| # | Date |
Title Long |
Author |
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[ 1 ]
|
2009
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Cowpea mosaic virus chimeric particles bearing the ectodomain of matrix protein 2 (M2E) of the influenza a virus: Production and characterization [electronic resource].
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Meshcheryakova, Yu. A.
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[ 2 ]
|
2009
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PEAQ: versatile expression vectors for easy and quick transient expression of heterologous proteins in plants [electronic resource].
|
Sainsbury, Frank
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[ 3 ]
|
2009
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Serine Carboxypeptidase-Like Acyltransferase Is Required for Synthesis of Antimicrobial Compounds and Disease Resistance in Oats.
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Mugford, Sam T.
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[ 4 ]
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2008
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Expression of multiple proteins using full-length and deleted versions of cowpea mosaic virus RNA-2 [electronic resource].
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Sainsbury, Frank
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[ 5 ]
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2008
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Extremely High-Level and Rapid Transient Protein Production in Plants without the Use of Viral Replication.
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Sainsbury, Frank
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[ 6 ]
|
2008
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Layer-By-Layer Assembly of Viral Nanoparticles and Polyelectrolytes: The Film Architecture is Different for Spheres Versus Rods [electronic resource].
|
Steinmetz, Nicole F.
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[ 7 ]
|
2006
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Antibody derivative expressed from viral vectors passively immunizes pigs against transmissible gastroenteritis virus infection when supplied orally in crude plant extracts [electronic resource].
|
Monger, Wendy
|
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[ 8 ]
|
2006
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Bipartite system for the constitutive and inducible expression of high levels of foreign proteins in plants.
|
Cañizares, M. Carmen
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[ 9 ]
|
2004
|
Cowpea mosaic virus RNA-1 acts as an amplicon whose effects can be counteracted by a RNA-2-encoded suppressor of silencing.
|
Liu, L.
|
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[ 10 ]
|
2004
|
Sources of target specificity associated with the recovery against Pea seed-borne mosaic virus infection mediated by RNA silencing in pea.
|
Boogaart, T. van den
|
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[ 11 ]
|
2004
|
Surface-exposed C-terminal amino acids of the small coat protein of Cowpea mosaic virus are required for suppression of silencing.
|
Canizares, M.C.
|
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[ 12 ]
|
2003
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Cowpea mosaic virus-based chimaeras effects of inserted peptides on the phenotype, host range, and transmissibility of the modified viruses.
|
Porta, C.
|
|
[ 13 ]
|
2002
|
Molecular structures of viruses from Raman optical activity.
|
Blanch, E.W.
|
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[ 14 ]
|
2002
|
Viruses as vectors for the expression of foreign sequences in plants.
|
Porta, C.
|
|
[ 15 ]
|
2001
|
Replicase-derived resistance against Pea early browning virus in Nicotiana benthamiana is an unstable resistance based upon posttranscriptional gene silencing.
|
Boogaart, T. van den.
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|
[ 16 ]
|
2000
|
Association of phosphatidylinositol 3-kinase with nuclear transcription sites in higher plants.
|
Bunney, T.D.
|
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[ 17 ]
|
2000
|
Co-expression of the capsid proteins of Cowpea mosaic virus in insect cells lead to the formation of virus-like particles.
|
Shanks, M.
|
|
[ 18 ]
|
2000
|
Engineering cowpea mosaic virus RNA-2 into a vector to express heterologous proteins in plants.
|
Gopinath, K.
|
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[ 19 ]
|
2000
|
Glycosylation of the capsid proteins of cowpea mosaic virus: a reinvestigation shows the absence of sugar residues.
|
Altmann, F.
|
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[ 20 ]
|
2000
|
Structural fingerprinting: subgrouping of comoviruses by structural studies of red clover mottle virus to 2.4-angstroms resolution and comparisons with other comoviruses.
|
Lin, T.
|
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[ 21 ]
|
1999
|
Cleavable carboxyl-terminus of the small coat protein of cowpea mosaic virus is involved in RNA encapsidation.
|
Taylor, K.M.
|
|
[ 22 ]
|
1999
|
Position-dependent processing of peptides presented on the surface of cowpea mosaic virus.
|
Taylor, K.M.
|
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[ 23 ]
|
1999
|
Studies on hybrid comoviruses reveal the importance of three-dimensional structure for processing of the viral coat proteins and show that the specificity of cleavage is greater in trans than in cis.
|
Clark, A.J.
|
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[ 24 ]
|
1998
|
Can we explain RNA-mediated virus resistance by homology-dependent gene silencing?
|
Boogaart, T. van den.
|
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[ 25 ]
|
1998
|
Red clover mottle virus from Ukraine is an isolate of RCMV strain S.
|
Lapchic, L.G.
|
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[ 26 ]
|
1997
|
Coat and cylindrical inclusion proteins of a potyvirus are associated with connections between plant cells.
|
Rodriguez-Cerezo, E.
|
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[ 27 ]
|
1997
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Plant-derived vaccine protects target animals against a viral disease.
|
Dalsgaard, K.
|
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[ 28 ]
|
1997
|
Presentation of heterologous peptides on plant viruses: genetics, structure, and function.
|
Johnson, J.
|
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[ 29 ]
|
1996
|
24 kDa proteinases of comoviruses are virus-specific in cis as well as in trans.
|
Shanks, M.
|
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[ 30 ]
|
1996
|
Biological characteristics of maize dwarf mosaic potyvirus from Spain.
|
Achon, M.A.
|
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[ 31 ]
|
1996
|
Use of viral replicons for the expression of genes in plants.
|
Porta, C.
|
|
[ 32 ]
|
1995
|
Pathogen-derived resistance to plant viruses.
|
Lomonossoff, G.P.
|
|
[ 33 ]
|
1994
|
Characterisation of a maize-infecting potyvirus from Spain.
|
Achon, M.A.
|
|
[ 34 ]
|
1994
|
Correlation between the activities of five ribosome-inactivating proteins in depurination of tobacco ribosomes and inhibition of tobacco mosaic virus infection.
|
Taylor, S.
|
|
[ 35 ]
|
1994
|
Development of cowpea mosaic virus as a high-yielding system for the presentation of foreign peptides.
|
Porta, C.
|
|
[ 36 ]
|
1993
|
Cauliflower mosaic virus 35S promoter-controlled DNA copies of cowpea mosaic virus RNAs are infectious on plants.
|
Dessens, J.T.
|
|
[ 37 ]
|
1993
|
Expression of an animal virus antigenic site on the surface of a plant virus particle.
|
Usha, R.
|
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[ 38 ]
|
1993
|
Virus resistance mediated by a nonstructural viral gene sequence.
|
Lomonossoff, G.P.
|
|
[ 39 ]
|
1992
|
Comoviruses and enteroviruses share a T cell epitope.
|
Beck, M.A.
|
|
[ 40 ]
|
1992
|
Expression of cowpea mosaic virus coat protein precursor in transgenic tobacco plants.
|
Nida, D.L.
|
|
[ 41 ]
|
1992
|
Identification and characterization of pseudo-recombinants of red clover mottle comovirus.
|
Oxelfelt, P.
|
|
[ 42 ]
|
1992
|
Nucleotide sequence of red clover mottle virus bottom component RNA.
|
Shanks, M.
|
|
[ 43 ]
|
1992
|
Resistance to tobacco mosaic virus induced by the 54-kDa gene sequence requires expression of the 54-kDa protein.
|
Carr, J.P.
|
|
[ 44 ]
|
1992
|
Sequence upstream of the 24K protease enhances cleavage of the cowpea mosaic virus B RNA-encoded polyprotein at the junction between the 24K and 87K proteins.
|
Dessens, J.T.
|
|
[ 45 ]
|
1992
|
Structure and tobraviral particles: a model suggested from sequence conservation in tobraviral and tobamoviral coat proteins.
|
Goulden, M.G.
|
|
[ 46 ]
|
1991
|
Analysis of the nucleotide sequence of bean pod mottle virus middle component RNA.
|
MacFarlane, S.A.
|
|
[ 47 ]
|
1991
|
Complete nucleotide sequence of tobacco necrosis virus strain D.
|
Coutts, R.H.A.
|
|
[ 48 ]
|
1991
|
Mechanism of translation of cowpea mosaic virus middle componentRNA: no evidence for internal initiation from experiments in an animal cell transient expression system.
|
Belsham, G.J.
|
|
[ 49 ]
|
1991
|
Model for the generation of tobacco rattle virus (TRV) anomalous isolates: pea early browning virus RNA-2 acquires TRV sequences from both RNA-1 and RNA-2.
|
Goulden, M.G.
|
|
[ 50 ]
|
1991
|
Mutational analysis of the putative catalytic triad of the cowpea mosaic virus 24K protease.
|
Dessens, J.T.
|
|
[ 51 ]
|
1990
|
Plants transformed with a tobacco mosaic virus nonstructural gene sequence are resistant to the virus.
|
Golemboski, D.B.
|
|
[ 52 ]
|
1990
|
Primary structure of the 24K protease from red clover mottle virus: implications for the mode of action of comovirus proteases.
|
Shanks, M.
|
|
[ 53 ]
|
1989
|
Identification and subcellular localization of a putative cell-to-cell transport protein from red clover mottle virus.
|
Shanks, M.
|
|
[ 54 ]
|
1989
|
Identification of the initiation codons for translation of cowpea mosaic virus middle component RNA using site-directed mutagenesis of an infectious cDNA clone.
|
Holness, C.L.
|
|
[ 55 ]
|
1989
|
Protein-RNA interactions in an icosahedral virus at 3.0 agstrom resolution.
|
Chen, Z.
|
|
[ 56 ]
|
1986
|
Primary structure of red clover mottle virus middle component RNA.
|
Shanks, M.
|
|
[ 57 ]
|
1986
|
Stability of cowpea mosaic virus VPg in reticulocyte lysates.
|
de Varennes, A.
|
|
[ 58 ]
|
1985
|
Double-stranded, replicative form RNA molecules of cowpea mosaic virus are not infectious.
|
Shanks, M.
|
|
[ 59 ]
|
1985
|
Structure and in vitro assembly of tobacco mosaic virus.
|
Lomonossoff, G.P.
|
|
[ 60 ]
|
1985
|
Structure of cowpea mosaic virus replicative form RNA.
|
Lomonossoff, G.P.
|
|
[ 61 ]
|
1984
|
Cowpea mosaic virus VPg: sequencing of radiochemically modified protein allows mapping of the gene on B RNA.
|
Zabel, P.
|
|
[ 62 ]
|
1984
|
Homologous sequences in non-structural proteins from cowpea mosaic virus and picornaviruses.
|
Franssen, H.
|
|
[ 63 ]
|
1983
|
Nucleotide sequence of cowpea mosaic virus B RNA.
|
Lomonossoff, G.P.
|
|
[ 64 ]
|
1983
|
Nucleotide sequence of tobacco mosaic virus RNA.
|
Goelet, P.
|
|
[ 65 ]
|
1982
|
Nocleotide sequence of tobacco mosaic virus RNA.
|
Goelet, P.
|
|
[ 66 ]
|
1981
|
Dimethyl sulphoxide (DMSO) disassembles tobacco mosaic virus predominantly from the 5'-end of the viral RNA.
|
Wilson, T.M.A.
|
|
[ 67 ]
|
1980
|
Assembly of tobacco mosaic virus: elongation towards the 3'-hydroxyl terminus of the RNA.
|
Lomonossoff, G.P.
|
|
[ 68 ]
|
1979
|
Location and encapsidation of the coat protein cistron of tobacco mosaic virus. A bidirectional elongation of the nucleoprotein rod.
|
Lomonossoff, G.P.
|
|
[ 69 ]
|
1978
|
Quantized incorporation of RNA during assembly of tobacco mosaic virus from protein disks.
|
Butler, P.J.G.
|
|
[ 70 ]
|
1978
|
Quantized incorporation of RNA during assembly of tobacco mosaic virus from protein disks.
|
Butler, P.J.G.
|
