKey Laboratory of Biomass Chemical Engineering of Ministry of Education, Center for Bionanoengineering, and Department of Chemical and Biological Engineering Zhejiang University Hangzhou ChinaCAS Key Laboratory of Nano‐Bio Interface, Division of Nanobiomedicine and i‐Lab, Suzhou Institute of Nano‐Tech and Nano‐Bionics Chinese Academy of Sciences Suzhou ChinaDepartment of Civil and Environmental Engineering and Center for Environmental Implications of Nano Technology (CEINT) Carnegie Mellon University Pittsburgh Pennsylvania USANational Key Laboratory of Plant Molecular Genetics, Chinese Academy of Sciences Center for Excellence in Molecular Plant Sciences, Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences Chinese Academy of Sciences Shanghai ChinaLaboratory of Controllable Nanopharmaceuticals, Center for Excellence in Nanoscience and CAS Key Laboratory for Biomedical Effects of Nanomaterials and Nanosafety, National Center for Nanoscience and Technology Chinese Academy of Sciences Beijing ChinaDepartment of Chemistry and Biochemistry The University of Texas at El Paso El Paso Texas USAResearch Center for Functional Materials National Institute for Materials Science Tsukuba Ibaraki JapanInstitute of Nano Biomedicine and Engineering, Key Laboratory for Thin Film and Microfabrication Technology of the Ministry of Education, Shanghai Engineering Research Center for Intelligent Diagnosis and Treatment Instrument, Department of Instrument Science & Engineering, School of Electronic Information and Electrical Engineering Shanghai Jiao Tong University Shanghai ChinaCalifornia NanoSystems Institute, Department of Chemistry and Biochemistry, Department of Bioengineering, and Department of Materials Science and Engineering University of California Los Angeles California USAState Key Laboratory of Crop Stress Adaptation and Improvement Henan University Kaifeng Henan ChinaSchool of Chemistry University of New South Wales Sydney New South Wales AustraliaFrontiers Science Center for Transformative Molecules, School of Chemistry and Chemical Engineering Shanghai Jiao Tong University Shanghai ChinaThe Florey Department of Neuroscience and Mental Health The University of Melbourne Melbourne Victoria AustraliaKey Laboratory of Animal Immunology of the Ministry of Agriculture, Henan Provincial Key Laboratory of Animal Immunology Henan Academy of Agricultural Sciences Zhengzhou ChinaSchool of Environmental and Life Sciences, College of Engineering, Science and Environment University of Newcastle Callaghan New South Wales AustraliaState Key Laboratory of Crop Stress Adaptation and Improvement Henan University Kaifeng Henan ChinaSchool of Plant Sciences and Bio5 Institute University of Arizona Tucson Arizona USAShenzhen Institute of Aggregate Science and Technology, School of Science and Engineering The Chinese University of Hong Kong Shenzhen ChinaSchool of Environmental and Life Sciences, College of Engineering, Science and Environment University of Newcastle Callaghan New South Wales AustraliaSchool of Environmental and Life Sciences, College of Engineering, Science and Environment University of Newcastle Callaghan New South Wales AustraliaState Key Laboratory of Crop Stress Adaptation and Improvement Henan University Kaifeng Henan ChinaAbstract Biological applications of nanomaterials as delivery carriers have been embedded in traditional biomedical research for decades. Despite lagging behind, recent significant breakthroughs in the use of nanocarriers as tools for plant biotechnology have created great interest. In this Perspective, we review the outstanding recent works in nanocarrier‐mediated plant transformation and its agricultural applications. We analyze the chemical and physical properties of nanocarriers determining their uptake efficiency and transport throughout the plant body.https://doi.org/10.1002/EXP.20210002nanocarrierplant nano‐biotechnology
spellingShingle Xue Xia
Bingyang Shi
Lei Wang
Yang Liu
Yan Zou
Yun Zhou
Yu Chen
Meng Zheng
Yingfang Zhu
Jingjing Duan
Siyi Guo
Ho Won Jang
Yuchen Miao
Kelong Fan
Feng Bai
Wei Tao
Yong Zhao
Qingyu Yan
Gang Cheng
Huiyu Liu
Yan Jiao
Shanhu Liu
Yuanyu Huang
Daishun Ling
Wenyi Kang
Xue Xue
Daxiang Cui
Yongwei Huang
Zongqiang Cui
Xun Sun
Zhiyong Qian
Zhen Gu
Gang Han
Zhimou Yang
David Tai Leong
Aiguo Wu
Gang Liu
Xiaogang Qu
Youqing Shen
Qiangbin Wang
Gregory V. Lowry
Ertao Wang
Xing‐Jie Liang
Jorge Gardea‐Torresdey
Guoping Chen
Wolfgang J. Parak
Paul S. Weiss
Lixin Zhang
Martina M. Stenzel
Chunhai Fan
Ashley I. Bush
Gaiping Zhang
Christopher P. L. Grof
Xuelu Wang
David W. Galbraith
Ben Zhong Tang
Christina E. Offler
John W. Patrick
Chun‐Peng Song
From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnology
Exploration
nanocarrier
plant nano‐biotechnology
title From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnology
title_full From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnology
title_fullStr From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnology
title_full_unstemmed From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnology
title_short From mouse to mouse‐ear cress: Nanomaterials as vehicles in plant biotechnology
title_sort from mouse to mouse ear cress nanomaterials as vehicles in plant biotechnology
topic nanocarrier
plant nano‐biotechnology
url https://doi.org/10.1002/EXP.20210002
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