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Canadian Medical Association Journal
|
March 24, 2010
THE TREATMENT OF PNEUMOCOCCAL PNEUMONIA WITH DAGENAN (M. & B. 693)
D Graham, W P Warner, J A Dauphinee, et al.
Molecular and Cellular Biology
|
May 1, 1992
The signal for glucose repression of the lactose-galactose regulon is amplified through subtle modulation of transcription of the Kluyveromyces lactis Kl-GAL4 activator gene
N Kuzhandaivelu, W K Jones, A K Martin, et al.
Molecular and Cellular Biology
|
May 1, 1990
Isolation of mutant Saccharomyces cerevisiae strains that survive without sphingolipids
R C Dickson, G B Wells, A Schmidt, et al.
Journal of Bacteriology
|
November 1, 1992
Phenotypes of sphingolipid-dependent strains of Saccharomyces cerevisiae
J L Patton, B Srinivasan, R C Dickson, et al.
The Journal of Biological Chemistry
|
December 15, 1990
The transcription factor LAC9 from Kluyveromyces lactis-like GAL4 from Saccharomyces cerevisiae forms a Zn(II)2Cys6 binuclear cluster
T Pan, Y D Halvorsen, R C Dickson, et al.
Science (New York, N.Y.)
|
January 10, 1975
Genetic regulation: the Lac control region
R C Dickson, J Abelson, W M Barnes, et al.
Current Genetics
|
January 25, 2002
Elevation of endogenous sphingolipid long-chain base phosphates kills Saccharomyces cerevisiae cells
X Zhang, M S Skrzypek, R L Lester, et al.
The Journal of Biological Chemistry
|
January 15, 1993
Mutant strains of Saccharomyces cerevisiae lacking sphingolipids synthesize novel inositol glycerophospholipids that mimic sphingolipid structures
R L Lester, G B Wells, G Oxford, et al.
The Journal of Biological Chemistry
|
October 15, 1993
A suppressor gene that enables Saccharomyces cerevisiae to grow without making sphingolipids encodes a protein that resembles an Escherichia coli fatty acyltransferase
M M Nagiec, G B Wells, R L Lester, et al.
Journal of Bacteriology
|
February 11, 1999
Analysis of phosphorylated sphingolipid long-chain bases reveals potential roles in heat stress and growth control in Saccharomyces
M S Skrzypek, M M Nagiec, R L Lester, et al.
Page
of 13
Search research articles
Search
Showing results (71-80 of 125) with videos related to
Sort By:
Page
of 13
Canadian Medical Association Journal
|
March 24, 2010
THE TREATMENT OF PNEUMOCOCCAL PNEUMONIA WITH DAGENAN (M. & B. 693)
D Graham, W P Warner, J A Dauphinee, et al.
Molecular and Cellular Biology
|
May 1, 1992
The signal for glucose repression of the lactose-galactose regulon is amplified through subtle modulation of transcription of the Kluyveromyces lactis Kl-GAL4 activator gene
N Kuzhandaivelu, W K Jones, A K Martin, et al.
Molecular and Cellular Biology
|
May 1, 1990
Isolation of mutant Saccharomyces cerevisiae strains that survive without sphingolipids
R C Dickson, G B Wells, A Schmidt, et al.
Journal of Bacteriology
|
November 1, 1992
Phenotypes of sphingolipid-dependent strains of Saccharomyces cerevisiae
J L Patton, B Srinivasan, R C Dickson, et al.
The Journal of Biological Chemistry
|
December 15, 1990
The transcription factor LAC9 from Kluyveromyces lactis-like GAL4 from Saccharomyces cerevisiae forms a Zn(II)2Cys6 binuclear cluster
T Pan, Y D Halvorsen, R C Dickson, et al.
Science (New York, N.Y.)
|
January 10, 1975
Genetic regulation: the Lac control region
R C Dickson, J Abelson, W M Barnes, et al.
Current Genetics
|
January 25, 2002
Elevation of endogenous sphingolipid long-chain base phosphates kills Saccharomyces cerevisiae cells
X Zhang, M S Skrzypek, R L Lester, et al.
The Journal of Biological Chemistry
|
January 15, 1993
Mutant strains of Saccharomyces cerevisiae lacking sphingolipids synthesize novel inositol glycerophospholipids that mimic sphingolipid structures
R L Lester, G B Wells, G Oxford, et al.
The Journal of Biological Chemistry
|
October 15, 1993
A suppressor gene that enables Saccharomyces cerevisiae to grow without making sphingolipids encodes a protein that resembles an Escherichia coli fatty acyltransferase
M M Nagiec, G B Wells, R L Lester, et al.
Journal of Bacteriology
|
February 11, 1999
Analysis of phosphorylated sphingolipid long-chain bases reveals potential roles in heat stress and growth control in Saccharomyces
M S Skrzypek, M M Nagiec, R L Lester, et al.
Page
of 13