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The C-terminus of the GKY20 antimicrobial peptide, derived from human thrombin, plays a key role in its membrane perturbation capability |
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| Rosario Oliva, Marco Campanile, Pompea Del Vecchio, Elio Pizzo, Andrea Bosso, Roland Winter, Luigi Petraccone |
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| Physical Chemistry Chemical Physics. 2022; |
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Novel lactotransferrin-derived synthetic peptides suppress cariogenic bacteria in vitro and arrest dental caries in vivo |
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| Junyuan Luo, Zening Feng, Wentao Jiang, Xuelian Jiang, Yue Chen, Xiaohui Lv, Linglin Zhang |
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| Journal of Oral Microbiology. 2021; 13(1): 1943999 |
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Attenuated total reflection-Fourier transform infrared spectroscopy: a tool to characterize antimicrobial cyclic peptide–membrane interactions |
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| Bárbara Claro, Erik Goormaghtigh, Margarida Bastos |
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| European Biophysics Journal. 2021; 50(3-4): 629 |
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Macromolecular assembly and membrane activity of antimicrobial D,L-a-Cyclic peptides |
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| Bárbara Claro, Antonio Peón, Eva González-Freire, Erik Goormaghtigh, Manuel Amorín, Juan R. Granja, Rebeca Garcia-Fandiño, Margarida Bastos |
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| Colloids and Surfaces B: Biointerfaces. 2021; 208: 112086 |
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The Antifungal Activity of Lactoferrin and Its Derived Peptides: Mechanisms of Action and Synergy with Drugs against Fungal Pathogens |
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| Kenya E. Fernandes,Dee A. Carter |
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| Frontiers in Microbiology. 2017; 8 |
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Analysis and Prediction of the Critical Regions of Antimicrobial Peptides Based on Conditional Random Fields |
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| Kuan Y. Chang,Tung-pei Lin,Ling-Yi Shih,Chien-Kuo Wang,Surajit Bhattacharjya |
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| PLOS ONE. 2015; 10(3): e0119490 |
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Antimicrobial and cell-penetrating properties of penetratin analogs: Effect of sequence and secondary structure |
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| Jesper Søborg Bahnsen,Henrik Franzyk,Anne Sandberg-Schaal,Hanne Mørck Nielsen |
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| Biochimica et Biophysica Acta (BBA) - Biomembranes. 2013; 1828(2): 223 |
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Penetratin and Derivatives Acting as Antibacterial Agents |
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| Adriana D. Garro,Mónica S. Olivella,José A. Bombasaro,Beatriz Lima,Alejandro Tapia,Gabriela Feresin,Andras Perczel,Csaba Somlai,Botond Penke,Javier López Cascales,Ana M. Rodríguez,Ricardo D. Enriz |
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| Chemical Biology & Drug Design. 2013; 82(2): 167 |
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Differential scanning calorimetry as a tool to investigate the transfer of anticancer drugs to biomembrane model |
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| Sarpietro, M.G. and Accolla, M.L. and Celia, C. and Grattoni, A. and Castelli, F. and Fresta, M. and Ferrari, M. and Paolino, D. |
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| Current Drug Targets. 2013; 14(9): 1053-1060 |
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Penetratin and derivatives acting as antibacterial agents |
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| Garro, A.D. and Olivella, M.S. and Bombasaro, J.A. and Lima, B. and Tapia, A. and Feresin, G. and Perczel, A. and Somlai, C. and Penke, B. and López Cascales, J. and RodrÃguez, A.M. and Enriz, R.D. |
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| Chemical Biology and Drug Design. 2013; 82(2): 167-177 |
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Antimicrobial and cell-penetrating properties of penetratin analogs: Effect of sequence and secondary structure |
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| Bahnsen, J.Sø. and Franzyk, H. and Sandberg-Schaal, A. and Nielsen, H.M. |
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| Biochimica et Biophysica Acta - Biomembranes. 2013; 1828(2): 223-232 |
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Enhanced leishmanicidal activity of cryptopeptide chimeras from the active N1 domain of bovine lactoferrin |
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| Silva, T. and Abengózar, M.A. and Fernandez-Reyes, M. and Andreu, D. and Nazmi, K. and Bolscher, J.G.M. and Bastos, M. and Rivas, L. |
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| Amino Acids. 2012; 43(6): 2265-2277 |
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Dietary supplementation with recombinant lactoferrampin-lactoferricin improves growth performance and affects serum parameters in piglets |
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| Tang, X. and Fatufe, A.A. and Yin, Y. and Tang, Z. and Wang, S. and Liu, Z. and Xinwu and Li, T.-J. |
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| Journal of Animal and Veterinary Advances. 2012; 11(14): 2548-2555 |
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Chimerization of lactoferricin and lactoferrampin peptides strongly potentiates the killing activity against Candida albicans |
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| Bolscher, J. and Nazmi, K. and Van Marle, J. and Van æT Hof, W. and Veerman, E. |
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| Biochemistry and Cell Biology. 2012; 90(3): 378-388 |
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Influence of specific amino acid side-chains on the antimicrobial activity and structure of bovine lactoferrampin |
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| Haney, E.F. and Nazmi, K. and Bolscher, J.G.M. and Vogel, H.J. |
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| Biochemistry and Cell Biology. 2012; 90(3): 362-377 |
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16 |
Structural and biophysical characterization of an antimicrobial peptide chimera comprised of lactoferricin and lactoferrampin |
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| Haney, E.F. and Nazmi, K. and Bolscher, J.G.M. and Vogel, H.J. |
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| Biochimica et Biophysica Acta - Biomembranes. 2012; 1818(3): 762-775 |
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17 |
Influence of specific amino acid side-chains on the antimicrobial activity and structure of bovine lactoferrampin11This article is part of Special Issue entitled Lactoferrin and has undergone the Journal’s usual peer review process. |
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| Evan F. Haney,Kamran Nazmi,Jan G.M. Bolscher,Hans J. Vogel |
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| Biochemistry and Cell Biology. 2012; 90(3): 362 |
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| [Pubmed] [Google Scholar] [DOI] |
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18 |
Chimerization of lactoferricin and lactoferrampin peptides strongly potentiates the killing activity againstCandida albicans11This article is part of a Special Issue entitled Lactoferrin and has undergone the Journalæs usual peer review process. |
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| Jan Bolscher,Kamran Nazmi,Jan van Marle,Wim van ‘t Hof,Enno Veerman |
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| Biochemistry and Cell Biology. 2012; 90(3): 378 |
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19 |
Enhanced leishmanicidal activity of cryptopeptide chimeras from the active N1 domain of bovine lactoferrin |
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| Tânia Silva,María Ángeles Abengózar,María Fernández-Reyes,David Andreu,Kamran Nazmi,Jan G. M. Bolscher,Margarida Bastos,Luis Rivas |
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| Amino Acids. 2012; 43(6): 2265 |
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20 |
Expression, Purification, and Antibacterial Activity of Bovine Lactoferrampin–Lactoferricin in Pichia pastoris |
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| Xiang-Shan Tang,Zhi-Ru Tang,Sheng-Ping Wang,Ze-Meng Feng,Dong Zhou,Tie-Jun Li,Yu-Long Yin |
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| Applied Biochemistry and Biotechnology. 2012; 166(3): 640 |
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21 |
Structural and biophysical characterization of an antimicrobial peptide chimera comprised of lactoferricin and lactoferrampin |
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| Evan F. Haney,Kamran Nazmi,Jan G.M. Bolscher,Hans J. Vogel |
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| Biochimica et Biophysica Acta (BBA) - Biomembranes. 2012; 1818(3): 762 |
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| [Pubmed] [Google Scholar] [DOI] |
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