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LEADER 05507nam 2200493 i 4500
001
on1263795072
003
OCoLC
005
20221026165752.0
008
210715s2021 nyua b 0|1 0 eng
016
7
a| 020261151
2| Uk
020
a| 9781071615133
q| hardback
020
a| 1071615130
020
z| 9781071615140
q| ebook
024
7
z| 10.1007/978-1-0716-1514-0
2| doi
029
0
a| UKMGB
b| 020261151
035
a| (Sirsi) o1263795072
035
a| (OCoLC)1263795072
040
a| UKMGB
b| eng
e| rda
c| UKMGB
d| OCLCO
d| BDX
d| UtOrBLW
049
a| EREE
090
a| RA1226
b| .E48 2021
245
0
0
a| Environmental toxicology and toxicogenomics :
b| principles, methods, and applications /
c| edited by Xiaoping Pan and Baohong Zhang.
264
1
a| New York, NY :
b| Humana Press,
c| [2021]
300
a| xiii, 366 pages :
b| illustrations (black and white, and colour) ;
c| 27 cm.
336
a| text
2| rdacontent
337
a| unmediated
2| rdamedia
338
a| volume
2| rdacarrier
490
1
a| Methods in molecular biology,
x| 1064-3745 ;
v| 2326
504
a| Includes bibliographical references and index.
520
a| This detailed book provides an accessible compendium of up-to-date methods in the fields of environmental toxicology, molecular toxicology, and toxicogenomics. Organized into four major sections, the volume examines methods utilizing model animal species, such as nematode, fruit fly, mice, chicken, and amphibians, methods using plants to study chemical toxicity, applying the Ames assay to chemical mutagenicity study, as well as methods for environmental chemical analysis. Although this book is divided into these parts, the methods can be used across species. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Environmental Toxicology and Toxicogenomics: Principles, Methods, and Applications serves as a valuable resource for the scientific community, particularly for young scientists and graduate and undergraduate students, inspiring more research in the vitally important field of environmental toxicity, molecular toxicology, and toxicogenomics.
505
0
a| Detection of Caenorhabditis elegans Germ Cell Apoptosis Following Exposure to Environmental Contaminant Mixtures: A Crude Oil-Dispersant Mixture Example -- High-Throughput Measurement for Toxic Effects of Metal Mixtures in Caenorhabditis elegans -- Evaluations of Environmental Pollutants-Induced Mitochondrial Toxicity Using Caenorhabditis elegans as a Model System -- Methods to Assay the Behavior of Drosophila melanogaster for Toxicity Study -- Investigating the Joint Effects of Pesticides and Ultraviolet-B Radiation in Xenopus laevis and Other Amphibians -- Identification of Stable Reference Genes for Toxicogenomic and Gene Expression Analysis -- Semi-Quantitative RT-PCR: An Effective Method to Explore the Regulation of Gene Transcription Level Affected by Environmental Pollutants -- Employing Multiple New Neurobiological Methods to Investigate Environmental Neurotoxicology in Mice -- Analyses of Epigenetic Modification in Environmental Pollutants-Induced Neurotoxicity -- The Application of Omics Technologies in the Research of Neurotoxicology -- Flow Cytofluorometric Analysis of Molecular Mechanisms of Premature Red Blood Cell Death -- Practical Methods and Technologies in Environmental Epidemiology -- In Ovo Early-in-Life Inhalation Exposure to Gas/Aerosol with a Chicken Embryo Model -- DNA Damage in Liver Cells of the Tilapia Fish Oreochromis mossambicus Larva Induced by the Insecticide Cyantraniliprole at Sublethal Doses During Chronic Exposure -- Impact of Nanoparticles on Plant Growth, Development, and Biomass -- Biochemical and Physiological Toxicity of Nanoparticles in Plant -- Determination of Oxidative Stress and Antioxidant Enzyme Activity for Physiological Phenotyping During Heavy Metal Exposure -- Comprehensive Phytotoxicity Assessment Protocol for Engineered Nanomaterials -- Detection of Cadmium Toxicity in Plant -- Mutagenicity Evaluation of Nanoparticles by the Ames Assay -- Dispersive Solid Phase Extraction of Multiresidue Pesticides in Food and Water Samples -- Quantitative Analysis of Multiresidue Pesticides Using Gas Chromatography/Mass Spectrometry -- Determination of the N-Nitroso Compounds in Mouse Following RDX Exposure -- Determination of Metal Content in Drosophila melanogaster During Metal Exposure -- Microplastics: A Review of Methodology for Sampling and Characterizing Environmental and Biological Samples.
530
a| Also published electronically.
540
a| Current copyright fee: GBP19.00
c| 42\0.
5| Uk
650
0
a| Environmental toxicology.
=| ^A409509
650
0
a| Genetic toxicology.
=| ^A215858
700
1
a| Pan, Xiaoping
c| (Professor of biology),
e| editor.
=| ^A1443924
700
1
a| Zhang, Baohong,
c| Dr.,
e| editor.
=| ^A1140784
830
0
a| Methods in molecular biology (Clifton, N.J.) ;
v| 2326.
=| ^A682607
830
0
a| Methods in molecular biology ;
v| 2326.
=| ^A642798
856
3| 1850-9999
u| http://link.springer.com/
x| BLDSS
938
a| Brodart
b| BROD
n| 128761547
994
a| C0
b| ERE
596
a| 1
998
a| 5659482
999
a| RA1226 .E48 2021
w| LC
c| 1
i| 30372017339844
d| 11/17/2023
e| 5/11/2023
l| JGES
m| JOYNER
n| 2
r| Y
s| Y
t| JGESBK
u| 8/14/2021
x| BOOK
z| JSTACKS
o| .STAFF. jjlm