| Antibiotic-resistant bacteria show widespread collateral sensitivity to antimicrobial peptides V Lázár, A Martins, R Spohn, L Daruka, G Grézal, G Fekete, M Számel, ... Nature microbiology 3 (6), 718-731, 2018 | 376 | 2018 |
| Genome-wide analysis captures the determinants of the antibiotic cross-resistance interaction network V Lázár, I Nagy, R Spohn, B Csörgő, Á Györkei, Á Nyerges, B Horváth, ... Nature communications 5 (1), 4352, 2014 | 251 | 2014 |
| A highly precise and portable genome engineering method allows comparison of mutational effects across bacterial species Á Nyerges, B Csörgő, I Nagy, B Bálint, P Bihari, V Lázár, G Apjok, ... Proceedings of the National Academy of Sciences 113 (9), 2502-2507, 2016 | 233 | 2016 |
| Phenotypic heterogeneity promotes adaptive evolution Z Bódi, Z Farkas, D Nevozhay, D Kalapis, V Lázár, B Csörgő, Á Nyerges, ... PLoS biology 15 (5), e2000644, 2017 | 177 | 2017 |
| Improved bacterial recombineering by parallelized protein discovery TM Wannier, A Nyerges, HM Kuchwara, M Czikkely, D Balogh, ... Proceedings of the National Academy of Sciences 117 (24), 13689-13698, 2020 | 134 | 2020 |
| Directed evolution of multiple genomic loci allows the prediction of antibiotic resistance Á Nyerges, B Csörgő, G Draskovits, B Kintses, P Szili, G Ferenc, T Révész, ... Proceedings of the National Academy of Sciences 115 (25), E5726-E5735, 2018 | 106 | 2018 |
| Phylogenetic barriers to horizontal transfer of antimicrobial peptide resistance genes in the human gut microbiota B Kintses, O Méhi, E Ari, M Számel, Á Györkei, PK Jangir, I Nagy, F Pál, ... Nature microbiology 4 (3), 447-458, 2019 | 91 | 2019 |
| Recombineering and MAGE TM Wannier, PN Ciaccia, AD Ellington, GT Filsinger, FJ Isaacs, ... Nature Reviews Methods Primers 1 (1), 7, 2021 | 90 | 2021 |
| Enzyme promiscuity shapes adaptation to novel growth substrates GI Guzmán, TE Sandberg, RA LaCroix, Á Nyerges, H Papp, M de Raad, ... Molecular systems biology 15 (4), e8462, 2019 | 79 | 2019 |
| Perturbation of iron homeostasis promotes the evolution of antibiotic resistance O Méhi, B Bogos, B Csörgő, F Pál, Á Nyerges, B Papp, C Pál Molecular biology and evolution 31 (10), 2793-2804, 2014 | 67 | 2014 |
| A swapped genetic code prevents viral infections and gene transfer A Nyerges, S Vinke, R Flynn, SV Owen, EA Rand, B Budnik, E Keen, ... Nature 615 (7953), 720-727, 2023 | 64 | 2023 |
| Genome-wide abolishment of mobile genetic elements using genome shuffling and CRISPR/Cas-assisted MAGE allows the efficient stabilization of a bacterial chassis K Umenhoffer, G Draskovits, A Nyerges, I Karcagi, B Bogos, E Tímár, ... ACS Synthetic Biology 6 (8), 1471-1483, 2017 | 62 | 2017 |
| Conditional DNA repair mutants enable highly precise genome engineering A Nyerges, B Csörgő, I Nagy, D Latinovics, B Szamecz, G Pósfai, C Pal Nucleic Acids Research 42 (8), e62-e62, 2014 | 61 | 2014 |
| New N-phenylpyrrolamide DNA gyrase B inhibitors: Optimization of efficacy and antibacterial activity M Durcik, D Lovison, Ž Skok, CD Cruz, P Tammela, T Tomašič, DB Tiz, ... European journal of medicinal chemistry 154, 117-132, 2018 | 54 | 2018 |
| An optimised series of substituted N-phenylpyrrolamides as DNA gyrase B inhibitors DB Tiz, Ž Skok, M Durcik, T Tomašič, LP Mašič, J Ilaš, A Zega, ... European journal of medicinal chemistry 167, 269-290, 2019 | 50 | 2019 |
| Rapid evolution of reduced susceptibility against a balanced dual-targeting antibiotic through stepping-stone mutations P Szili, G Draskovits, T Révész, F Bogár, D Balogh, T Martinek, L Daruka, ... Antimicrobial agents and chemotherapy 63 (9), 10.1128/aac. 00207-19, 2019 | 45 | 2019 |
| Limited evolutionary conservation of the phenotypic effects of antibiotic resistance mutations G Apjok, G Boross, Á Nyerges, G Fekete, V Lázár, B Papp, C Pál, ... Molecular biology and evolution 36 (8), 1601-1611, 2019 | 45 | 2019 |
| A standardized workflow for surveying recombinases expands bacterial genome‐editing capabilities DE Ricaurte, E Martínez‐García, A Nyerges, C Pal, V de Lorenzo, ... Microbial Biotechnology 11 (1), 176-188, 2018 | 42 | 2018 |
| High-efficiency multi-site genomic editing of Pseudomonas putida through thermoinducible ssDNA recombineering T Aparicio, A Nyerges, E Martínez-García, V de Lorenzo Iscience 23 (3), 2020 | 39 | 2020 |
| Rational design of balanced dual-targeting antibiotics with limited resistance A Nyerges, T Tomašič, M Durcik, T Revesz, P Szili, G Draskovits, F Bogar, ... PLoS biology 18 (10), e3000819, 2020 | 34 | 2020 |
Csaba PalBiological Research Center, HungaryVerified email at brc.hu
