scholarly article | Q13442814 |
P2093 | author name string | Y Z Ghendon | |
A Y Zvonarjev | |||
P2860 | cites work | Protein measurement with the Folin phenol reagent | Q20900776 |
Role of the membrane (M) protein in endogenous inhibition of in vitro transcription by vesicular stomatitis virus | Q30450554 | ||
Transcription of the influenza ribonucleic acid genome by a virion polymerase. I. Optimal conditions for in vitro activity of the ribonucleic acid-dependent ribonucleic acid polymerase | Q36581345 | ||
Identification of the defective genes in three mutant groups of influenza virus | Q37503584 | ||
Susceptibility of influenza A viruses to amantadine is influenced by the gene coding for M protein | Q37600990 | ||
Effect of adamantane derivatives on the activity of orthomyxovirus RNA-dependent RNA polymerase | Q39115494 | ||
Comparative study of virion transcriptase of some influenza virus strains | Q39193944 | ||
Influenza virion RNA-dependent RNA polymerase: stimulation by guanosine and related compounds | Q39921736 | ||
On the Mechanism of Inhibition of Influenza Virus Replication by Amantadine Hydrochloride | Q41545745 | ||
Study on the mechanism of inhibiting action of aminoadamantane on the reproduction of fowl plague virus. | Q41553150 | ||
Inhibition of uncoating of fowl plague virus by l-adamantanamine hydrochloride | Q41558751 | ||
Newcastle disease virus RNA. I. Isolation and preliminary characterization of RNA from virus particles | Q44964753 | ||
Electron microscopic observations on the entry of influenza virus into susceptible cells | Q45818278 | ||
The membrane protein of influenza virus: extraction from virus and infected cell with acidic chloroform-methanol | Q45819451 | ||
The matrix protein gene determines amantadine-sensitivity of influenza viruses | Q67464829 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | virion | Q1757347 |
influenza A virus | Q834390 | ||
P304 | page(s) | 583-6 | |
P577 | publication date | 1980-02-01 | |
P1433 | published in | Journal of Virology | Q1251128 |
P1476 | title | Influence of membrane (M) protein on influenza A virus virion transcriptase activity in vitro and its susceptibility to rimantadine | |
P478 | volume | 33 |
Q42636628 | Adaptation of wild-type measles virus to cotton rat lung cells: E89K mutation in matrix protein contributes to its fitness. |
Q36690453 | Alterations to influenza virus hemagglutinin cytoplasmic tail modulate virus infectivity |
Q45793861 | Anomalous electrophoretic behavior of the membrane (M) protein of influenza virus in polyacrylamide gels |
Q39877270 | Antiviral activity of influenza virus M1 zinc finger peptides |
Q27863797 | Assembly and budding of influenza virus |
Q43485502 | Biological characteristics of a cold-adapted influenza A virus mutation residing on a polymerase gene |
Q40213212 | Borna disease virus matrix protein is an integral component of the viral ribonucleoprotein complex that does not interfere with polymerase activity |
Q30332027 | Characterization of the 1918 "Spanish" influenza virus matrix gene segment |
Q35873277 | Effect of M1 protein and low pH on nuclear transport of influenza virus ribonucleoproteins |
Q45741972 | Egg-adapted replication-restricted virus protects mice against lethal influenza |
Q55554478 | Evolution of Therapeutic Antibodies, Influenza Virus Biology, Influenza, and Influenza Immunotherapy. |
Q36798311 | Evolutionary analysis of the influenza A virus M gene with comparison of the M1 and M2 proteins |
Q30452233 | Functional and antigenic domains of the matrix (M1) protein of influenza A virus |
Q68199312 | Host range determination and functional mapping of the nucleoprotein and matrix genes of influenza viruses using monoclonal antibodies |
Q35134265 | In vivo anti-influenza virus activity of a zinc finger peptide |
Q37743549 | Influenza a viruses with mutations in the m1 helix six domain display a wide variety of morphological phenotypes |
Q36885476 | Influenza virus gene expression: control mechanisms at early and late times of infection and nuclear-cytoplasmic transport of virus-specific RNAs |
Q37100183 | Influenza virus intracellular replication dynamics, release kinetics, and particle morphology during propagation in MDCK cells |
Q39593594 | Influenza virus matrix protein is the major driving force in virus budding. |
Q67717924 | Isolation of matrix protein M1 from influenza viruses by acid-dependent extraction with nonionic detergent |
Q45723109 | Localization of influenza virus proteins to nuclear dot 10 structures in influenza virus-infected cells |
Q40116675 | M protein (M1) of influenza virus: antigenic analysis and intracellular localization with monoclonal antibodies |
Q42175114 | Matrix protein 1: A comparative in silico study on different strains of influenza A H5N1 Virus |
Q39548675 | Matrix protein of rabies virus is responsible for the assembly and budding of bullet-shaped particles and interacts with the transmembrane spike glycoprotein G. |
Q38287598 | Mechanism for inhibition of influenza virus RNA polymerase activity by matrix protein. |
Q39781908 | Mechanisms and functional implications of the degradation of host RNA polymerase II in influenza virus infected cells |
Q41729122 | Mechanisms involved in natural and experimental neuropathogenicity of influenza viruses: evidence and speculation. |
Q36171824 | Modeling the intracellular dynamics of influenza virus replication to understand the control of viral RNA synthesis. |
Q30452260 | Monoclonal antibodies to the M protein of vesicular stomatitis virus (Indiana serotype) and to a cDNA M gene expression product |
Q42092806 | Monoclonal antibody analysis of influenza virus matrix protein epitopes involved in transcription inhibition |
Q28535330 | Multiscale modeling of influenza A virus infection supports the development of direct-acting antivirals |
Q36702086 | Nuclear retention of M1 protein in a temperature-sensitive mutant of influenza (A/WSN/33) virus does not affect nuclear export of viral ribonucleoproteins |
Q36914044 | Nucleotide sequence of the gene encoding respiratory syncytial virus matrix protein |
Q30452647 | Nucleus-targeting domain of the matrix protein (M1) of influenza virus |
Q42153804 | RNA interference with measles virus N, P, and L mRNAs efficiently prevents and with matrix protein mRNA enhances viral transcription |
Q40538600 | RNA-binding properties of influenza A virus matrix protein M1 |
Q38287318 | Rabies virus M protein expressed in Escherichia coli and its regulatory role in virion-associated transcriptase activity |
Q39874494 | Serine 3 is critical for phosphorylation at the N-terminal end of the nucleoprotein of influenza virus A/Victoria/3/75. |
Q34441568 | Structure-based design of NS2 mutants for attenuated influenza A virus vaccines |
Q39920888 | Studies of an influenza A virus temperature-sensitive mutant identify a late role for NP in the formation of infectious virions |
Q35689703 | The highly conserved arginine residues at positions 76 through 78 of influenza A virus matrix protein M1 play an important role in viral replication by affecting the intracellular localization of M1 |
Q36911137 | The membrane (M1) protein of influenza virus occurs in two forms and is a phosphoprotein |
Q30452131 | Transcription inhibition and other properties of matrix proteins expressed by M genes cloned from measles viruses and diseased human brain tissue |
Q30452201 | Transcription-inhibition and RNA-binding domains of influenza A virus matrix protein mapped with anti-idiotypic antibodies and synthetic peptides |
Q30462500 | Transient expression and sequence of the matrix (M1) gene of wsn influenza a virus in a vaccinia vector |
Q27486207 | Transport of incoming influenza virus nucleocapsids into the nucleus |
Q35837662 | Two murine coronavirus genes suffice for viral RNA synthesis. |
Q30452146 | Vesicular stomatitis virus M protein may be inside the ribonucleocapsid coil. |
Q33768776 | Zanamivir: a review of its use in influenza |
Search more.