-Natural and Designed Self-Assembling Peptides and Their Applications in Bionanotechnology A Mitraki, E Kasotakis Self-Assembled Peptide Nanostructures: Advances and Applications in …, 2012 | | 2012 |
" ONLINE-Rational design of self-assembling amyloid building blocks as scaffolds for novel biomaterials A Mitraki | | |
A Doubly Fmoc-Protected Aspartic Acid Self-Assembles into Hydrogels Suitable for Bone Tissue Engineering K Petropoulou, V Platania, M Chatzinikolaidou, A Mitraki Materials 15 (24), 8928, 2022 | 3 | 2022 |
A novel amyloid designable scaffold and potential inhibitor inspired by GAIIG of amyloid beta and the HIV‐1 V3 loop C Kokotidou, SVR Jonnalagadda, AA Orr, M Seoane‐Blanco, ... FEBS letters 592 (11), 1777-1788, 2018 | 24 | 2018 |
A peptide from the adenovirus fiber shaft forms amyloid-type fibrils M Luckey, JF Hernandez, G Arlaud, VT Forsyth, RWH Ruigrok, A Mitraki FEBS letters 468 (1), 23-27, 2000 | 47 | 2000 |
A Reversible Self-assembling Light-Harvesting System Based on a Diphenylalanine–Porphyrin Motif AG Coutsolelos, A Mitraki, TS Balaban | | 2016 |
A self-assembly study of PNA–porphyrin and PNA–BODIPY hybrids in mixed solvent systems E Nikoloudakis, K Karikis, J Han, C Kokotidou, A Charisiadis, F Folias, ... Nanoscale 11 (8), 3557-3566, 2019 | 36 | 2019 |
A switchable self-assembling and disassembling chiral system based on a porphyrin-substituted phenylalanine–phenylalanine motif G Charalambidis, E Georgilis, MK Panda, CE Anson, AK Powell, S Doyle, ... Nature communications 7 (1), 12657, 2016 | 87 | 2016 |
A triple β-spiral in the adenovirus fibre shaft reveals a new structural motif for a fibrous protein MJ Van Raaij, A Mitraki, G Lavigne, S Cusack Nature 401 (6756), 935-938, 1999 | 411 | 1999 |
Adenovirus Fibers as Ultra-Stable Vehicles for Intracellular Nanoparticle and Protein Delivery C Kokotidou, F Tsitouroudi, G Nistikakis, M Vasila, K Papanikolopoulou, ... Biomolecules 12 (2), 308, 2022 | | 2022 |
Adenovirus fibre shaft sequences fold into the native triple beta-spiral fold when N-terminally fused to the bacteriophage T4 fibritin foldon trimerisation motif K Papanikolopoulou, S Teixeira, H Belrhali, VT Forsyth, A Mitraki, ... Journal of molecular biology 342 (1), 219-227, 2004 | 52 | 2004 |
Advanced bis-MPA hyperbranched dendritic nanocarriers of artemisinin with anticancer potential E Halevas, B Mavroidi, C Kokotidou, A Mitraki, M Pelecanou, M Sagnou Journal of Nanoparticle Research 23 (7), 135, 2021 | 6 | 2021 |
Amino acid sequence determinants of polypeptide chain folding and inclusion body formation J King, C Haase-Pettingell, C Gordon, S Sather, A Mitraki | 5 | 1993 |
Amino acid substitutions influencing intracellular protein folding pathways A Mitraki, J King FEBS letters 307 (1), 20-25, 1992 | 104 | 1992 |
Amyloid character of self-assembling proteins based on adenovirus fiber shaft sequences: a fibrous biomaterial revisited H Retsos, K Papanikolopoulou, C Filippini, C Riekel, KH Gardner, ... NanoBiotechnology 1, 219-225, 2005 | 2 | 2005 |
Amyloid Designable Peptide Materials and Their Use as Scaffolds for Biomedical and Environmental Applications C Kokotidou, SVR Jonnalagadda, AA Orr, M Seoane-Blanco, ... | | |
Amyloid fibril formation from sequences of a natural β-structured fibrous protein, the adenovirus fiber K Papanikolopoulou, G Schoehn, V Forge, VT Forsyth, C Riekel, ... Journal of Biological Chemistry 280 (4), 2481-2490, 2005 | 87 | 2005 |
Amyloid Fibrils Formed by Peptide Sequences from a Natural β-Structured Fibrous Protein, the Fibre of Adenovirus K Papanikolopoulou, V Forge, G Schoehn, C Riekel, JF Hernandez, ... | | |
Amyloid peptide nanowires separation and manipulation using dielectrophoresis and microfluidics. Protein Assembly J Castillo, G Prosperi, M Dimaki, M Kasotakis, L Adler-Abramovich, ... Materials Biology and Medicine, 2007 | | 2007 |
Amyloid-like peptide aggregates C Kokotidou, P Tamamis, A Mitraki | 2 | 2020 |