Other publications

M. Lienemann; A. Paananen; H. Boer; J. M. de la Fuente; I. García; S. Penadés; A. Koivula. Characterisation to self-assembled monolayers of neoglycoconjugates by AFM and SPR. Glycobiology. 19, pp. 633 – 643. (2009).

C. Cuestas-Ayllón, A.Glidle , G.McPhee , V. Grazú, M. Riehle, J. M. de la Fuente, H. Yin. Engineering Bio-surfaces for cell adhesion. European Cells and Materials. 18 – supp 2, pp. 56 – 56. (2009).

C. C. Berry; H. Harianawalw; J. Loebus; R. O. C. Oreffo; J. M. de la Fuente. Enhancement of human bone marrow cell uptake of quantum dots using Tat Peptide. Current Nanoscience. 5, pp. 390 – 395. (2009).

A. G. Barrientos; J. M. de la Fuente; M. Jiménez; D. Solís; F. J. Cañada; M. Martín-Lomas; S. Penadés. Modulating glycosidase degradation and lectin recognition of gold glyconanoparticles. Carbohydr. Res. 344, pp. 1474 – 1478. (2009).

E. Corredor; P. S. Testillano; M. J. Coronado; P. González-Melendi; R. Fernández-Pacheco; C. Marquina; M. R. Ibarra; J. M. de la Fuente; A. Pérez-de-Luque; M. C. Risueño. Nanoparticle penetration and transport in living pumpkin plants: in situ subcellular identification. BMC Plant Biology. 9, pp. 45. (2009).

M. Marradi; D. Alcántara; J. M. de la Fuente; P. M. Enríquez-Navas; J. Angulo; S. Penadés; F. Briones; M. Luna. Paramagnetic Gd-based gold glyconanoparticles as probes for MRI: tuning relaxivities with sugars. Chem. Comm. 26, pp. 3922 – 3924. (2009).

M. Fuss; D. Alcántara; J. M. de la Fuente; P. M. Enríquez-Navas; J. Angulo; S. Penadés; F. Briones; M. Luna. Carbohydrate-carbohydrate interaction prominence in 3D supramolecular self-assembly. J. Phys. Chem. B. 112, pp. 11595 – 11600. (2008).

S. Penadés; J. M. de la Fuente; A. G. Barrientos; C. Clavel; O. Martínez-Ávila; D. Alcántara. Multifunctional glyconanoparticles: Applications in biology and biomedicine. Nanomaterials for Application in Medicine and Biology. pp. 93 – 101. Springer. (2008).

M. Fuss; D. Alcántara; J. M. de la Fuente; S. Penadés; M. Luna; F. Briones. Supramolecular self-assembled arrangements of maltose glyconanoparticles. Langmuir. 24, pp. 5124 – 5128. (2008).

J M. de la Fuente; D. Alcántara; S. Penadés. Cell response to magnetic glyconanoparticles: Does the carbohydrate matter? IEEE T Nanobiosci. 6, pp. 275 – 281. (2007).

N. McMillan; L. V. Smith; J. M. de la Fuente; A. D. C. Parenty; N. Gadegaard; A. R. Pitt; K. Thomson; C. MacKenzie; S. M. Kelly; L. Cronin. Incorporation of N-heterocyclic cations into proteins with a highly directed chemical modification. Chem. Comm. pp. 2581 – 2583. (2007).

C. C. Berry; J. M. de la Fuente; M. Mullin; S. Wai Ling Chu; A. S. G. Curtis. Nuclear localisation of HIV-1 Tat functionalized gold. IEEE T Nanobiosci.6, pp. 262 – 269. (2007).

E. Grueso; D. Alcantara,; J. Martinez,; M. Mancera; S. Penades; F. Sanchez; R. Pradogotor. Kinetic Approach for the Study of Noncovalent Interaction between [Ru(NH3)5pz]2+ and Gold Nanoparticles. J. Phys. Chem. A. 111, pp. 9769 – 9774. (2007).

J. M. de la Fuente; C. C. Berry. Nanoparticles and QDs in nanobioscience. IEEE T Nanobiosci. 6, pp. 261 – 261. (2007).

I. Carabias; J. de la Venta; A. Quesada; M. A. García; L. Kolodziejczyk; J. M. de la Fuente; S. Penadés; A. Fernández; P. Crespo; A. Hernando. AFM characterization of small metallic nanoparticles. E-nano Newsletter. 4, pp. 11 – 14. (2006).

N. L. Mills; A. Nadia; S. D. Robinson; J. Davies; J. M. de la Fuente; W. MacNee; N. A. Boon; A. M. Millar; K. Donaldson; D. E. Newby. Do inhaled carbon nanoparticles translocate directly into the circulation in humans? Am. J. Resp. Crit. Care. 173, pp. 426 – 431. (2006).

P. Crespo; M. A. García; E. Fernández; M. Multigner; D. Alcántara; J. M. de la Fuente; S. Penadés; A. Hernando. Fe impurities weaken the ferromagnetic behavior in Au nanoparticles. Phys. Rev. Let. 97, pp. 177203. (2006).

J. M. de la Fuente; A. Andar; N. Gadegaard; C. C. Berry; M. Riehle. Fluorescent aromatic platforms for cell patterning. Langmuir (portada). 6, pp. 5528 – 5532. (2006).

J. M. de la Fuente; S. Penadés. Glyconanoparticles: Types, synthesis and applications in glycoscience, biomedicine and material science. BBA-Gen. Subjects. 1760, pp. 636 – 651. (2006).

J. M. de la Fuente; D. Alcántara; P. Eaton; P. Crespo; T. C. Rojas; A. Fernández; A. Hernando; S. Penadés. Gold and gold-iron oxide magnetic glyconanoparticles: Synthesis, characterization and magnetic properties. J. Phys Chem. B. 110, pp. 13021 – 13028. (2006).

J. M. de la Fuente; C. C. Berry; M. O. Riehle; A. S. G. Curtis. Nanoparticle targeting at cells. Langmuir. 22, pp. 3286 – 3293. (2006).

L. V. Smith; J. M. de la Fuente; K. M. Guthrie; L. Cronin. Does it bind? An instant binding assay for DNA oligonucleotide interactive small molecules. New J. Chem. (portada interna). 29, pp. 1118 – 1120. (2005).

A. Andar, J. M. de la Fuente, N.Gadegaard, C.Berry, M.O. Riehle. Effect of fluorescent micropatterned self-assembled monolayers on cell behaviour. European Cells and Materials. 10 – supp 2, pp. 5 – 5. (2005).

J. M. de la Fuente; S. Penadés. Glyco-quantum dots: A new luminescent system with multivalent carbohydrate display. Tetrahedron: Asymmetry. 16, pp. 387 – 391. (2005).

C. López-Cartes; T. C. Rojas; R. Litrán; D. Martínez-Martínez; J. M. de la Fuente; S. Penadés; A. Fernández. Gold nanoparticles with different capping systems: an electronic and structural XAS analysis. J. Phys. Chem. B. 109, pp. 8761 – 8766. (2005).

J. M. de la Fuente; M. Fandel; C. C. Berry; M. Riehle; L. Cronin; G. Aitchison; A. S. G. Curtis. Quantum dots protected with tiopronin: A new fluorescent system for cell biology studies. ChemBioChem (portada). 6, pp. 989 – 991. (2005).

J. M. de la Fuente; C. C. Berry. Tat-peptide as an efficient molecule to translocate gold nanoparticles into cell nucleus. Bioconj. Chem.16, pp. 1176 – 1180. (2005).

J. M. de la Fuente; P. Eaton; A. G. Barrientos; M. Menéndez; S. Penadés. Thermodynamic Evidence for Ca2+-Mediated Self-Aggregation of Lewis X Gold Glyconanoparticles. A Model for Cell Adhesion via Carbohydrate-Carbohydrate Interaction. J. Am. Chem. Soc.127, pp. 6192 – 6197. (2005).

J. Rojo; V. Díaz; J. M. de la Fuente; I. Segura; A. G. Barrientos; H. H. Riese; A. Bernad; S. Penadés. Gold Glyconanoparticles as New Tools in Antiadhesive Therapy. ChemBioChem. 5, pp. 291 – 297. (2004).

P. Crespo; R. Litrán; T. C. Rojas; M. Multigner; J. M. de la Fuente; J. C. Sánchez-López; M. A. García; A. Hernando; S. Penadés; A. Fernández. Permanent Magnetism, Magnetic Anisotropy, and Hysteresis of Thiol-Capped Gold Nanoparticles. Physical Review Letters. 93, pp. 087204. (2004).

J. M. de la Fuente; S. Penadés. Understanding carbohydrate-carbohydrate interactions by means of glyconanotechnology. Glycoconj. J.21, pp. 149 – 163. (2004).

G. Barrientos; J. M. de la Fuente; T. C. Rojas; A. Fernández; S. Penadés. Gold glyconanoparticles: Synthetic polyvalent ligands mimicking glycocalyx-like surfaces as tools for glycobiological studies. Chem. Eur. J. (frontispicio). 9, pp. 1909 – 1921. (2003).

M. J. Hernáiz; J. M. de la Fuente; A. G. Barrientos; S. Penadés. A model system mimcking glycosphingolipid clusters to quantify carbohydrate (LeX-LeX) self-interaction by surface plasmon resonance. Angew. Chem. Int. En. Ed. (hot paper). 41, pp. 1554 – 1557. (2002).

T. C. Rojas; J. M. de la Fuente; A. G. Barrientos; S. Penadés; L. Ponsonnet; A. Fernández. Gold glyconanoparticles as building blocks for nanomaterials design. Adv. Mater.14, pp. 585 – 588. (2002).

J. M. de la Fuente; S. Penadés. Synthesis of LeX-neoglycoconjugate to study carbohydrate-carbohydrate associations and its intramolecular interaction. Tetrahedron: Asymmetry. 13, pp. 1879 – 1888. (2002).

C. Tromas; J. Rojo; J. M. de la Fuente; A. G. Barrientos; R. García; S. Penadés. Adhesion forces between Lewis X determinant antigen measured by atomic force microscopy. Angew. Chem. Int. En. Ed.40, pp. 3052 – 3055. (2001).

J. M. de la Fuente. Gold glyconanoparticles as water-soluble polyvalent models to study carbohydrate interactions. Angew. Chem. Int. En. Ed. (frontispicio). 40, pp. 2257 – 2261. (2001).

C. Boix; J. M. de la Fuente; M. Poliakoff. Preparation of quinolines by reduction of o-nitroarenes with zinc in near-critical water. New Journal of Chemistry. 23, pp. 641 – 643. (1999).