Acute toxic effects of zinc oxide nanoparticles on Hydra magnipapillata.

[1]  Chang-Ping Yu,et al.  Silver nanoparticles induce oocyte maturation in zebrafish (Danio rerio). , 2017, Chemosphere.

[2]  Min-Kyeong Yeo,et al.  Nanomaterial regulatory policy for human health and environment , 2016, Molecular & Cellular Toxicology.

[3]  N. Naghsh,et al.  The Effects of Silver Nanoparticles on the Sex Hormones and Fetal Development in Pregnant Wistar Rats , 2016 .

[4]  R. Kim,et al.  Developmental Toxicity of Zinc Oxide Nanoparticles to Zebrafish (Danio rerio): A Transcriptomic Analysis , 2016, PloS one.

[5]  Hyunmi Kim,et al.  Safety evaluation of zinc oxide nanoparticles in terms of acute dermal toxicity, dermal irritation and corrosion, and skin sensitization , 2016, Molecular & Cellular Toxicology.

[6]  June-Woo Park,et al.  Molecular characterization and toxicological effects of citrate-coated silver nanoparticles in a terrestrial invertebrate, the earthworm (Eisenia fetida) , 2015, Molecular & Cellular Toxicology.

[7]  V. Marchesano,et al.  Impact of Carbon Nano-Onions on Hydra vulgaris as a Model Organism for Nanoecotoxicology , 2015, Nanomaterials.

[8]  Yulong Ding,et al.  Zinc oxide nanoparticle-coated films: fabrication, characterization, and antibacterial properties , 2015, Journal of Nanoparticle Research.

[9]  A. Omidvar,et al.  The effect of nano-zinc oxide on particleboard decay resistance , 2015 .

[10]  Andrew C. Johnson,et al.  Nano silver and nano zinc-oxide in surface waters – Exposure estimation for Europe at high spatial and temporal resolution , 2015, Environmental pollution.

[11]  S. Yum,et al.  Hydra, a candidate for an alternative model in environmental genomics , 2014, Molecular & Cellular Toxicology.

[12]  P. Pompa,et al.  Impact of Amorphous SiO2 Nanoparticles on a Living Organism: Morphological, Behavioral, and Molecular Biology Implications , 2014, Front. Bioeng. Biotechnol..

[13]  Benjamin Michen,et al.  Different endocytotic uptake mechanisms for nanoparticles in epithelial cells and macrophages , 2014, Beilstein journal of nanotechnology.

[14]  A. Nanda,et al.  Enhanced sun protection of nano‐sized metal oxide particles over conventional metal oxide particles: An in vitro comparative study , 2014, International journal of cosmetic science.

[15]  F. Stellacci,et al.  A general mechanism for intracellular toxicity of metal-containing nanoparticles† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c4nr01234h Click here for additional data file. , 2014, Nanoscale.

[16]  I. Tomilina,et al.  The effect of zinc oxide nano- and microparticles and zinc ions on freshwater organisms of different trophic levels , 2014, Inland Water Biology.

[17]  I. Chung,et al.  Cell Cycle and Mismatch Repair Genes as Potential Biomarkers in Arabidopsis thaliana Seedlings Exposed to Silver Nanoparticles , 2014, Bulletin of Environmental Contamination and Toxicology.

[18]  Witold Łojkowski,et al.  Zinc oxide nanoparticles toxicity to Daphnia magna: size‐dependent effects and dissolution , 2014, Environmental toxicology and chemistry.

[19]  G. Hariharan,et al.  Influence of particle size of nano zinc oxide on the controlled delivery of Amoxicillin , 2013, Applied Nanoscience.

[20]  A. Barkhordari,et al.  Effect of zinc oxide nanoparticles on viability of human spermatozoa , 2013, Iranian journal of reproductive medicine.

[21]  Liying Wang,et al.  Mechanisms of Nanoparticle-Induced Oxidative Stress and Toxicity , 2013, BioMed research international.

[22]  L. Khorsandi,et al.  The effect of zinc oxide nanoparticles on mouse spermatogenesis , 2013, Journal of Assisted Reproduction and Genetics.

[23]  J. Lazorchak,et al.  Toxicity and transcriptomic analysis in Hyalella azteca suggests increased exposure and susceptibility of epibenthic organisms to zinc oxide nanoparticles. , 2013, Environmental science & technology.

[24]  M. Salehnia,et al.  The Effects of Progesterone on Oocyte Maturation and Embryo Development , 2013, International journal of fertility & sterility.

[25]  João Paulo Teixeira,et al.  Neuronal cytotoxicity and genotoxicity induced by zinc oxide nanoparticles. , 2013, Environment international.

[26]  Yuh-Jeen Huang,et al.  Effects of various physicochemical characteristics on the toxicities of ZnO and TiO nanoparticles toward human lung epithelial cells. , 2011, The Science of the total environment.

[27]  R. Scholz,et al.  Modeled environmental concentrations of engineered nanomaterials (TiO(2), ZnO, Ag, CNT, Fullerenes) for different regions. , 2009, Environmental science & technology.

[28]  E. Hewitt,et al.  Natural killer cell cytotoxicity: how do they pull the trigger? , 2009, Immunology.

[29]  Xuezhi Zhang,et al.  The impact of ZnO nanoparticle aggregates on the embryonic development of zebrafish (Danio rerio) , 2009, Nanotechnology.

[30]  Brad T. Sherman,et al.  Bioinformatics enrichment tools: paths toward the comprehensive functional analysis of large gene lists , 2008, Nucleic acids research.

[31]  A. Sancar,et al.  DNA Damage: Repair , 2008 .

[32]  R. Hakem,et al.  DNA‐damage repair; the good, the bad, and the ugly , 2008, The EMBO journal.

[33]  Juan Miguel García-Gómez,et al.  BIOINFORMATICS APPLICATIONS NOTE Sequence analysis Manipulation of FASTQ data with Galaxy , 2005 .

[34]  S. Hammes,et al.  Oocyte maturation: the coming of age of a germ cell. , 2005, Seminars in reproductive medicine.

[35]  Toshio Takahashi,et al.  Identification of a new member of the GLWamide peptide family: physiological activity and cellular localization in cnidarian polyps. , 2003, Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology.

[36]  M. Oelgeschläger,et al.  The establishment of spemann's organizer and patterning of the vertebrate embryo , 2000, Nature Reviews Genetics.

[37]  Christoph M. Happel,et al.  WNT signalling molecules act in axis formation in the diploblastic metazoan Hydra , 2000, Nature.

[38]  Brad T. Sherman,et al.  Systematic and integrative analysis of large gene lists using DAVID bioinformatics resources , 2008, Nature Protocols.

[39]  T. Fujisawa,et al.  GENETIC ANALYSIS OF DEVELOPMENTAL MECHANISMS IN HYDRA I. SEXUAL REPRODUCTION OF HYDRA MAGNIPAPILLATA AND ISOLATION OF MUTANTS , 1977, Development, growth & differentiation.