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Protein Engineering
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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
Biofizika
|
May 1, 1990
[Determination of the folding of globular protein chain by the self-consistent field method]
A V Finkel'shteĭn, B A Reva
Protein Engineering
|
May 1, 1996
Search for the most stable folds of protein chains: II. Computation of stable architectures of beta-proteins using a self-consistent molecular field theory
B A Reva, A V Finkelstein
Protein Engineering
|
October 1, 1992
Search for the stable state of a short chain in a molecular field
A V Finkelstein, B A Reva
Methods in Molecular Biology (Clifton, N.J.)
|
November 21, 2000
Derivation and testing residue-residue mean-force potentials for use in protein structure recognition
B A Reva, A V Finkelstein, J Skolnick
Folding & Design
|
May 5, 1998
What is the probability of a chance prediction of a protein structure with an rmsd of 6 A?
B A Reva, A V Finkelstein, J Skolnick
Proteins
|
May 18, 1999
Averaging interaction energies over homologs improves protein fold recognition in gapless threading
B A Reva, J Skolnick, A V Finkelstein
Molekuliarnaia Biologiia
|
July 1, 1994
[A rapid and precise method for lattice approximation of the course of a protein chain based on a dynamic programming algorithm]
D S Rykunov, B A Reva, A V Finkel'shteĭn
Page
of 2
Search research articles
Search
Showing results (1-10 of 20) with videos related to
Sort By:
Page
of 2
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
Biofizika
|
May 1, 1990
[Determination of the folding of globular protein chain by the self-consistent field method]
A V Finkel'shteĭn, B A Reva
Protein Engineering
|
May 1, 1996
Search for the most stable folds of protein chains: II. Computation of stable architectures of beta-proteins using a self-consistent molecular field theory
B A Reva, A V Finkelstein
Protein Engineering
|
October 1, 1992
Search for the stable state of a short chain in a molecular field
A V Finkelstein, B A Reva
Methods in Molecular Biology (Clifton, N.J.)
|
November 21, 2000
Derivation and testing residue-residue mean-force potentials for use in protein structure recognition
B A Reva, A V Finkelstein, J Skolnick
Folding & Design
|
May 5, 1998
What is the probability of a chance prediction of a protein structure with an rmsd of 6 A?
B A Reva, A V Finkelstein, J Skolnick
Proteins
|
May 18, 1999
Averaging interaction energies over homologs improves protein fold recognition in gapless threading
B A Reva, J Skolnick, A V Finkelstein
Molekuliarnaia Biologiia
|
July 1, 1994
[A rapid and precise method for lattice approximation of the course of a protein chain based on a dynamic programming algorithm]
D S Rykunov, B A Reva, A V Finkel'shteĭn
Page
of 2