(20) Supramolecular fibrillation in coacervates and other confined systems towards biomimetic function
A. Sanchez-Fernandez,
I. Insua, J. Montenegro
Communications Chemistry
2024, 7, 223
Link

(19) Self-assembly of cyclic peptide monolayers by hydrophobic supramolecular hinges
I. Insua, A. Cardellini, S. Díaz, J. Bergueiro, R. Capelli, G.M. Pavan, J. Montenegro
Chemical Science
2023, 14, 14074–14081
Link

(18) Horizons Community Board collection: antimicrobial materials and surfaces
I. Insua, I. Martín-Fabiani
Materials Horizons 2022, 9, 1564-1565
Link

(17) Cyclization and Self-Assembly of Cyclic Peptides in Peptide Macrocycles
A. Méndez-Ardoy, I. Insua, J.R. Granja, J. Montenegro
Methods in Molecular Biology 2022, 2371, 449-466
Link

(16) Bottom-up supramolecular assembly in two dimensions
I. Insua, J. Bergueiro, A. Méndez-Ardoy, I. Lostalé-Seijo, J. Montenegro
Chemical Science 2022, 13, 3057-3068
Link

(15) A bacterial endosymbiont of the fungus Rhizopus microsporus drives phagocyte evasion and opportunistic virulence
H. Itabangi, P.C.S. Sephton-Clark, D.P. Tamayo, X. Zhou, G.P. Starling, Z. Mahamoud, I. Insua, M. Probert, J. Correia, P.J. Moynihan, T. Gebremariam, Y. Gu, A.S. Ibrahim, G.D. Brown, J.S. King, E.R. Ballou, K. Voelz
Current Biology 2022, 32, 1115-1130

Link

(14) Supramolecular fibrillation of peptide amphiphiles induces environmental responses in aqueous droplets
R. Booth & I. Insua, S. Ahmed, A. Rioboo, J. Montenegro
Nature Communications 2021, 12, 6421

Link

(13) Sequence decoding of 1D to 2D self-assembling cyclic peptides
S. Díaz & I. Insua, G. Bhak, J. Montenegro
Chemistry - A European Journal 2020, 26, 14765-14770

Link

(12) Synthetic supramolecular systems in life-like materials and protocell models
I. Insua, J. Montenegro
Chem 2020, 6, 1652-1682

Link

(11) 1D to 2D self-assembly of cyclic peptides
I. Insua, J. Montenegro
Journal of the American Chemical Society 2020, 142, 300-307
Link

(10) Self-assembled micro-fibres by oxime connection of linear peptide amphiphiles
R. Booth, I. Insua, G. Bhak, J. Montenegro
Organic & Biomolecular Chemistry 2019, 17, 1984-1991
Link

(9) Architectural effects of star-shaped “Structurally Nanoengineered Antimicrobial Peptide Polymers” (SNAPPs) on their biological activity
S.J. Shirbin & I. Insua, J.A. Holden, J.C. Lenzo, E.C. Reynolds, N.M. O’Brien-Simpson, G.G. Qiao
Advanced Healthcare Materials 2018, 7, 1800627
Link

(8) Structural determinants of the stability of enzyme-responsive polyion complex nanoparticles targeting Pseudomonas aeruginosa’s elastase
I. Insua, M. Petit, L.D. Blackman, R. Keogh, A. Pitto-Barry, R.K. O'Reilly, A.F.A. Peacock, A.M. Krachler, F. Fernandez-Trillo
ChemNanoMat 2018, 4, 807-814
Link

(7) Polymyxin B containing polyion complex (PIC) nanoparticles: Improving the antimicrobial activity by tailoring the degree of polymerisation of the inert component
I. Insua, L. Zizmare, A.F.A. Peacock, A.M. Krachler, F. Fernandez-Trillo
Scientific Reports 2017, 7, 9396
Link

(6) Engineering microbial physiology with synthetic polymers: cationic polymers induce biofilm formation in Vibrio cholerae and downregulate the expression of virulence genes
N. Perez-Soto, L. Moule, D.N. Crisan, I. Insua, L.M. Taylor-Smith, K. Voelz, F. Fernandez-Trillo, A.M. Krachler
Chemical Science 2017, 8, 5291-5298
Link

(5) Preparation and antimicrobial evaluation of polyion complex (PIC) nanoparticles loaded with polymyxin B
I. Insua, S. Majok, A.F.A. Peacock, A.M. Krachler, F. Fernandez-Trillo
European Polymer Journal 2017, 87, 478-486
Link

(4) Polyion complex (PIC) particles: Preparation and biomedical applications
I. Insua, A. Wilkinson, F. Fernandez-Trillo
European Polymer Journal 2016, 81, 198-215
Link

(3) Enzyme-responsive polyion complex (PIC) nanoparticles for the targeted delivery of antimicrobial polymers
I. Insua, E. Liamas, Z. Zhang, A.F.A. Peacock, A.M. Krachler, F. Fernandez-Trillo
Polymer Chemistry 2016, 7, 2684-2690
Link

(2) Fundamentals, achievements and challenges in the electrochemical sensing of pathogens
J. Monzó, I. Insua, F. Fernandez-Trillo, P. Rodriguez
Analyst 2015, 140, 7116-7128
Link

(1) Synthesis and binding affinity of new 1,4-disubstituted triazoles as potential dopamine D3 receptor ligands
I. Insua, M. Alvarado, C.F. Masaguer, A. Iglesias, J. Brea, M.I. Loza, L. Carro
Bioorganic & Medicinal Chemistry Letters 2013, 23, 5586-5591
Link