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Journal of Molecular Biology
|
May 5, 1976
A theory of protein molecule self-organization. IV. Helical and irregular local structures of unfolded protein chains
A V Finkelstein, O B Ptitsyn
Protein Engineering
|
October 1, 1992
Search for the stable state of a short chain in a molecular field
A V Finkelstein, B A Reva
Progress in Biophysics and Molecular Biology
|
January 1, 1987
Why do globular proteins fit the limited set of folding patterns?
A V Finkelstein, O B Ptitsyn
Biopolymers
|
October 1, 1989
Theory of cooperative transitions in protein molecules. I. Why denaturation of globular protein is a first-order phase transition
E I Shakhnovich, A V Finkelstein
Biopolymers
|
October 1, 1989
Theory of cooperative transitions in protein molecules. II. Phase diagram for a protein molecule in solution
A V Finkelstein, E I Shakhnovich
Journal of Molecular Biology
|
December 5, 1988
General architecture of the alpha-helical globule
A G Murzin, A V Finkelstein
Protein Engineering
|
September 1, 1995
Folding of chains with random and edited sequences: similarities and differences
O V Galzitskaya, A V Finkelstein
Protein Engineering
|
October 1, 1992
A new approach to the design of a sequence with the highest affinity for a molecular surface
B A Reva, A V Finkelstein
Protein Engineering
|
May 1, 1996
Search for the most stable folds of protein chains: I. Application of a self-consistent molecular field theory to a problem of protein three-dimensional structure prediction
A V Finkelstein, B A Reva
Nature
|
June 6, 1991
A search for the most stable folds of protein chains
A V Finkelstein, B A Reva
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of 8
Search research articles
Search
Showing results (21-30 of 76) with videos related to
Sort By:
Page
of 8
Journal of Molecular Biology
|
May 5, 1976
A theory of protein molecule self-organization. IV. Helical and irregular local structures of unfolded protein chains
A V Finkelstein, O B Ptitsyn
Protein Engineering
|
October 1, 1992
Search for the stable state of a short chain in a molecular field
A V Finkelstein, B A Reva
Progress in Biophysics and Molecular Biology
|
January 1, 1987
Why do globular proteins fit the limited set of folding patterns?
A V Finkelstein, O B Ptitsyn
Biopolymers
|
October 1, 1989
Theory of cooperative transitions in protein molecules. I. Why denaturation of globular protein is a first-order phase transition
E I Shakhnovich, A V Finkelstein
Biopolymers
|
October 1, 1989
Theory of cooperative transitions in protein molecules. II. Phase diagram for a protein molecule in solution
A V Finkelstein, E I Shakhnovich
Journal of Molecular Biology
|
December 5, 1988
General architecture of the alpha-helical globule
A G Murzin, A V Finkelstein
Protein Engineering
|
September 1, 1995
Folding of chains with random and edited sequences: similarities and differences
O V Galzitskaya, A V Finkelstein
Protein Engineering
|
October 1, 1992
A new approach to the design of a sequence with the highest affinity for a molecular surface
B A Reva, A V Finkelstein
Protein Engineering
|
May 1, 1996
Search for the most stable folds of protein chains: I. Application of a self-consistent molecular field theory to a problem of protein three-dimensional structure prediction
A V Finkelstein, B A Reva
Nature
|
June 6, 1991
A search for the most stable folds of protein chains
A V Finkelstein, B A Reva
Page
of 8