Fibrin formation, structure and properties JW Weisel, RI Litvinov Fibrous proteins: structures and mechanisms, 405-456, 2017 | 706 | 2017 |
Mechanisms of fibrin polymerization and clinical implications JW Weisel, RI Litvinov Blood, The Journal of the American Society of Hematology 121 (10), 1712-1719, 2013 | 568 | 2013 |
Multiscale mechanics of fibrin polymer: gel stretching with protein unfolding and loss of water AEX Brown, RI Litvinov, DE Discher, PK Purohit, JW Weisel science 325 (5941), 741-744, 2009 | 467 | 2009 |
Activation of integrin αIIbß3 by modulation of transmembrane helix associations R Li, N Mitra, H Gratkowski, G Vilaire, R Litvinov, C Nagasami, JW Weisel, ... Science 300 (5620), 795-798, 2003 | 413 | 2003 |
Clot contraction: compression of erythrocytes into tightly packed polyhedra and redistribution of platelets and fibrin DB Cines, T Lebedeva, C Nagaswami, V Hayes, W Massefski, RI Litvinov, ... Blood, The Journal of the American Society of Hematology 123 (10), 1596-1603, 2014 | 406 | 2014 |
Red blood cells: the forgotten player in hemostasis and thrombosis JW Weisel, RI Litvinov Journal of Thrombosis and Haemostasis 17 (2), 271-282, 2019 | 354 | 2019 |
Computational design of peptides that target transmembrane helices H Yin, JS Slusky, BW Berger, RS Walters, G Vilaire, RI Litvinov, JD Lear, ... Science 315 (5820), 1817-1822, 2007 | 332 | 2007 |
The α-helix to β-sheet transition in stretched and compressed hydrated fibrin clots RI Litvinov, DA Faizullin, YF Zuev, JW Weisel Biophysical journal 103 (5), 1020-1027, 2012 | 274 | 2012 |
Binding strength and activation state of single fibrinogen-integrin pairs on living cells RI Litvinov, H Shuman, JS Bennett, JW Weisel Proceedings of the National Academy of Sciences 99 (11), 7426-7431, 2002 | 241 | 2002 |
Fibrin mechanical properties and their structural origins RI Litvinov, JW Weisel Matrix Biology 60, 110-123, 2017 | 221 | 2017 |
Quantitative structural mechanobiology of platelet-driven blood clot contraction OV Kim, RI Litvinov, MS Alber, JW Weisel Nature communications 8 (1), 1274, 2017 | 217 | 2017 |
Role of red blood cells in haemostasis and thrombosis RI Litvinov, JW Weisel ISBT science series 12 (1), 176-183, 2017 | 211 | 2017 |
The distinctive structure and composition of arterial and venous thrombi and pulmonary emboli IN Chernysh, C Nagaswami, S Kosolapova, AD Peshkova, A Cuker, ... Scientific reports 10 (1), 5112, 2020 | 206 | 2020 |
The biochemical and physical process of fibrinolysis and effects of clot structure and stability on the lysis rate JW Weisel, RI Litvinov Cardiovascular & Hematological Agents in Medicinal Chemistry (Formerly …, 2008 | 198 | 2008 |
Forced unfolding of coiled-coils in fibrinogen by single-molecule AFM EXB André, RI Litvinov, DE Discher, JW Weisel Biophysical journal 92 (5), L39-L41, 2007 | 195 | 2007 |
Kinetics and mechanics of clot contraction are governed by the molecular and cellular composition of the blood V Tutwiler, RI Litvinov, AP Lozhkin, AD Peshkova, T Lebedeva, ... Blood, The Journal of the American Society of Hematology 127 (1), 149-159, 2016 | 192 | 2016 |
Polymerization of fibrin: specificity, strength, and stability of knob-hole interactions studied at the single-molecule level RI Litvinov, OV Gorkun, SF Owen, H Shuman, JW Weisel Blood 106 (9), 2944-2951, 2005 | 161 | 2005 |
Protein–protein unbinding induced by force: single-molecule studies JW Weisel, H Shuman, RI Litvinov Current opinion in structural biology 13 (2), 227-235, 2003 | 160 | 2003 |
What is the biological and clinical relevance of fibrin? RI Litvinov, JW Weisel Seminars in thrombosis and hemostasis, 333-343, 2016 | 154 | 2016 |
Mechanism of fibrin (ogen) forced unfolding A Zhmurov, AEX Brown, RI Litvinov, RI Dima, JW Weisel, V Barsegov Structure 19 (11), 1615-1624, 2011 | 154 | 2011 |