High-efficiency formation of influenza virus transfectants. - Wikidata - wikimedia - TriplyDB

High-efficiency formation of influenza virus transfectants.

High-efficiency formation of influenza virus transfectants.

http://www.wikidata.org/entity/Q36689208

about

NS1-Binding protein (NS1-BP): a novel human protein that interacts with the influenza A virus nonstructural NS1 protein is relocalized in the nuclei of infected cells Influenza A virus RNA polymerase has the ability to stutter at the polyadenylation site of a viral RNA template during RNA replication.Generation of influenza A viruses entirely from cloned cDNAs New aspects of influenza viruses.Attenuation of influenza A virus mRNA levels by promoter mutations.Mutation of neuraminidase cysteine residues yields temperature-sensitive influenza viruses.Rescue of influenza A virus from recombinant DNA.Recombinant Newcastle disease virus as a vaccine vector Influenza B viruses with site-specific mutations introduced into the HA gene.Reverse genetics system for generation of an influenza A virus mutant containing a deletion of the carboxyl-terminal residue of M2 protein.Mutations within noncoding terminal sequences of model RNAs of Sendai virus: influence on reporter gene expression Mucosal model of immunization against human immunodeficiency virus type 1 with a chimeric influenza virus The cytoplasmic tail of influenza A virus neuraminidase (NA) affects NA incorporation into virions, virion morphology, and virulence in mice but is not essential for virus replication.Palmitylation of the influenza virus hemagglutinin (H3) is not essential for virus assembly or infectivity Mutational analysis identifies functional domains in the influenza A virus PB2 polymerase subunit Segment-specific noncoding sequences of the influenza virus genome RNA are involved in the specific competition between defective interfering RNA and its progenitor RNA segment at the virion assembly step Neuraminidase hemadsorption activity, conserved in avian influenza A viruses, does not influence viral replication in ducks.Characterization of the polyadenylation signal of influenza virus RNA Influenza virus NS1 protein stimulates translation of the M1 protein.Reverse genetics provides direct evidence for a correlation of hemagglutinin cleavability and virulence of an avian influenza A virus.Protection against lethal lymphocytic choriomeningitis virus (LCMV) infection by immunization of mice with an influenza virus containing an LCMV epitope recognized by cytotoxic T lymphocytes Mutations at palmitylation sites of the influenza virus hemagglutinin affect virus formation Growth control of influenza A virus by M1 protein: analysis of transfectant viruses carrying the chimeric M gene Biologic importance of neuraminidase stalk length in influenza A virus Rescue of synthetic analogs of genomic RNA and replicative-intermediate RNA of human parainfluenza virus type 3.Basis for selective incorporation of glycoproteins into the influenza virus envelope Chimeric influenza virus induces neutralizing antibodies and cytotoxic T cells against human immunodeficiency virus type 1 Glycosylation of neuraminidase determines the neurovirulence of influenza A/WSN/33 virus.Mutations in the cytoplasmic tail of influenza A virus neuraminidase affect incorporation into virions.Rescue of an influenza A virus wild-type PB2 gene and a mutant derivative bearing a site-specific temperature-sensitive and attenuating mutation.Studies using double mutants of the conformational transitions in influenza hemagglutinin required for its membrane fusion activity.Transfection-mediated recombination of influenza A virus Mutational analysis of the promoter required for influenza virus virion RNA synthesis.Attenuation of influenza A virus by insertion of a foreign epitope into the neuraminidase.Negative-strand RNA viruses: genetic engineering and applications.An influenza A virus containing influenza B virus 5' and 3' noncoding regions on the neuraminidase gene is attenuated in mice.Rescue of synthetic analogs of respiratory syncytial virus genomic RNA and effect of truncations and mutations on the expression of a foreign reporter gene A highly recombinogenic system for the recovery of infectious Sendai paramyxovirus from cDNA: generation of a novel copy-back nondefective interfering virus.The influenza virus hemagglutinin cytoplasmic tail is not essential for virus assembly or infectivity.Many ways to make an influenza virus--review of influenza virus reverse genetics methods.

P2860

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P2860

High-efficiency formation of influenza virus transfectants.

http://www.wikidata.org/entity/Q36689208

description

1991 nî lūn-bûn

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1991年の論文

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1991年論文

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1991年論文

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1991年論文

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1991年論文

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1991年論文

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1991年论文

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1991年论文

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1991年论文

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name

High-efficiency formation of influenza virus transfectants.

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High-efficiency formation of influenza virus transfectants.

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type

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High-efficiency formation of influenza virus transfectants.

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High-efficiency formation of influenza virus transfectants.

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High-efficiency formation of influenza virus transfectants.

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High-efficiency formation of influenza virus transfectants.

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M Enami

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P2860

Introduction of site-specific mutations into the genome of influenza virus

Infectious measles virus from cloned cDNA.

Amplification, expression, and packaging of foreign gene by influenza virus.

Promoter analysis of influenza virus RNA polymerase

Analysis of an influenza A virus mutant with a deletion in the NS segment

Virulence factors of influenza A viruses: WSN virus neuraminidase required for plaque production in MDBK cells.

Characterization of an influenza A host range mutant.

Further isolation and characterization of temperature-sensitive mutants of influenza virus.

A 36 nucleotide deletion mutation in the coding region of the NS1 gene of an influenza A virus RNA segment 8 specifies a temperature-dependent host range phenotype.

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