{"id":7,"date":"2016-01-11T17:28:17","date_gmt":"2016-01-11T19:28:17","guid":{"rendered":"http:\/\/web.vu.lt\/bti\/v.petrauskas\/?page_id=7"},"modified":"2025-06-24T16:54:38","modified_gmt":"2025-06-24T18:54:38","slug":"publications","status":"publish","type":"page","link":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n

ORCID: 0000-0001-7983-4128<\/a><\/p>\n\n\n

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(1)<\/div>\n
Petrosiute, A.; Zak\u0161auskas, A.; Lu\u010di\u016bnait\u0117, A.; Petrauskas, V.; Baranauskien\u0117, L.; Kvietkauskait\u0117, A.; \u0160\u010derbavi\u010dien\u0117, A.; Tamo\u0161i\u016bnait\u0117, M.; Musvicait\u0117, J.; Jank\u016bnait\u0117, A.; \u017dvinys, G.; Stan\u010daitis, L.; \u010capkauskait\u0117, E.; Mickevi\u010di\u016bt\u0117, A.; Juozapaitien\u0117, V.; Dudutien\u0117, V.; Zubrien\u0117, A.; Grincevi\u010dien\u0117, \u0160.; Bukelskien\u0117, V.; Schi\u00f6th, H. B.; Matulien\u0117, J.; Matulis, D. Carbonic Anhydrase IX Inhibition as a Path to Treat Neuroblastoma. British Journal of Pharmacology<\/i> 2025<\/b>, 182<\/i> (7), 1610\u20131629. https:\/\/doi.org\/10.1111\/bph.17429<\/a>.<\/div>\n<\/div>\n
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(2)<\/div>\n
Petrauskas, V.; Kazlauskas, E.; Gedgaudas, M.; Baranauskien\u0117, L.; Zubrien\u0117, A.; Matulis, D. Thermal Shift Assay for Protein\u2013Ligand Dissociation Constant Determination. TrAC Trends in Analytical Chemistry<\/i> 2024<\/b>, 170<\/i>, 117417. https:\/\/doi.org\/10.1016\/j.trac.2023.117417<\/a>.<\/div>\n<\/div>\n
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(3)<\/div>\n
Paketuryt\u0117-Latv\u0117, V.; Smirnov, A.; Manakova, E.; Baranauskiene, L.; Petrauskas, V.; Zubrien\u0117, A.; Matulien\u0117, J.; Dudutien\u0117, V.; \u010capkauskait\u0117, E.; Zak\u0161auskas, A.; Leitans, J.; Gra\u017eulis, S.; Tars, K.; Matulis, D. From X-Ray Crystallographic Structure to Intrinsic Thermodynamics of Protein\u2013Ligand Binding Using Carbonic Anhydrase Isozymes as a Model System. IUCrJ<\/i> 2024<\/b>, 11<\/i> (4), 556\u2013569. https:\/\/doi.org\/10.1107\/S2052252524004627<\/a>.<\/div>\n<\/div>\n
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(4)<\/div>\n
Kairys, V.; Baranauskiene, L.; Kazlauskiene, M.; Zubrien\u0117, A.; Petrauskas, V.; Matulis, D.; Kazlauskas, E. Recent Advances in Computational and Experimental Protein-Ligand Affinity Determination Techniques. Expert Opinion on Drug Discovery<\/i> 2024<\/b>, 19<\/i> (6), 649\u2013670. https:\/\/doi.org\/10.1080\/17460441.2024.2349169<\/a>.<\/div>\n<\/div>\n
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(5)<\/div>\n
Preik\u0161a, J.; Petrikait\u0117, V.; Petrauskas, V.; Matulis, D. Intrinsic Solubility of Ionizable Compounds from pKa Shift. ACS Omega<\/i> 2023<\/b>, 8<\/i> (47), 44571\u201344577. https:\/\/doi.org\/10.1021\/acsomega.3c04071<\/a>.<\/div>\n<\/div>\n
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(6)<\/div>\n
Ling\u0117, D.; Gedgaudas, M.; Merkys, A.; Petrauskas, V.; Vaitkus, A.; Grybauskas, A.; Paketuryt\u0117, V.; Zubrien\u0117, A.; Zak\u0161auskas, A.; Mickevi\u010di\u016bt\u0117, A.; Smirnovien\u0117, J.; Baranauskien\u0117, L.; \u010capkauskait\u0117, E.; Dudutien\u0117, V.; Urnie\u017eius, E.; Konovalovas, A.; Kazlauskas, E.; Shubin, K.; Schi\u00f6th, H. B.; Chen, W.-Y.; Ladbury, J. E.; Gra\u017eulis, S.; Matulis, D. PLBD: Protein\u2013Ligand Binding Database of\u00a0Thermodynamic and\u00a0Kinetic Intrinsic Parameters. Database<\/i> 2023<\/b>, 2023<\/i>, baad040. https:\/\/doi.org\/10.1093\/database\/baad040<\/a>.<\/div>\n<\/div>\n
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(7)<\/div>\n
Toleikis, Z.; Bobrovs, R.; Janoniene, A.; Lends, A.; Ziaunys, M.; Baronaite, I.; Petrauskas, V.; Kitoka, K.; Smirnovas, V.; Jaudzems, K. Interactions between S100A9 and Alpha-Synuclein: Insight from NMR Spectroscopy. International Journal of Molecular Sciences<\/i> 2022<\/b>, 23<\/i> (12), 6781. https:\/\/doi.org\/10.3390\/ijms23126781<\/a>.<\/div>\n<\/div>\n
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(8)<\/div>\n
Skvarnavi\u010dius, G.; Toleikis, Z.; Matulis, D.; Petrauskas, V. Denaturant- or Ligand-Induced Changes in Protein Volume by Pressure Shift Assay. Phys. Chem. Chem. Phys.<\/i> 2022<\/b>, 24<\/i> (28), 17279\u201317288. https:\/\/doi.org\/10.1039\/D2CP01046A<\/a>.<\/div>\n<\/div>\n
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(9)<\/div>\n
Matulien\u0117, J.; \u017dvinys, G.; Petrauskas, V.; Kvietkauskait\u0117, A.; Zak\u0161auskas, A.; Shubin, K.; Zubrien\u0117, A.; Baranauskien\u0117, L.; Ka\u010denauskait\u0117, L.; Kopanchuk, S.; Veiksina, S.; Paketuryt\u0117-Latv\u0117, V.; Smirnovien\u0117, J.; Juozapaitien\u0117, V.; Mickevi\u010di\u016bt\u0117, A.; Michailovien\u0117, V.; Jachno, J.; Stravinskien\u0117, D.; Sli\u017eien\u0117, A.; Petro\u0161i\u016bt\u0117, A.; Becker, H. M.; Kazokait\u0117-Adomaitien\u0117, J.; Yaromina, A.; \u010capkauskait\u0117, E.; Rinken, A.; Dudutien\u0117, V.; Dubois, L. J.; Matulis, D. Picomolar Fluorescent Probes for Compound Affinity Determination to Carbonic Anhydrase IX Expressed in Live Cancer Cells. Sci Rep<\/i> 2022<\/b>, 12<\/i> (1), 17644. https:\/\/doi.org\/10.1038\/s41598-022-22436-1<\/a>.<\/div>\n<\/div>\n
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(10)<\/div>\n
Grincevi\u010dien\u0117, \u0160.; Vaitkien\u0117, D.; Kanopien\u0117, D.; Vansevi\u010di\u016bt\u0117, R.; Tykvart, J.; Sukovas, A.; Celie\u0161i\u016bt\u0117, J.; Ivanauskait\u0117 Did\u017eiokien\u0117, E.; \u010ci\u017eauskas, A.; Laurinavi\u010dien\u0117, A.; Kr\u00e1l, V.; Hlava\u010dkov\u00e1, A.; Zemanov\u00e1, J.; Stravinskien\u0117, D.; Sli\u017eien\u0117, A.; Petro\u0161i\u016bt\u0117, A.; Petrauskas, V.; Balsyt\u0117, R.; Grincevi\u010dius, J.; Navratil, V.; Jahn, U.; Konvalinka, J.; \u017dvirblien\u0117, A.; Matulis, D.; Matulien\u0117, J. Factors, Associated with Elevated Concentration of Soluble Carbonic Anhydrase IX in Plasma of Women with Cervical Dysplasia. Sci Rep<\/i> 2022<\/b>, 12<\/i> (1), 15397. https:\/\/doi.org\/10.1038\/s41598-022-19492-y<\/a>.<\/div>\n<\/div>\n
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(11)<\/div>\n
Gedgaudas, M.; Baronas, D.; Kazlauskas, E.; Petrauskas, V.; Matulis, D. Thermott: A Comprehensive Online Tool for Protein\u2013Ligand Binding Constant Determination. Drug Discovery Today<\/i> 2022<\/b>, 27<\/i> (8), 2076\u20132079. https:\/\/doi.org\/10.1016\/j.drudis.2022.05.008<\/a>.<\/div>\n<\/div>\n
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(12)<\/div>\n
Toleikis, Z.; Ziaunys, M.; Baranauskiene, L.; Petrauskas, V.; Jaudzems, K.; Smirnovas, V. S100A9 Alters the Pathway of Alpha-Synuclein Amyloid Aggregation. International Journal of Molecular Sciences<\/i> 2021<\/b>, 22<\/i> (15), 7972. https:\/\/doi.org\/10.3390\/ijms22157972<\/a>.<\/div>\n<\/div>\n
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(13)<\/div>\n
Smirnovien\u0117, J.; Smirnov, A.; Zak\u0161auskas, A.; Zubrien\u0117, A.; Petrauskas, V.; Mickevi\u010di\u016bt\u0117, A.; Michailovien\u0117, V.; \u010capkauskait\u0117, E.; Manakova, E.; Gra\u017eulis, S.; Baranauskien\u0117, L.; Chen, W.-Y.; Ladbury, J. E.; Matulis, D. Switching the Inhibitor-Enzyme Recognition Profile via Chimeric Carbonic Anhydrase XII. ChemistryOpen<\/i> 2021<\/b>, 10<\/i> (5), 567\u2013580. https:\/\/doi.org\/10.1002\/open.202100042<\/a>.<\/div>\n<\/div>\n
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(14)<\/div>\n
Skvarnavi\u010dius, G.; Toleikis, Z.; Michailovien\u0117, V.; Roumestand, C.; Matulis, D.; Petrauskas, V. Protein\u2013Ligand Binding Volume Determined from a Single 2D NMR Spectrum with Increasing Pressure. J. Phys. Chem. B<\/i> 2021<\/b>, 125<\/i> (22), 5823\u20135831. https:\/\/doi.org\/10.1021\/acs.jpcb.1c02917<\/a>.<\/div>\n<\/div>\n
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(15)<\/div>\n
Paketuryt\u0117, V.; Petrauskas, V.; Zubrien\u0117, A.; Abian, O.; Bastos, M.; Chen, W.-Y.; Moreno, M. J.; Krainer, G.; Linkuvien\u0117, V.; Sedivy, A.; Velazquez-Campoy, A.; Williams, M. A.; Matulis, D. Uncertainty in Protein\u2013Ligand Binding Constants: Asymmetric Confidence Intervals versus Standard Errors. Eur. Biophys. J.<\/i> 2021<\/b>, 50<\/i>, 661\u2013670. https:\/\/doi.org\/10.1007\/s00249-021-01518-4<\/a>.<\/div>\n<\/div>\n
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(16)<\/div>\n
Kazlauskas, E.; Petrauskas, V.; Paketuryt\u0117, V.; Matulis, D. Standard Operating Procedure for Fluorescent Thermal Shift Assay (FTSA) for Determination of Protein\u2013Ligand Binding and Protein Stability. Eur. Biophys. J.<\/i> 2021<\/b>, 50<\/i>, 373\u2013379. https:\/\/doi.org\/10.1007\/s00249-021-01537-1<\/a>.<\/div>\n<\/div>\n
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(17)<\/div>\n
Gulla, A.; Kazlauskas, E.; Liang, H.; Strupas, K.; Petrauskas, V.; Matulis, D.; Eshleman, J. R. Heat Shock Protein 90 Inhibitor Effects on Pancreatic Cancer Cell Cultures. Pancreas<\/i> 2021<\/b>, 50<\/i> (4), 625\u2013632. https:\/\/doi.org\/10.1097\/mpa.0000000000001807<\/a>.<\/div>\n<\/div>\n
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(18)<\/div>\n
DeLeeuw, L. W.; Monsen, R. C.; Petrauskas, V.; Gray, R. D.; Baranauskiene, L.; Matulis, D.; Trent, J. O.; Chaires, J. B. POT1 Stability and Binding Measured by Fluorescence Thermal Shift Assays. PLoS One<\/i> 2021<\/b>, 16<\/i> (3), e0245675. https:\/\/doi.org\/10.1371\/journal.pone.0245675<\/a>.<\/div>\n<\/div>\n
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(19)<\/div>\n
Baranauskiene, L.; \u0160kiudait\u0117, L.; Michailovien\u0117, V.; Petrauskas, V.; Matulis, D. Thiazide and Other Cl-Benzenesulfonamide-Bearing Clinical Drug Affinities for Human Carbonic Anhydrases. PLOS ONE<\/i> 2021<\/b>, 16<\/i> (6), e0253608. https:\/\/doi.org\/10.1371\/journal.pone.0253608<\/a>.<\/div>\n<\/div>\n
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(20)<\/div>\n
Skvarnavi\u010dius, G.; Matulis, D.; Petrauskas, V. Change in Volume Upon Inhibitor Binding to Carbonic Anhydrases by Fluorescent Pressure Shift Assay. In Carbonic Anhydrase as Drug Target: Thermodynamics and Structure of Inhibitor Binding<\/i>; Matulis, D., Ed.; Springer International Publishing: Cham, 2019; pp 97\u2013106. https:\/\/doi.org\/10.1007\/978-3-030-12780-0_7<\/a>.<\/div>\n<\/div>\n
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(21)<\/div>\n
Skvarnavi\u010dius, G.; Dvareckas, D.; Matulis, D.; Petrauskas, V. Thermodynamics of Interactions Between Charged Surfactants and Ionic Poly(Amino Acids) by Isothermal Titration Calorimetry. ACS Omega<\/i> 2019<\/b>, 4<\/i> (17), 17527\u201317535. https:\/\/doi.org\/10.1021\/acsomega.9b02425<\/a>.<\/div>\n<\/div>\n
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(22)<\/div>\n
Petrauskas, V.; Zubrien\u0117, A.; Todd, M. J.; Matulis, D. Inhibitor Binding to Carbonic Anhydrases by Fluorescent Thermal Shift Assay. In Carbonic Anhydrase as Drug Target: Thermodynamics and Structure of Inhibitor Binding<\/i>; Matulis, D., Ed.; Springer International Publishing: Cham, 2019; pp 63\u201378. https:\/\/doi.org\/10.1007\/978-3-030-12780-0_5<\/a>.<\/div>\n<\/div>\n
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(23)<\/div>\n
Linkuvien\u0117, V.; Zubrien\u0117, A.; Manakova, E.; Petrauskas, V.; Baranauskien\u0117, L.; Zak\u0161auskas, A.; Smirnov, A.; Gra\u017eulis, S.; Ladbury, J. E.; Matulis, D. Thermodynamic, Kinetic, and Structural Parameterization of Human Carbonic Anhydrase Interactions toward Enhanced Inhibitor Design. Q. Rev. Biophys.<\/i> 2018<\/b>, 51<\/i>, 1\u201348. https:\/\/doi.org\/10.1017\/S0033583518000082<\/a>.<\/div>\n<\/div>\n
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(24)<\/div>\n
Skvarnavi\u010dius, G.; Toleikis, Z.; Grigali\u016bnas, M.; Smirnovien\u0117, J.; Norvai\u0161as, P.; Cimmperman, P.; Matulis, D.; Petrauskas, V. High Pressure Spectrofluorimetry \u2013 a Tool to Determine Protein-Ligand Binding Volume. J. Phys.: Conf. Ser.<\/i> 2017<\/b>, 950<\/i> (4), 042001. https:\/\/doi.org\/10.1088\/1742-6596\/950\/4\/042001<\/a>.<\/div>\n<\/div>\n
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(25)<\/div>\n
Toleikis, Z.; Sirotkin, V. A.; Skvarnavi\u010dius, G.; Smirnovien\u0117, J.; Roumestand, C.; Matulis, D.; Petrauskas, V. Volume of Hsp90 Protein\u2013Ligand Binding Determined by Fluorescent Pressure Shift Assay, Densitometry, and NMR. J. Phys. Chem. B<\/i> 2016<\/b>, 120<\/i> (37), 9903\u20139912. https:\/\/doi.org\/10.1021\/acs.jpcb.6b06863<\/a>.<\/div>\n<\/div>\n
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(26)<\/div>\n
Petrauskas, V.; Baranauskien\u0117, L.; Zubrien\u0117, A.; Matulis, D. Isothermal Titration Calorimetry and Fluorescent Thermal and Pressure Shift Assays in Protein-Ligand Interactions. In Biocalorimetry<\/i>; CRC Press, 2016; pp 261\u2013280.<\/div>\n<\/div>\n
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(27)<\/div>\n
Redhead, M.; Satchell, R.; Mork\u016bnait\u0117, V.; Swift, D.; Petrauskas, V.; Golding, E.; Onions, S.; Matulis, D.; Unitt, J. A Combinatorial Biophysical Approach; Ftsa and Spr for Identifying Small Molecule Ligands and Pains. Anal. Biochem.<\/i> 2015<\/b>, 479<\/i>, 63\u201373. https:\/\/doi.org\/10.1016\/j.ab.2015.03.013<\/a>.<\/div>\n<\/div>\n
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(28)<\/div>\n
Petrauskas, V.; Maximowitsch, E.; Matulis, D. Thermodynamics of Ion Pair Formations Between Charged Poly(Amino Acid)s. J. Phys. Chem. B<\/i> 2015<\/b>, 119<\/i> (37), 12164\u201312171. https:\/\/doi.org\/10.1021\/acs.jpcb.5b05767<\/a>.<\/div>\n<\/div>\n
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(29)<\/div>\n
Dudutien\u0117, V.; Matulien\u0117, J.; Smirnov, A.; Timm, D. D.; Zubrien\u0117, A.; Baranauskien\u0117, L.; Mork\u016bnait\u0117, V.; Smirnovien\u0117, J.; Michailovien\u0117, V.; Juozapaitien\u0117, V.; Mickevi\u010di\u016bt\u0117, A.; Kazokait\u0117, J.; Bak\u0161yt\u0117, S.; Kasiliauskait\u0117, A.; Jachno, J.; Revuckien\u0117, J.; Ki\u0161onait\u0117, M.; Pilipuityt\u0117, V.; Ivanauskait\u0117, E.; Milinavi\u010di\u016bt\u0117, G.; Smirnovas, V.; Petrikait\u0117, V.; Kairys, V.; Petrauskas, V.; Norvai\u0161as, P.; Ling\u0117, D.; Gibie\u017ea, P.; \u010capkauskait\u0117, E.; Zak\u0161auskas, A.; Kazlauskas, E.; Manakova, E.; Gra\u017eulis, S.; Ladbury, J. E.; Matulis, D. Discovery and Characterization of Novel Selective Inhibitors of Carbonic Anhydrase IX. J. Med. Chem.<\/i> 2014<\/b>, 57<\/i> (22), 9435\u20139446. https:\/\/doi.org\/10.1021\/jm501003k<\/a>.<\/div>\n<\/div>\n
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(30)<\/div>\n
Petrauskas, V.; Gylyt\u0117, J.; Toleikis, Z.; Cimmperman, P.; Matulis, D. Volume of Hsp90 Ligand Binding and the Unfolding Phase Diagram as a Function of Pressure and Temperature. Eur. Biophys. J.<\/i> 2013<\/b>, 42<\/i> (5), 355\u2013362. https:\/\/doi.org\/10.1007\/s00249-012-0884-7<\/a>.<\/div>\n<\/div>\n
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(31)<\/div>\n
Toleikis, Z.; Cimmperman, P.; Petrauskas, V.; Matulis, D. Serum Albumin Ligand Binding Volumes Using High Pressure Denaturation. J. Chem. Thermodyn.<\/i> 2012<\/b>, 52<\/i>, 24\u201329. https:\/\/doi.org\/10.1016\/j.jct.2011.12.026<\/a>.<\/div>\n<\/div>\n
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(32)<\/div>\n
Norvai\u0161as, P.; Petrauskas, V.; Matulis, D. Thermodynamics of Cationic and Anionic Surfactant Interaction. J. Phys. Chem. B<\/i> 2012<\/b>, 116<\/i> (7), 2138\u20132144. https:\/\/doi.org\/10.1021\/jp2095888<\/a>.<\/div>\n<\/div>\n
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(33)<\/div>\n
Zubrien\u0117, A.; Kazlauskas, E.; Baranauskien\u0117, L.; Petrauskas, V.; Matulis, D. Isothermal Titration Calorimetry and Thermal Shift Assay in Drug Design. European Pharmaceutical Review<\/i> 2011<\/b>, 16<\/i>, 56\u201359.<\/div>\n<\/div>\n
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(34)<\/div>\n
Toleikis, Z.; Cimmperman, P.; Petrauskas, V.; Matulis, D. Determination of the Volume Changes Induced by Ligand Binding to Heat Shock Protein 90 Using High-Pressure Denaturation. Anal. Biochem.<\/i> 2011<\/b>, 413<\/i> (2), 171\u2013178. https:\/\/doi.org\/10.1016\/j.ab.2011.02.019<\/a>.<\/div>\n<\/div>\n
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(35)<\/div>\n
Petrauskas, V.; Tornau, E. E. Formation of Stripe Structure Without Longer Range Interactions. Phys. Rev. B<\/i> 2010<\/b>, 82<\/i> (11), 115433. https:\/\/doi.org\/10.1103\/PhysRevB.82.115433<\/a>.<\/div>\n<\/div>\n
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(36)<\/div>\n
Tornau, E. E.; Petrauskas, V.; Zvejnieks, G. Simulation of Oxidized Silicon Stripe Formation on Pd(111). Phys. Status Solidi C<\/i> 2009<\/b>, 6<\/i> (12), 2731\u20132733. https:\/\/doi.org\/10.1002\/pssc.200982523<\/a>.<\/div>\n<\/div>\n
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Tornau, E. E.; Petrauskas, V.; Joknys, A. Ising Model with Long Range Interactions: Phase Diagram and Transition Order of Stripe Structures. Ferroelectrics<\/i> 2009<\/b>, 379<\/i> (1), 128\u2013135. https:\/\/doi.org\/10.1080\/00150190902851911<\/a>.<\/div>\n<\/div>\n
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(38)<\/div>\n
Petrauskas, V.; Tornau, E. E. Simulation of Hydrogen-Induced Reconstruction of Oxygen on Pd(111). Acta Phys. Pol., A<\/i> 2008<\/b>, 113<\/i>, 1075\u20131078. https:\/\/doi.org\/10.12693\/APhysPolA.113.1075<\/a>.<\/div>\n<\/div>\n
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Petrauskas, V.; Tornau, E. E. Modeling of Phase Transitions and Reaction Between Coadsorbed Oxygen and Hydrogen on Pd(111). J. Phys.: Conf. Ser.<\/i> 2008<\/b>, 100<\/i> (7), 072038. https:\/\/doi.org\/10.1088\/1742-6596\/100\/7\/072038<\/a>.<\/div>\n<\/div>\n
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(40)<\/div>\n
Petrauskas, V.; Tornau, E. E. Model for Hydrogen-Induced Sb Atoms Reconstruction <pre>$\\sqrt 3 \\times \\sqrt 3 \\rightarrow 2 \\times 1$<\/Pre> on Si(111). J. Phys.: Conf. Ser.<\/i> 2008<\/b>, 100<\/i> (7), 072037. https:\/\/doi.org\/10.1088\/1742-6596\/100\/7\/072037<\/a>.<\/div>\n<\/div>\n
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(41)<\/div>\n
Petrauskas, V.; Tornau, E. E. Hydrogen-Induced Sb Atom Reconstruction <pre>$\\sqrt 3 \\times \\sqrt 3 \\rightarrow 2 \\times 1$<\/Pre> on Si(111) as an Example of a Six-State Model. Phys. Rev. B<\/i> 2007<\/b>, 75<\/i> (11), 113308. https:\/\/doi.org\/10.1103\/PhysRevB.75.113308<\/a>.<\/div>\n<\/div>\n
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(42)<\/div>\n
Zvejnieks, G.; Kuzovkov, V. N.; Petrauskas, V.; Tornau, E. E. Modelling of Phase Transitions and Reaction at CO Adsorption on Oxygen Precovered Pd(111). Appl. Surf. Sci.<\/i> 2006<\/b>, 252<\/i> (15), 5395\u20135398. https:\/\/doi.org\/10.1016\/j.apsusc.2005.12.048<\/a>.<\/div>\n<\/div>\n
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Tornau, E. E.; Petrauskas, V.; Zvejnieks, G. Surface Phase Transitions at O and CO Catalytic Reaction on Pd(111). Catal. Today<\/i> 2006<\/b>, 116<\/i> (1), 62\u201368. https:\/\/doi.org\/10.1016\/j.cattod.2006.02.081<\/a>.<\/div>\n<\/div>\n
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(44)<\/div>\n
Petrauskas, V.; Tornau, E. E. Modelling of Grain Boundary Resistance in Thin Films of Lanthanum Manganites. Lith. J. Phys.<\/i> 2006<\/b>, 46<\/i>, 191\u2013198. https:\/\/doi.org\/10.3952\/lithjphys.46204<\/a>.<\/div>\n<\/div>\n
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Balevi\u010dius, S.; Cimmperman, P.; Petrauskas, V.; Stankevi\u010d, V.; Tornau, E. E.; \u017durauskien\u0117, N.; Abrutis, A.; Plau\u0161inaitien\u0117, V.; Sawicki, M.; Dietl, T.; Aleszkiewicz, M. Two-Phase Structure of Ultra-Thin La-Sr-MnO Films. Thin Solid Films<\/i> 2006<\/b>, 515<\/i> (2), 691\u2013694. https:\/\/doi.org\/10.1016\/j.tsf.2005.12.240<\/a>.<\/div>\n<\/div>\n
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Tornau, E. E.; Petrauskas, V.; Crisan, O. Effect of Surface Anisotropy in Core-Shell Bimetallic Nanoparticles. Acta Phys. Pol., A<\/i> 2005<\/b>, 107<\/i> (2), 425\u2013428. https:\/\/doi.org\/10.12693\/APhysPolA.107.425<\/a>.<\/div>\n<\/div>\n
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(47)<\/div>\n
Petrauskas, V.; Tornau, E. E.; Lapinskas, S. Modelling of Subpc Self-Assembly on Ag(111). Acta Phys. Pol., A<\/i> 2005<\/b>, 107<\/i> (2), 388\u2013391. https:\/\/doi.org\/10.12693\/APhysPolA.107.388<\/a>.<\/div>\n<\/div>\n
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Petrauskas, V.; Lapinskas, S.; Tornau, E. E. Phase Diagram of Subphtalocyanine Ordering on Ag(111). J. Chem. Phys.<\/i> 2004<\/b>, 120<\/i> (24), 11815. https:\/\/doi.org\/10.1063\/1.1755670<\/a>.<\/div>\n<\/div>\n
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Crisan, O.; Tornau, E. E.; Petrauskas, V.; Angelakeris, M. Monte Carlo Simulation Study of Magnetic Behaviour of Core-Shell Bimetallic Nanoparticles. Phys. Status Solidi C<\/i> 2004<\/b>, 1<\/i> (12), 3760\u20133763. https:\/\/doi.org\/10.1002\/pssc.200405549<\/a>.<\/div>\n<\/div>\n
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Petrauskas, V.; Tornau, E. E. Magnetization of Spin-Frustrated Ferromagnetic \/ Antiferromagnetic Superlattices. Lith. J. Phys.<\/i> 2002<\/b>, 42<\/i>, 427\u2013433.<\/div>\n<\/div>\n<\/div>\n<\/div>","protected":false},"excerpt":{"rendered":"

ORCID: 0000-0001-7983-4128 (1) Petrosiute, A.; Zak\u0161auskas, A.; Lu\u010di\u016bnait\u0117, A.; Petrauskas, V.; Baranauskien\u0117, L.; Kvietkauskait\u0117, A.; \u0160\u010derbavi\u010dien\u0117, A.; Tamo\u0161i\u016bnait\u0117, M.; Musvicait\u0117, J.; Jank\u016bnait\u0117, A.; \u017dvinys, G.; Stan\u010daitis, L.; \u010capkauskait\u0117, E.; Mickevi\u010di\u016bt\u0117, A.; Juozapaitien\u0117, V.; Dudutien\u0117, V.; Zubrien\u0117, A.; Grincevi\u010dien\u0117, \u0160.; Bukelskien\u0117, V.; Schi\u00f6th, H. B.; Matulien\u0117, J.; Matulis, D. Carbonic Anhydrase IX Inhibition as a Path […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":1,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-7","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/wp-json\/wp\/v2\/pages\/7","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/wp-json\/wp\/v2\/comments?post=7"}],"version-history":[{"count":69,"href":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/wp-json\/wp\/v2\/pages\/7\/revisions"}],"predecessor-version":[{"id":533,"href":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/wp-json\/wp\/v2\/pages\/7\/revisions\/533"}],"wp:attachment":[{"href":"https:\/\/web.vu.lt\/bti\/v.petrauskas\/wp-json\/wp\/v2\/media?parent=7"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}