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1. Nanocellulose Length Determines the Differential Cytotoxic Effects and Inflammatory Responses in Macrophages and Hepatocytes

Author

Li, Jiulong, Wang, Xiang, Chang, Chong Hyun, Jiang, Jinhong, Liu, Qi, Liu, Xiangsheng, Liao, Yu‐Pei, Ma, Tiancong, Meng, Huan, and Xia, Tian

Subjects
Nanotechnology, Digestive Diseases, Bioengineering, Liver Disease, Generic health relevance, Oral and gastrointestinal, Hepatocytes, Inflammasomes, Kupffer Cells, Liver, Macrophages, apoptosis, aspect ratio, liver cells, nanocellulose, NLRP3 inflammasome activation, Nanoscience & Nanotechnology
Abstract

Nanocellulose including cellulose nanocrystal (CNC) and cellulose nanofiber (CNF) has attracted much attention due to its exceptional mechanical, chemical, and rheological properties. Although considered biocompatible, recent reports have demonstrated nanocellulose can be hazardous, including serving as drug carriers that accumulate in the liver. However, the nanocellulose effects on liver cells, including Kupffer cells (KCs) and hepatocytes are unclear. Here, the toxicity of nanocellulose with different lengths is compared, including the shorter CNCs (CNC-1, CNC-2, and CNC-3) and longer CNF (CNF-1 and CNF-2), to liver cells. While all CNCs triggered significant cytotoxicity in KCs and only CNC-2 induced toxicity to hepatocytes, CNFs failed to induce significant cytotoxicity due to their minimal cellular uptake. The phagocytosis of CNCs by KCs induced mitochondria ROS generation, caspase-3/7 activation, and apoptotic cell death as well as lysosomal damage, cathepsin B release, NLRP3 inflammasome and caspase-1 activation, and IL-1β production. The cellular uptake of CNC-2 by hepatocytes is through clathrin-mediated endocytosis, and it induced the caspase-3/7-mediated apoptosis. CNC-2 shows the highest levels of uptake and cytotoxicity among CNCs. These results demonstrate the length-dependent mechanisms of toxicity on liver cells in a cell type-dependent fashion, providing information to safely use nanocellulose for biomedical applications.

Published
2021

2. Dissolution of 2D Molybdenum Disulfide Generates Differential Toxicity among Liver Cell Types Compared to Non‐Toxic 2D Boron Nitride Effects

Author

Li, Jiulong, Guiney, Linda M, Downing, Julia R, Wang, Xiang, Chang, Chong Hyun, Jiang, Jinhong, Liu, Qi, Liu, Xiangsheng, Mei, Kuo‐Ching, Liao, Yu‐Pei, Ma, Tiancong, Meng, Huan, Hersam, Mark C, Nel, André E, and Xia, Tian

Subjects
Medical Biotechnology, Biological Sciences, Biomedical and Clinical Sciences, Liver Disease, Digestive Diseases, Boron Compounds, Disulfides, Endothelial Cells, Hepatocytes, Liver, Molybdenum, Solubility, Tissue Distribution, apoptosis, boron nitride, dissolution, inflammatory response, molybdenum disulfide, Nanoscience & Nanotechnology
Abstract

2D boron nitride (BN) and molybdenum disulfide (MoS2 ) materials are increasingly being used for applications due to novel chemical, electronic, and optical properties. Although generally considered biocompatible, recent data have shown that BN and MoS2 could potentially be hazardous under some biological conditions, for example, during, biodistribution of drug carriers or imaging agents to the liver. However, the effects of these 2D materials on liver cells such as Kupffer cells (KCs), liver sinusoidal endothelial cells, and hepatocytes, are unknown. Here, the toxicity of BN and MoS2 , dispersed in Pluronic F87 (designated BN-PF and MoS2 -PF) is compared with aggregated forms of these materials (BN-Agg and MoS2 -Agg) in liver cells. MoS2 induces dose-dependent cytotoxicity in KCs, but not other cell types, while the BN derivatives are non-toxic. The effect of MoS2 could be ascribed to nanosheet dissolution and the release of hexavalent Mo, capable of inducing mitochondrial reactive oxygen species generation and caspases 3/7-mediated apoptosis in KUP5 cells. In addition, the phagocytosis of MoS2 -Agg triggers an independent response pathway involving lysosomal damage, NLRP3 inflammasome activation, caspase-1 activation, IL-1β, and IL-18 production. These findings demonstrate the importance of Mo release and the state of dispersion of MoS2 in impacting KC viability.

Published
2021

3. Continued Efforts on Nanomaterial‐Environmental Health and Safety Is Critical to Maintain Sustainable Growth of Nanoindustry

Author

Liu, Sijin and Xia, Tian

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Engineering, Nanotechnology, Nutrition, Bioengineering, Environmental Health, Nanoparticles, Nanostructures, Sustainable Growth, engineered nanomaterials, environmental health and safety, health impact, nanoindustry, sustainable development, Nanoscience & Nanotechnology
Abstract

Nanotechnology is enjoying an impressive growth and the global nanotechnology industry is expected to exceed US$ 125 billion by 2024. Based on these successes, there are notions that enough is known and efforts on engineered nanomaterial environmental health and safety (nano-EHS) research should be put on the back burner. However, there are recent events showing that it is not the case. The US Food and Drug Administration found ferumoxytol (carbohydrate-coated superparamagnetic iron oxide nanoparticle) for anemia treatment could induce lethal anaphylactic reactions. The European Union will categorize TiO2 as a category 2 carcinogen due to its inhalation hazard and France banned use of TiO2 (E171) in food from January 1, 2020 because of its carcinogenic potential. Although nanoindustry is seemingly in a healthy state, growth could be hindered for the lack of certainty and more nano-EHS research is needed for the sustainable growth of nanoindustry. Herein, the current knowledge gaps and the way forward are elaborated.

Published
2020

4. Mechanistic Differences in Cell Death Responses to Metal‐Based Engineered Nanomaterials in Kupffer Cells and Hepatocytes

Author

Wang, Xiang, Chang, Chong Hyun, Jiang, Jinhong, Liu, Xiangsheng, Li, Jiulong, Liu, Qi, Liao, Yu‐Pei, Li, Linjiang, Nel, André E, and Xia, Tian

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Engineering, Medical Biotechnology, Nanotechnology, Liver Disease, Bioengineering, Digestive Diseases, Good Health and Well Being, Animals, Cell Death, Cell Line, Hepatocytes, Inflammasomes, Kupffer Cells, Metal Nanoparticles, Mice, Silicon Dioxide, hepatocytes, Kupffer cells, macrophages, nanoparticles, NLRP3 inflammasome activation, potassium efflux, pyroptosis, Nanoscience & Nanotechnology
Abstract

The mononuclear phagocyte system in the liver is a frequent target for nanoparticles (NPs). A toxicological profiling of metal-based NPs is performed in Kupffer cell (KC) and hepatocyte cell lines. Sixteen NPs are provided by the Nanomaterial Health Implications Research Consortium of the National Institute of Environmental Health Sciences to study the toxicological effects in KUP5 (KC) and Hepa 1-6 cells. Five NPs (Ag, CuO, ZnO, SiO2 , and V2 O5 ) exhibit cytotoxicity in both cell types, while SiO2 and V2 O5 induce IL-1β production in KC. Ag, CuO, and ZnO induced caspase 3 generated apoptosis in both cell types is accompanied by ion shedding and generation of mitochondrial reactive oxygen species (ROS) in both cell types. However, the cell death response to SiO2 in KC differs by inducing pyroptosis as a result of potassium efflux, caspase 1 activation, NLRP3 inflammasome assembly, IL-1β release, and cleavage of gasdermin-D. This releases pore-performing peptide fragments responsible for pyroptotic cell swelling. Interestingly, although V2 O5 induces IL-1β release and delays caspase 1 activation by vanadium ion interference in membrane Na+ /K+ adenosine triphosphate (ATP)ase activity, the major cell death mechanism in KC (and Hepa 1-6) is caspase 3 mediated apoptosis. These findings improve the understanding of the mechanisms of metal-based engineered nanomaterial (ENM) toxicity in liver cells toward comprehensive safety evaluation.

Published
2020

5. The Crystallinity and Aspect Ratio of Cellulose Nanomaterials Determine Their Pro‐Inflammatory and Immune Adjuvant Effects In Vitro and In Vivo

Author

Wang, Xiang, Chang, Chong Hyun, Jiang, Jinhong, Liu, Qi, Liao, Yu‐Pei, Lu, Jianqin, Li, Linjiang, Liu, Xiangsheng, Kim, Joshua, Ahmed, Ayman, Nel, André E, and Xia, Tian

Subjects
Medical Biotechnology, Engineering, Biomedical and Clinical Sciences, Nanotechnology, Bioengineering, Inflammatory and immune system, Adjuvants, Immunologic, Animals, Cell Survival, Cellulose, Crystallization, Dendritic Cells, Glutathione, Humans, Hydrodynamics, Immunity, Humoral, Immunoglobulin G, Inflammasomes, Inflammation, Interleukin-1beta, Lysosomes, Mice, Inbred C57BL, NLR Family, Pyrin Domain-Containing 3 Protein, Nanoparticles, Nanostructures, Ovalbumin, Oxidative Stress, Particle Size, Reactive Oxygen Species, Static Electricity, Subcellular Fractions, THP-1 Cells, aspect ratio, cellulose nanocrystals, cellulose nanofibrils, crystallinity, humoral immune effects, Nanoscience & Nanotechnology
Abstract

Nanocellulose is increasingly considered for applications; however, the fibrillar nature, crystalline phase, and surface reactivity of these high aspect ratio nanomaterials need to be considered for safe biomedical use. Here a comprehensive analysis of the impact of cellulose nanofibrils (CNF) and nanocrystals (CNC) is performed using materials provided by the Nanomaterial Health Implications Research Consortium of the National Institute of Environmental Health Sciences. An intermediary length of nanocrystals is also derived by acid hydrolysis. While all CNFs and CNCs are devoid of cytotoxicity, 210 and 280 nm fluorescein isothiocyanate (FITC)-labeled CNCs show higher cellular uptake than longer and shorter CNCs or CNFs. Moreover, CNCs in the 200-300 nm length scale are more likely to induce lysosomal damage, NLRP3 inflammasome activation, and IL-1β production than CNFs. The pro-inflammatory effects of CNCs are correlated with higher crystallinity index, surface hydroxyl density, and reactive oxygen species generation. In addition, CNFs and CNCs can induce maturation of bone marrow-derived dendritic cells and CNCs (and to a lesser extent CNFs) are found to exert adjuvant effects in ovalbumin (OVA)-injected mice, particularly for 210 and 280 nm CNCs. All considered, the data demonstrate the importance of length scale, crystallinity, and surface reactivity in shaping the innate immune response to nanocellulose.

Published
2019

6. Toxicological Profiling of Highly Purified Single‐Walled Carbon Nanotubes with Different Lengths in the Rodent Lung and Escherichia Coli

Author

Wang, Xiang, Lee, Jae‐Hyeok, Li, Ruibin, Liao, Yu‐Pei, Kang, Joohoon, Chang, Chong Hyun, Guiney, Linda M, Mirshafiee, Vahid, Li, Linjiang, Lu, Jianqin, Xia, Tian, Hersam, Mark C, and Nel, André E

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Engineering, Nanotechnology, Lung, Bioengineering, Animals, Anti-Bacterial Agents, Cell Line, Cytokines, Escherichia coli, Humans, Hydrodynamics, Inflammation, Inflammation Mediators, Mice, Inbred C57BL, Nanotubes, Carbon, Poloxamer, Static Electricity, Toxicity Tests, antibacterial effects, density gradient ultracentrifugation, length sorting, lung fibrosis, single-walled carbon nanotubes, Nanoscience & Nanotechnology
Abstract

Carbon nanotubes (CNTs) exhibit a number of physicochemical properties that contribute to adverse biological outcomes. However, it is difficult to define the independent contribution of individual properties without purified materials. A library of highly purified single-walled carbon nanotubes (SWCNTs) of different lengths is prepared from the same base material by density gradient ultracentrifugation, designated as short (318 nm), medium (789 nm), and long (1215 nm) SWCNTs. In vitro screening shows length-dependent interleukin-1β (IL-1β) production, in order of long > medium > short. However, there are no differences in transforming growth factor-β1 production in BEAS-2B cells. Oropharyngeal aspiration shows that all the SWCNTs induce profibrogenic effects in mouse lung at 21 d postexposure, but there are no differences between tube lengths. In contrast, these SWCNTs demonstrate length-dependent antibacterial effects on Escherichia coli, with the long SWCNT exerting stronger effects than the medium or short tubes. These effects are reduced by Pluronic F108 coating or supplementing with glucose. The data show length-dependent effects on proinflammatory response in macrophage cell line and antibacterial effects, but not on collagen deposition in the lung. These data demonstrate that over the length scale tested, the biological response to highly purified SWCNTs is dependent on the complexity of the nano/bio interface.

Published
2018

8. The Genetic Heterogeneity among Different Mouse Strains Impacts the Lung Injury Potential of Multiwalled Carbon Nanotubes

Author

Wang, Xiang, Liao, Yu‐Pei, Telesca, Donatello, Chang, Chong Hyun, Xia, Tian, and Nel, André E

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Lung, Genetics, Acids, Analysis of Variance, Animals, Chemical Phenomena, Fibrosis, Genetic Heterogeneity, Humans, Interleukin-1beta, Lung Injury, Macrophages, Mice, Inbred Strains, Nanotubes, Carbon, THP-1 Cells, Transforming Growth Factor beta1, BMDM, MWCNT, lung fibrosis, mouse strain, Nanoscience & Nanotechnology
Abstract

Genetic variation constitutes an important variable impacting the susceptibility to inhalable toxic substances and air pollutants, as reflected by epidemiological studies in humans and differences among animal strains. While multiwalled carbon nanotubes (MWCNTs) are capable of causing lung fibrosis in rodents, it is unclear to what extent the genetic variation in different mouse strains influence the outcome. Four inbred mouse strains, including C57Bl/6, Balb/c, NOD/ShiLtJ, and A/J, to test the pro-fibrogenic effects of a library of MWCNTs in vitro and in vivo are chosen. Ex vivo analysis of IL-1β production in bone marrow-derived macrophages (BMDMs) as molecular initiating event (MIE) is performed. The order of cytokine production (Balb/c > A/J > C57Bl/6 > NOD/ShiLtJ) in BMDMs is also duplicated during assessment of IL-1β production in the bronchoalveolar lavage fluid of the same mouse strains 40 h after oropharyngeal instillation of a representative MWCNT. Animal test after 21 d also confirms a similar hierarchy in TGF-β1 production and collagen deposition in the lung. Statistical analysis confirms a correlation between IL-1β production in BMDM and the lung fibrosis. All considered, these data demonstrate that genetic background indeed plays a major role in determining the pro-fibrogenic response to MWCNTs in the lung.

Published
2017

10. Differences in the Toxicological Potential of 2D versus Aggregated Molybdenum Disulfide in the Lung

Author

Wang, Xiang, Mansukhani, Nikhita D, Guiney, Linda M, Ji, Zhaoxia, Chang, Chong Hyun, Wang, Meiying, Liao, Yu-Pei, Song, Tze-Bin, Sun, Bingbing, Li, Ruibin, Xia, Tian, Hersam, Mark C, and Nel, André E

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Lung, Animals, Cell Death, Cell Line, Disulfides, Humans, Inflammation, Inflammation Mediators, Male, Mice, Inbred C57BL, Microscopy, Electron, Scanning, Molybdenum, Toxicity Tests, cytotoxicity, hazard assessment, molybdenum disulfide, pulmonary toxicity, Nanoscience & Nanotechnology
Abstract

2D molybdenum disulfide (MoS2 ) has distinct optical and electronic properties compared to aggregated MoS2 , enabling wide use of these materials for electronic and biomedical applications. However, the hazard potential of MoS2 has not been studied extensively. Here, a comprehensive analysis of the pulmonary hazard potential of three aqueous suspended forms of MoS2 -aggregated MoS2 (Agg-MoS2 ), MoS2 exfoliated by lithiation (Lit-MoS2 ), and MoS2 dispersed by Pluronic F87 (PF87-MoS2 )-is presented. No cytotoxicity is detected in THP-1 and BEAS-2B cell lines. However, Agg-MoS2 induces strong proinflammatory and profibrogenic responses in vitro. In contrast, Lit- and PF87-MoS2 have little or no effect. In an acute toxicity study in mice, Agg-MoS2 induces acute lung inflammation, while Lit-MoS2 and PF87-MoS2 have little or no effect. In a subchronic study, there is no evidence of pulmonary fibrosis in response to all forms of MoS2 . These data suggest that exfoliation attenuates the toxicity of Agg-MoS2 , which is an important consideration toward the safety evaluation and use of nanoscale MoS2 materials for industrial and biological applications.

Published
2015

11. Mammalian Cells Exhibit a Range of Sensitivities to Silver Nanoparticles that are Partially Explicable by Variations in Antioxidant Defense and Metallothionein Expression

Author

Zhang, Haiyuan, Wang, Xiang, Wang, Meiying, Li, Linjiang, Chang, Chong Hyun, Ji, Zhaoxia, Xia, Tian, and Nel, Andre E

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Engineering, Medical Biotechnology, Nanotechnology, Bioengineering, Animals, Antioxidants, Caco-2 Cells, Cell Line, Cell Line, Tumor, Cell Survival, Culture Media, Dose-Response Relationship, Drug, Epithelial Cells, Glutathione Transferase, Gold, Humans, Hydrodynamics, Macrophages, Metal Nanoparticles, Metallothionein, Mice, Oxidative Stress, Rats, Silver, cytotoxicity, heavy metal stress response, oxidative stress, silver nanoparticles, Nanoscience & Nanotechnology
Abstract

While it is well known that there are interspecies differences in Ag sensitivity, differences in the cytotoxic responses of mammalian cells to silver nanoparticles (Ag NPs) are also observed. In order to explore these response outcomes, six cell lines, including epithelial cells (Caco-2, NHBE, RLE-6TN, and BEAS-2B) and macrophages (RAW 264.7 and THP-1) of human and rodent origin, are exposed to 20 nm citrate- and PVP-coated Ag NPs with Au cores, as well as 20 nm citrate-coated particles without cores. An MTS assay shows that while Caco-2 and NHBE cells are resistant to particles over a 0.1-50 μg mL(-1) dose range, RAW 264.7, THP-1, RLE-6TN, and BEAS-2B cells are more susceptible. While there are small differences in dissolution rates, there are no major differences in the cytotoxic potential of the different particles. However, differences in anti-oxidant defense and metallothionein expression among different cell types are observed, which can partially explain differential Ag NP sensitivity. So, it is important to consider these differences in understanding the potential heterogeneous effects of nano Ag on mammalian biological systems.

Published
2015

12. NADPH Oxidase‐Dependent NLRP3 Inflammasome Activation and its Important Role in Lung Fibrosis by Multiwalled Carbon Nanotubes

Author

Sun, Bingbing, Wang, Xiang, Ji, Zhaoxia, Wang, Meiying, Liao, Yu‐Pei, Chang, Chong Hyun, Li, Ruibin, Zhang, Haiyuan, Nel, André E, and Xia, Tian

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Engineering, Nanotechnology, Bioengineering, Lung, 2.1 Biological and endogenous factors, Animals, Carrier Proteins, Cathepsin B, Cell Line, Cytochrome b Group, Humans, Inflammasomes, Interleukin-1beta, Lysosomes, Macrophages, Male, Metal Nanoparticles, Mice, Mice, Inbred C57BL, NADH, NADPH Oxidoreductases, NADPH Oxidase 1, NADPH Oxidases, NLR Family, Pyrin Domain-Containing 3 Protein, Nanotubes, Carbon, Oxidative Stress, Oxygen, Pulmonary Fibrosis, Reactive Oxygen Species, Respiratory Burst, Silver, NADPH oxidase, NLRP3 inflammasome, long aspect ratio nanomaterials, lung fibrosis, oxidative stress, Nanoscience & Nanotechnology
Abstract

The purpose of this paper is to elucidate the key role of NADPH oxidase in NLRP3 inflammasome activation and generation of pulmonary fibrosis by multi-walled carbon nanotubes (MWCNTs). Although it is known that oxidative stress plays a role in pulmonary fibrosis by single-walled CNTs, the role of specific sources of reactive oxygen species, including NADPH oxidase, in inflammasome activation remains to be clarified. In this study, three long aspect ratio (LAR) materials (MWCNTs, single-walled carbon nanotubes, and silver nanowires) are used to compare with spherical carbon black and silver nanoparticles for their ability to trigger oxygen burst activity and NLRP3 assembly. All LAR materials but not spherical nanoparticles induce robust NADPH oxidase activation and respiratory burst activity in THP-1 cells, which are blunted in p22(phox) -deficient cells. The NADPH oxidase is directly involved in lysosomal damage by LAR materials, as demonstrated by decreased cathepsin B release and IL-1β production in p22(phox) -deficient cells. Reduced respiratory burst activity and inflammasome activation are also observed in bone marrow-derived macrophages from p47(phox) -deficient mice. Moreover, p47(phox) -deficient mice have reduced IL-1β production and lung collagen deposition in response to MWCNTs. Lung fibrosis is also suppressed by N-acetyl-cysteine in wild-type animals exposed to MWCNTs.

Published
2015

17. A Robust and Low‐Power Bismuth Doped Tin Oxide Memristor Derived from Coaxial Conductive Filaments

Author

Liu, Yanxin, primary, Ye, Cong, additional, Chang, Kuan‐Chang, additional, Li, Lei, additional, Jiang, Bei, additional, Xia, Chen, additional, Liu, Lei, additional, Zhang, Xin, additional, Liu, Xinyi, additional, Xia, Tian, additional, Peng, Zehui, additional, Cao, Guangsen, additional, Cheng, Gong, additional, Ke, Shanwu, additional, and Wang, Jiahong, additional

Published
2020
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19. Carbon Nanotubes: Carbon Nanotubes Disrupt Iron Homeostasis and Induce Anemia of Inflammation through Inflammatory Pathway as a Secondary Effect Distant to Their Portal-of-Entry (Small 15/2017)

Author

Ma, Juan, primary, Li, Ruibin, additional, Liu, Yin, additional, Qu, Guangbo, additional, Liu, Jing, additional, Guo, Wenli, additional, Song, Haoyang, additional, Li, Xinghong, additional, Liu, Yajun, additional, Xia, Tian, additional, Yan, Bing, additional, and Liu, Sijin, additional

Published
2017
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20. Carbon Nanotubes Disrupt Iron Homeostasis and Induce Anemia of Inflammation through Inflammatory Pathway as a Secondary Effect Distant to Their Portal-of-Entry

Author

Ma, Juan, primary, Li, Ruibin, additional, Liu, Yin, additional, Qu, Guangbo, additional, Liu, Jing, additional, Guo, Wenli, additional, Song, Haoyang, additional, Li, Xinghong, additional, Liu, Yajun, additional, Xia, Tian, additional, Yan, Bing, additional, and Liu, Sijin, additional

Published
2017
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21. Use of Coated Silver Nanoparticles to Understand the Relationship of Particle Dissolution and Bioavailability to Cell and Lung Toxicological Potential

Author

Wang, Xiang, primary, Ji, Zhaoxia, additional, Chang, Chong Hyun, additional, Zhang, Haiyuan, additional, Wang, Meiying, additional, Liao, Yu-Pei, additional, Lin, Sijie, additional, Meng, Huan, additional, Li, Ruibin, additional, Sun, Bingbing, additional, Winkle, Laura Van, additional, Pinkerton, Kent E., additional, Zink, Jeffrey I., additional, Xia, Tian, additional, and Nel, André E., additional

Published
2013
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22. Metal Oxides: Zebrafish High-Throughput Screening to Study the Impact of Dissolvable Metal Oxide Nanoparticles on the Hatching Enzyme, ZHE1 (Small 9-10/2013)

Author

Lin, Sijie, primary, Zhao, Yan, additional, Ji, Zhaoxia, additional, Ear, Jason, additional, Chang, Chong Hyun, additional, Zhang, Haiyuan, additional, Low-Kam, Cecile, additional, Yamada, Kristin, additional, Meng, Huan, additional, Wang, Xiang, additional, Liu, Rong, additional, Pokhrel, Suman, additional, Mädler, Lutz, additional, Damoiseaux, Robert, additional, Xia, Tian, additional, Godwin, Hilary A., additional, Lin, Shuo, additional, and Nel, André E., additional

Published
2013
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23. Zebrafish High-Throughput Screening to Study the Impact of Dissolvable Metal Oxide Nanoparticles on the Hatching Enzyme, ZHE1

Author

Lin, Sijie, primary, Zhao, Yan, additional, Ji, Zhaoxia, additional, Ear, Jason, additional, Chang, Chong Hyun, additional, Zhang, Haiyuan, additional, Low-Kam, Cecile, additional, Yamada, Kristin, additional, Meng, Huan, additional, Wang, Xiang, additional, Liu, Rong, additional, Pokhrel, Suman, additional, Mädler, Lutz, additional, Damoiseaux, Robert, additional, Xia, Tian, additional, Godwin, Hilary A., additional, Lin, Shuo, additional, and Nel, André E., additional

Published
2012
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25. Implementation of a Multidisciplinary Approach to Solve Complex Nano EHS Problems by the UC Center for the Environmental Implications of Nanotechnology

Author

Xia, Tian, primary, Malasarn, Davin, additional, Lin, Sijie, additional, Ji, Zhaoxia, additional, Zhang, Haiyuan, additional, Miller, Robert J., additional, Keller, Arturo A., additional, Nisbet, Roger M., additional, Harthorn, Barbara H., additional, Godwin, Hilary A., additional, Lenihan, Hunter S., additional, Liu, Rong, additional, Gardea-Torresdey, Jorge, additional, Cohen, Yoram, additional, Mädler, Lutz, additional, Holden, Patricia A., additional, Zink, Jeffrey I., additional, and Nel, Andre E., additional

Published
2012
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29. Implementation of a Multidisciplinary Approach to Solve Complex Nano EHS Problems by the UC Center for the Environmental Implications of Nanotechnology.

Author

Xia, Tian, Malasarn, Davin, Lin, Sijie, Ji, Zhaoxia, Zhang, Haiyuan, Miller, Robert J., Keller, Arturo A., Nisbet, Roger M., Harthorn, Barbara H., Godwin, Hilary A., Lenihan, Hunter S., Liu, Rong, Gardea‐Torresdey, Jorge, Cohen, Yoram, Mädler, Lutz, Holden, Patricia A., Zink, Jeffrey I., and Nel, Andre E.

Published
2013
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