Avian Influenza Virus

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Cover of 'Avian Influenza Virus'

Table of Contents

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Book Overview
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Chapter 1 A Brief Introduction to the Avian Influenza Virus
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Chapter 2 Avian Influenza Virus Sample Types, Collection, and Handling
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Chapter 3 Avian Influenza Virus RNA Extraction from Tissue and Swab Material
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Chapter 4 Type A influenza virus detection and quantitation by real-time RT-PCR.
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Chapter 5 Detection and Identification of the H5 Hemagglutinin Subtype by Real-Time RT-PCR
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Chapter 6 Avian influenza virus isolation and propagation in chicken eggs.
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Chapter 7 Hemagglutination Assay for the Avian Influenza Virus
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Chapter 8 Hemagglutination-Inhibition Test for Avian Influenza Virus Subtype Identification and the Detection and Quantitation of Serum Antibodies to the Avian Influenza Virus
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Chapter 9 Neuraminidase-Inhibition Assay for the Identification of Influenza A Virus Neuraminidase Subtype or Neuraminidase Antibody Specificity
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Chapter 10 Immunohistochemical Staining for the Detection of the Avian Influenza Virus in Tissues
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Chapter 11 Wild Bird Surveillance for the Avian Influenza Virus
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Chapter 12 Avian Influenza Virus
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Chapter 13 Evaluating the Cell-Mediated Immune Response of Avian Species to Avian Influenza Viruses
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Chapter 14 Measurement of Avian Cytokines with Real-Time RT-PCR Following Infection with the Avian Influenza Virus

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Citations

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Chapter title	Avian Influenza Virus
Chapter number	12
Book title	Avian Influenza Virus
Published in	Methods in molecular biology, January 2008
DOI	10.1007/978-1-59745-279-3_12
Pubmed ID	18370045
Book ISBNs	978-1-58829-939-0, 978-1-59745-279-3
Authors	Chang-Won Lee, David L. Suarez, Lee, Chang-Won, Suarez, David L.
Abstract	Reverse genetics is the creation of a virus from a full-length cDNA copy of the viral genome, referred to as an infectious clone, and is the most powerful genetic tool in modern virology. The generation of influenza A viruses by reverse genetics has lagged mainly due to the inherent technical difficulties of providing a sufficient amount of all eight viral RNAs from cloned cDNA. A breakthrough was made in 1999 by utilizing the cellular enzyme RNA polymerase I for the synthesis of influenza viral RNAs. Although slightly different methods are being used in different laboratories for the rescue of the influenza virus, the basic concept of synthesizing viral RNA using RNA polymerase I remains the same. Coupled with in vitro mutagenesis, reverse genetics can be applied widely to accelerate progress in understanding the influenza virus life cycle, the generation of live-attenuated vaccines, and the use of influenza virus as vaccine and gene delivery vectors.

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Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 37 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country	Count	As %
Denmark	1	3%
Unknown	36	97%

Demographic breakdown

Readers by professional status	Count	As %
Student > Ph. D. Student	10	27%
Researcher	6	16%
Student > Master	5	14%
Professor	5	14%
Other	4	11%
Other	3	8%
Unknown	4	11%

Readers by discipline	Count	As %
Agricultural and Biological Sciences	19	51%
Veterinary Science and Veterinary Medicine	4	11%
Medicine and Dentistry	4	11%
Immunology and Microbiology	3	8%
Earth and Planetary Sciences	1	3%
Other	3	8%
Unknown	3	8%