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A V Finkelstein

Showing results (41-50 of 76) with videos related to

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Methods in Molecular Biology (Clifton, N.J.)|November 21, 2000
Derivation and testing residue-residue mean-force potentials for use in protein structure recognitionB A Reva, A V Finkelstein, J Skolnick
Sub-Cellular Biochemistry|January 1, 1995
Boltzmann-like statistics of protein architectures. Origins and consequencesA V Finkelstein, A M Gutin, Badretdinov AYa
FEBS Letters|May 1, 1979
Principal folding pathway and topology of all-beta proteinsO B Ptitsyn, A V Finkelstein, P Falk
Proteins|May 18, 1999
Averaging interaction energies over homologs improves protein fold recognition in gapless threadingB A Reva, J Skolnick, A V Finkelstein
FEBS Letters|June 28, 1993
Why are the same protein folds used to perform different functions?A V Finkelstein, A M Gutun, Badretdinov AYa
Proteins|January 1, 1991
Physical reasons for secondary structure stability: alpha-helices in short peptidesA V Finkelstein, A Y Badretdinov, O B Ptitsyn
FEBS Letters|December 1, 1975
Prediction of the three-dimensional structure for ribosomal protein L25A V Finkelstein, S A Kozitsyn, O B Ptitsyn
Molekuliarnaia Biologiia|January 12, 2019
[Intersubunit Mobility of the Ribosome]A V Finkelstein, S V Razin, A S Spirin
Proteins|June 1, 1995
Accurate general method for lattice approximation of three-dimensional structure of a chain moleculeD S Rykunov, B A Reva, A V Finkelstein
Proteins|June 22, 2000
Search for the most stable folds of protein chains: III. Improvement in fold recognition by averaging over homologous sequences and 3D structuresD S Rykunov, M Y Lobanov, A V Finkelstein
Pageof 8

Showing results (41-50 of 76) with videos related to

Sort By:
Pageof 8
Methods in Molecular Biology (Clifton, N.J.)|November 21, 2000
Derivation and testing residue-residue mean-force potentials for use in protein structure recognitionB A Reva, A V Finkelstein, J Skolnick
Sub-Cellular Biochemistry|January 1, 1995
Boltzmann-like statistics of protein architectures. Origins and consequencesA V Finkelstein, A M Gutin, Badretdinov AYa
FEBS Letters|May 1, 1979
Principal folding pathway and topology of all-beta proteinsO B Ptitsyn, A V Finkelstein, P Falk
Proteins|May 18, 1999
Averaging interaction energies over homologs improves protein fold recognition in gapless threadingB A Reva, J Skolnick, A V Finkelstein
FEBS Letters|June 28, 1993
Why are the same protein folds used to perform different functions?A V Finkelstein, A M Gutun, Badretdinov AYa
Proteins|January 1, 1991
Physical reasons for secondary structure stability: alpha-helices in short peptidesA V Finkelstein, A Y Badretdinov, O B Ptitsyn
FEBS Letters|December 1, 1975
Prediction of the three-dimensional structure for ribosomal protein L25A V Finkelstein, S A Kozitsyn, O B Ptitsyn
Molekuliarnaia Biologiia|January 12, 2019
[Intersubunit Mobility of the Ribosome]A V Finkelstein, S V Razin, A S Spirin
Proteins|June 1, 1995
Accurate general method for lattice approximation of three-dimensional structure of a chain moleculeD S Rykunov, B A Reva, A V Finkelstein
Proteins|June 22, 2000
Search for the most stable folds of protein chains: III. Improvement in fold recognition by averaging over homologous sequences and 3D structuresD S Rykunov, M Y Lobanov, A V Finkelstein
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