2007 |
10 | EE | Michal Brylinski,
Leszek Konieczny,
Irena Roterman:
Is the protein folding an aim-oriented process? Human haemoglobin as example.
IJBRA 3(2): 234-260 (2007) |
2006 |
9 | EE | Michal Brylinski,
Leszek Konieczny,
Irena Roterman:
Hydrophobic collapse in (in silico) protein folding.
Computational Biology and Chemistry 30(4): 255-267 (2006) |
2004 |
8 | EE | Michal Brylinski,
W. Jurkowski,
Leszek Konieczny,
Irena Roterman:
Limited conformational space for early-stage protein folding simulation.
Bioinformatics 20(2): 199-205 (2004) |
7 | EE | Michal Brylinski,
Leszek Konieczny,
Irena Roterman:
SPI - Structure predictability index for protein sequences.
In Silico Biology 5: (2004) |
6 | | Marcin Król,
Tomasz Borowski,
Irena Roterman,
Barbara Piekarska,
Barbara Stopa,
Joanna Rybarska,
Leszek Konieczny:
Force-field parametrization and molecular dynamics simulations of Congo red.
Journal of Computer-Aided Molecular Design 18(1): 41-53 (2004) |
2003 |
5 | | Jacek Leluk,
Leszek Konieczny,
Irena Roterman:
Search for structural similarity in proteins.
Bioinformatics 19(1): 117-124 (2003) |
2000 |
4 | EE | Marek Skowronek,
Irena Roterman,
Leszek Konieczny,
Barbara Stopa,
Janina Rybarska,
Barbara Piekarska,
Andrzej Górecki,
Marek Król:
The Conformational Characteristics of Congo Red, Evans Blue and Trypan Blue.
Computers & Chemistry 24(3-4): 429-450 (2000) |
3 | EE | Marek Skowronek,
Irena Roterman,
Leszek Konieczny,
Barbara Stopa,
Janina Rybarska,
Barbara Piekarska:
Why do Congo Red, Evans Blue, and Trypan Blue differ in their complexation properties?
Journal of Computational Chemistry 21(8): 656-667 (2000) |
1998 |
2 | EE | Irena Roterman,
Janina Rybarska,
Leszek Konieczny,
Marek Skowronek,
Barbara Stopa,
Barbara Piekarska,
Grzegorz Bakalarski:
Congo Red Bound to -1-Proteinase Inhibitor As a Model of Supramolecular Ligand and Protein Complex.
Computers & Chemistry 22(1): 61-70 (1998) |
1995 |
1 | EE | Irena Roterman,
Leszek Konieczny:
Geometrical Analysis of Structural Changes in Immunoglobulin Domains' Transition From Native to Molten State.
Computers & Chemistry 19(3): 247-252 (1995) |