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Yeast (Chichester, England)
|
April 1, 1996
The sequence of a 17,933 bp segment of Saccharomyces cerevisiae chromosome XIV contains the RHO2, TOP2, MKT1 and END3 genes and five new open reading frames
A Soler-Mira, J E Saiz, J P Ballesta, et al.
The Journal of Biological Chemistry
|
July 5, 1988
Independent genes coding for three acidic proteins of the large ribosomal subunit from Saccharomyces cerevisiae
M Remacha, M T Sáenz-Robles, M D Vilella, et al.
The Journal of Biological Chemistry
|
February 11, 1994
Effect of acidic ribosomal phosphoprotein mRNA 5'-untranslated region on gene expression and protein accumulation
B Bermejo, M Remacha, B Ortiz-Reyes, et al.
Antimicrobial Agents and Chemotherapy
|
July 27, 2004
Ribosomal P0 protein domain involved in selectivity of antifungal sordarin derivatives
C Santos, M A Rodríguez-Gabriel, M Remacha, et al.
Molecular Microbiology
|
November 2, 2002
Characterization of interaction sites in the Saccharomyces cerevisiae ribosomal stalk components
V S Lalioti, J Pérez-Fernández, M Remacha, et al.
Biochemistry
|
April 27, 1993
The acidic phosphoproteins from Saccharomyces cerevisiae ribosomes. NH2-terminal acetylation is a conserved difference between P1 and P2 proteins
C Santos, B Ortiz-Reyes, T Naranda, et al.
European Journal of Biochemistry
|
March 14, 1991
Characterization of the yeast acidic ribosomal phosphoproteins using monoclonal antibodies. Proteins L44/L45 and L44' have different functional roles
M D Vilella, M Remacha, B L Ortiz, et al.
Journal of Bacteriology
|
May 1, 1995
Chlamydia trachomatis RNA polymerase alpha subunit: sequence and structural analysis
L Gu, W M Wenman, M Remacha, et al.
Biochemistry
|
June 20, 1995
Eukaryotic acidic phosphoproteins interact with the ribosome through their amino-terminal domain
M P Jose, H Santana-Roman, M Remacha, et al.
Biochemistry
|
July 29, 2000
Structural differences between Saccharomyces cerevisiae ribosomal stalk proteins P1 and P2 support their functional diversity
J Zurdo, C González, J M Sanz, et al.
Page
of 5
Search research articles
Search
Showing results (21-30 of 43) with videos related to
Sort By:
Page
of 5
Yeast (Chichester, England)
|
April 1, 1996
The sequence of a 17,933 bp segment of Saccharomyces cerevisiae chromosome XIV contains the RHO2, TOP2, MKT1 and END3 genes and five new open reading frames
A Soler-Mira, J E Saiz, J P Ballesta, et al.
The Journal of Biological Chemistry
|
July 5, 1988
Independent genes coding for three acidic proteins of the large ribosomal subunit from Saccharomyces cerevisiae
M Remacha, M T Sáenz-Robles, M D Vilella, et al.
The Journal of Biological Chemistry
|
February 11, 1994
Effect of acidic ribosomal phosphoprotein mRNA 5'-untranslated region on gene expression and protein accumulation
B Bermejo, M Remacha, B Ortiz-Reyes, et al.
Antimicrobial Agents and Chemotherapy
|
July 27, 2004
Ribosomal P0 protein domain involved in selectivity of antifungal sordarin derivatives
C Santos, M A Rodríguez-Gabriel, M Remacha, et al.
Molecular Microbiology
|
November 2, 2002
Characterization of interaction sites in the Saccharomyces cerevisiae ribosomal stalk components
V S Lalioti, J Pérez-Fernández, M Remacha, et al.
Biochemistry
|
April 27, 1993
The acidic phosphoproteins from Saccharomyces cerevisiae ribosomes. NH2-terminal acetylation is a conserved difference between P1 and P2 proteins
C Santos, B Ortiz-Reyes, T Naranda, et al.
European Journal of Biochemistry
|
March 14, 1991
Characterization of the yeast acidic ribosomal phosphoproteins using monoclonal antibodies. Proteins L44/L45 and L44' have different functional roles
M D Vilella, M Remacha, B L Ortiz, et al.
Journal of Bacteriology
|
May 1, 1995
Chlamydia trachomatis RNA polymerase alpha subunit: sequence and structural analysis
L Gu, W M Wenman, M Remacha, et al.
Biochemistry
|
June 20, 1995
Eukaryotic acidic phosphoproteins interact with the ribosome through their amino-terminal domain
M P Jose, H Santana-Roman, M Remacha, et al.
Biochemistry
|
July 29, 2000
Structural differences between Saccharomyces cerevisiae ribosomal stalk proteins P1 and P2 support their functional diversity
J Zurdo, C González, J M Sanz, et al.
Page
of 5