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Protein Science : a Publication of the Protein Society
|
April 18, 2001
Proline in alpha-helical kink is required for folding kinetics but not for kinked structure, function, or stability of heat shock transcription factor
J A Hardy, H C Nelson
The EMBO Journal
|
January 3, 1995
Determination of heat-shock transcription factor 2 stoichiometry at looped DNA complexes using scanning force microscopy
C Wyman, E Grotkopp, C Bustamante, et al.
Journal of Molecular Biology
|
January 7, 2000
Role of an alpha-helical bulge in the yeast heat shock transcription factor
J A Hardy, S T Walsh, H C Nelson
Nature Structural Biology
|
September 1, 1994
Mutational analysis of the DNA-binding domain of yeast heat shock transcription factor
S T Hubl, J C Owens, H C Nelson
Proceedings of the National Academy of Sciences of the United States of America
|
May 1, 1983
Mutations in lambda repressor's amino-terminal domain: implications for protein stability and DNA binding
M H Hecht, H C Nelson, R T Sauer
Journal of Molecular Biology
|
November 21, 1997
The GCN4 leucine zipper can functionally substitute for the heat shock transcription factor's trimerization domain
B L Drees, E K Grotkopp, H C Nelson
Science (New York, N.Y.)
|
January 14, 1994
Crystal structure of the DNA binding domain of the heat shock transcription factor
C J Harrison, A A Bohm, H C Nelson
Cold Spring Harbor Symposia on Quantitative Biology
|
January 1, 1983
Mutations defining the operator-binding sites of bacteriophage lambda repressor
H C Nelson, M H Hecht, R T Sauer
The Journal of Biological Chemistry
|
August 18, 2001
The DNA-binding domain of yeast heat shock transcription factor independently regulates both the N- and C-terminal activation domains
A L Bulman, S T Hubl, H C Nelson
The Journal of Biological Chemistry
|
April 29, 1994
Yeast heat shock transcription factor contains a flexible linker between the DNA-binding and trimerization domains. Implications for DNA binding by trimeric proteins
K E Flick, L Gonzalez, C J Harrison, et al.
Page
of 3
Search research articles
Search
Showing results (11-20 of 30) with videos related to
Sort By:
Page
of 3
Protein Science : a Publication of the Protein Society
|
April 18, 2001
Proline in alpha-helical kink is required for folding kinetics but not for kinked structure, function, or stability of heat shock transcription factor
J A Hardy, H C Nelson
The EMBO Journal
|
January 3, 1995
Determination of heat-shock transcription factor 2 stoichiometry at looped DNA complexes using scanning force microscopy
C Wyman, E Grotkopp, C Bustamante, et al.
Journal of Molecular Biology
|
January 7, 2000
Role of an alpha-helical bulge in the yeast heat shock transcription factor
J A Hardy, S T Walsh, H C Nelson
Nature Structural Biology
|
September 1, 1994
Mutational analysis of the DNA-binding domain of yeast heat shock transcription factor
S T Hubl, J C Owens, H C Nelson
Proceedings of the National Academy of Sciences of the United States of America
|
May 1, 1983
Mutations in lambda repressor's amino-terminal domain: implications for protein stability and DNA binding
M H Hecht, H C Nelson, R T Sauer
Journal of Molecular Biology
|
November 21, 1997
The GCN4 leucine zipper can functionally substitute for the heat shock transcription factor's trimerization domain
B L Drees, E K Grotkopp, H C Nelson
Science (New York, N.Y.)
|
January 14, 1994
Crystal structure of the DNA binding domain of the heat shock transcription factor
C J Harrison, A A Bohm, H C Nelson
Cold Spring Harbor Symposia on Quantitative Biology
|
January 1, 1983
Mutations defining the operator-binding sites of bacteriophage lambda repressor
H C Nelson, M H Hecht, R T Sauer
The Journal of Biological Chemistry
|
August 18, 2001
The DNA-binding domain of yeast heat shock transcription factor independently regulates both the N- and C-terminal activation domains
A L Bulman, S T Hubl, H C Nelson
The Journal of Biological Chemistry
|
April 29, 1994
Yeast heat shock transcription factor contains a flexible linker between the DNA-binding and trimerization domains. Implications for DNA binding by trimeric proteins
K E Flick, L Gonzalez, C J Harrison, et al.
Page
of 3