Selected references:
<ol>
<li>
-C. Czaplewski, A. Karczyńska, A.K. Sieradzan, A. Liwo.<br>
+C. Czaplewski, A. Karczyńska, A.K. Sieradzan, A. Liwo.
UNRES server for physics-based coarse-grained simulations and prediction of
protein structure, dynamics and thermodynamics.<br>
<i> Nucleic Acids Res.</i> 2018, 46. W304-W309.
<li>
A. Liwo, C. Czaplewski, S. Oldziej, A.V. Rojas, R. Kazmierkiewicz, M.
-Makowski, R.K. Murarka, H.A. Scheraga. <br>Simulation of protein structure and
+Makowski, R.K. Murarka, H.A. Scheraga. Simulation of protein structure and
dynamics with the coarse-grained UNRES force field. <br>In: <i>Coarse-Graining of
Condensed Phase and Biomolecular Systems.</i>, ed. G. Voth, Taylor & Francis,
2008, Chapter 8, pp. 107-122
</li>
<li>
-Y. He, Y. Xiao, A. Liwo, H.A. Scheraga. <br>Exploring the parameter space of the
+Y. He, Y. Xiao, A. Liwo, H.A. Scheraga. Exploring the parameter space of the
coarse-grained UNRES force field by random search: selecting a transferable
medium-resolution force field. <br>
<i>J. Comput. Chem.</i> 2009, 30, 2127-2135.
<li>
A. Liwo, S. Ołdziej, C. Czaplewski, D. Kleinerman, P. Blood and H.A.
-Scheraga. <br>Implementation of molecular dynamics and its extensions with the
+Scheraga. Implementation of molecular dynamics and its extensions with the
coarse-grained UNRES force field on massively parallel systems; towards
millisecond-scale simulations of protein structure, dynamics, and
thermodynamics.<br> <i>J. Chem. Theory Comput.</i> 2010, 6, 890-909.
A. Liwo, M. Baranowski, C. Czaplewski, E. Gołaś, Y. He, D. Jagieła,
P. Krupa, M. Maciejczyk, M. Makowski, M.A. Mozolewska, A. Niadzvedtski,
S. Ołdziej, H.A. Scheraga, A.K. Sieradzan, R. Ślusarz, T. Wirecki, Y. Yin,
-B. Zaborowski.<br>
+B. Zaborowski.
A unified coarse-grained model of biological macromolecules based on
mean-field multipole-multipole interactions.<br>
<i>J. Mol. Model.</i> 2014, 20, 1-15.
</li>
<li>
-A.K. Sieradzan, P. Krupa, H.A. Scheraga, A. Liwo, C. Czaplewski.<br>
+A.K. Sieradzan, P. Krupa, H.A. Scheraga, A. Liwo, C. Czaplewski.
Physics-based potentials for the coupling between backbone- and
side-chain-local conformational states in the United Residue (UNRES) force
field for protein simulations.<br>
</li>
<li>
-P. Krupa, A. Hałabis, W. Żmudzińska, S. Ołdziej, H.A. Scheraga, A. Liwo.<br>
+P. Krupa, A. Hałabis, W. Żmudzińska, S. Ołdziej, H.A. Scheraga, A. Liwo.
Maximum Likelihood Calibration of the UNRES Force Field for Simulation of
Protein Structure and Dynamics.<br>
<i>J. Chem. Inf. Model.</i> 2017, 57, 2364–2377.
<li>
A. Karczyńska, M.A. Mozolewska, P. Krupa, A. Giełdoń, A. Liwo, C.
-Czaplewski. <br>Prediction of protein structure with the coarse-grained UNRES
+Czaplewski. Prediction of protein structure with the coarse-grained UNRES
force field assisted by small X-ray scattering data and knowledge-based
information.<br>
<i>Proteins: Struct. Funct. Bioinf.</i> 2018, 86, 228-239.
<li>
A. Liwo, A.K. Sieradzan, A.G. Lipska, C. Czaplewski, I.
-Joung, W. Żmudzińska, A. Hałabis, S. Ołdziej.<br>
+Joung, W. Żmudzińska, A. Hałabis, S. Ołdziej.
A general method for the derivation of the functional forms of the effective
energy terms in coarse-grained energy functions of polymers. III.
Determination of scale-consistent backbone-local and correlation potentials
<li>
E.A. Lubecka, A.S. Karczyńska, A.G. Lipska, A.K.Sieradzan, K. Zięba, C. Sikorska,
U. Uciechowska, S.A. Samsonov, P. Krupa, M.A. Mozolewska, Ł. Golon, A. Giełdoń,
-C. Czaplewski, R. Ślusarz, M. Ślusarz, S.N. Crivelli, A. Liwo.<br>
+C. Czaplewski, R. Ślusarz, M. Ślusarz, S.N. Crivelli, A. Liwo.
Evaluation of the scale-consistent UNRES force field in template-free
prediction of protein structures in the CASP13 experiment.<br>
<i>J. Mol. Graph. Model.</i> 2019, 92, 154-166.