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Virology
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September 1, 1990
Mapping sequences required for productive replication of beet necrotic yellow vein virus RNA 3
I Jupin, K Richards, G Jonard, et al.
Archives of Virology
|
January 1, 1997
Evidence for in vitro and in vivo autocatalytic processing of the primary translation product of beet necrotic yellow vein virus RNA 1 by a papain-like proteinase
A Hehn, C Fritsch, K E Richards, et al.
Virology
|
August 1, 1994
Nucleotide sequence of cucurbit aphid-borne yellows luteovirus
H Guilley, C Wipf-Scheibel, K Richards, et al.
European Journal of Biochemistry
|
February 1, 1977
Nucleotide sequence (n=159) of the amino-acid-accepting 3'-OH extremity of turnip-yellow-mosaic-virus RNA and the last portion of its coat-protein cistron
J P Briand, G Jonard, H Guilley, et al.
The Journal of General Virology
|
February 24, 1998
Vascular movement of beet necrotic yellow vein virus in Beta macrocarpa is probably dependent on an RNA 3 sequence domain rather than a gene product
E Lauber, H Guilley, T Tamada, et al.
Cell
|
October 1, 1982
Transcription of Cauliflower mosaic virus DNA: detection of promoter sequences, and characterization of transcripts
H Guilley, R K Dudley, G Jonard, et al.
Gene
|
January 1, 1985
Chimeric vector construction for higher-plant transformation
E Balázs, S Bouzoubaa, H Guilley, et al.
Virology
|
July 1, 1992
Efficient cell-to-cell movement of beet necrotic yellow vein virus requires 3' proximal genes located on RNA 2
D Gilmer, S Bouzoubaa, A Hehn, et al.
Virology
|
August 4, 2001
Beet necrotic yellow vein virus particles localize to mitochondria during infection
M Erhardt, P Dunoyer, H Guilley, et al.
The Journal of General Virology
|
July 1, 1996
High resolution analysis of the readthrough domain of beet necrotic yellow vein virus readthrough protein: a KTER motif is important for efficient transmission of the virus by Polymyxa betae
T Tamada, C Schmitt, M Saito, et al.
Page
of 8
Search research articles
Search
Showing results (41-50 of 71) with videos related to
Sort By:
Page
of 8
Virology
|
September 1, 1990
Mapping sequences required for productive replication of beet necrotic yellow vein virus RNA 3
I Jupin, K Richards, G Jonard, et al.
Archives of Virology
|
January 1, 1997
Evidence for in vitro and in vivo autocatalytic processing of the primary translation product of beet necrotic yellow vein virus RNA 1 by a papain-like proteinase
A Hehn, C Fritsch, K E Richards, et al.
Virology
|
August 1, 1994
Nucleotide sequence of cucurbit aphid-borne yellows luteovirus
H Guilley, C Wipf-Scheibel, K Richards, et al.
European Journal of Biochemistry
|
February 1, 1977
Nucleotide sequence (n=159) of the amino-acid-accepting 3'-OH extremity of turnip-yellow-mosaic-virus RNA and the last portion of its coat-protein cistron
J P Briand, G Jonard, H Guilley, et al.
The Journal of General Virology
|
February 24, 1998
Vascular movement of beet necrotic yellow vein virus in Beta macrocarpa is probably dependent on an RNA 3 sequence domain rather than a gene product
E Lauber, H Guilley, T Tamada, et al.
Cell
|
October 1, 1982
Transcription of Cauliflower mosaic virus DNA: detection of promoter sequences, and characterization of transcripts
H Guilley, R K Dudley, G Jonard, et al.
Gene
|
January 1, 1985
Chimeric vector construction for higher-plant transformation
E Balázs, S Bouzoubaa, H Guilley, et al.
Virology
|
July 1, 1992
Efficient cell-to-cell movement of beet necrotic yellow vein virus requires 3' proximal genes located on RNA 2
D Gilmer, S Bouzoubaa, A Hehn, et al.
Virology
|
August 4, 2001
Beet necrotic yellow vein virus particles localize to mitochondria during infection
M Erhardt, P Dunoyer, H Guilley, et al.
The Journal of General Virology
|
July 1, 1996
High resolution analysis of the readthrough domain of beet necrotic yellow vein virus readthrough protein: a KTER motif is important for efficient transmission of the virus by Polymyxa betae
T Tamada, C Schmitt, M Saito, et al.
Page
of 8