Andrés de la Escosura Research Lines

Research Lines in Systems Chemistry

Photoactive and Catalytic Biohybrid Systems
Prebiotic Systems Chemistry

Photoactive and Catalytic Biohybrid Systems Reseacrh

The incorporation of photoactive molecules and catalysts into biological self-assembled nanostructures is highly desirable, because it provides them with photosensitizing / catalytic properties while retaining the capacity to respond to different (bio)chemical stimuli.

Escosura group biohybrid systems research line

In this respect, one of our main goals is to develop novel methodologies to prepare dyes and organocatalysts with adequate solubility features and functional groups for their covalent or supramolecular grafting to different (proto)biological architectures.

With this strategy, the potential use of these hybrid systems in biomedical applications (e.g., in PDT treatments and sensing) or in catalysis benefits from the biocompatibility imparted by the mentioned nanocarriers and assemblies, and from their specific interaction with target cells.

Selected Publications of this line of research:

  1. V. Almeida-Marrero, F. Bethlehem, S. Longo, M. Candelaria-Bertolino, T. Torres, J. Huskens, A. de la Escosura,* Tailored Multivalent Targeting of Siglecs with Photosensitizing Liposome Nanocarriers. Angew. Chem. Int. Ed. 2022, 134, e202206.photosensitizing liposome nanocarriers research publication
  2. Almeida-Marrero, M. Mascaraque, M. J. Vicente-Arana, A. Juarranz, T. Torres, A. de la Escosura,* Tuning the Nanoaggregates of Sialylated Biohybrid Photosensitizers for Intracellular Activation of the Photodynamic Response. Chem. Eur. J. 2021, 27, 9634-9642.
    researchs on intracellular activation of photodynamic systhems
  3. Shaukat, E. Anaya-Plaza, S. Julin, V. Linko, T. Torres, A. de la Escosura,* M. A. Kostiainen, Phthalocyanine-DNA origami complexes with enhanced stability and optical propertiesChem. Commun. 2020, 56, 7341-7344.
    research line in phthalocyanine-DNA origami complexes
  4. Almeida-Marrero, E. van de Winckle, E. Anaya-Plaza, T. Torres, A. de la Escosura,* Porphyrinoid Biohybrid Materials as an Emerging Toolbox for Biomedical Light Management. Chem. Soc. Rev. 2018, 47, 7360-7400. (Cover page). biomedical light management De la Escosura research
  5. Van de Winckle, M. Mascaraque, A. Zamarron, A. Juarranz de la Fuente, T. Torres, A. de la Escosura,* Dual Role of Subphthalocyanine Dyes for Optical Imaging and Therapy of Cancer. Adv. Funct. Mater. 2018, 28, 1705938.optical therapy cancer research Andrés group
  6. Anaya-Plaza, E. van de Winckle, J. Mikkila, J. Malho, O. Ikkala, O. Gulias, R. Bresoli-Obach, M. Agut, S. Nonell, T. Torres, M. Kostiainen, A. de la Escosura,* Photoantimicrobial Biohybrids by Supramolecular Immobilization of Cationic Phthalocyanines onto Cellulose Nanocrytal. Chem. Eur. J. 2017, 23, 1-8. (Cover page). supramolecular immobilization research of Andrés de la Escosura
  7. Mikkila, E. Anaya-Plaza, L. Viljeström, T. Torres, A. de la Escosura,* M. Kostiainen, Hierarchical Organization of Organic Dyes and Protein Cages into Photoactive Crystals. ACS Nano 2016, 10, 1565-1571. Andrés reseach in organic dyes in protein cages
  8. F. Setaro, M. Brasch, M. S. T. Koay, J. J. L. M. Cornelissen, A. de la Escosura,* T. Torres, Generation-Dependent Templated Self-Assembly of Biohybrid Protein Nanoparticles around Photosensitizer Dendrimers. Nano Lett. 2015, 15, 1245 – 1251. biohybrid protein nanoparticles Andrés Escosura research

Prebiotic Systems Chemistry Research

The study of complex molecular networks is a clear objective of the field so-called Systems Chemistry, which is expected to have a great impact in the area of origins-of-life research as well as in materials science.

We are starting to explore this field from both a theoretical and an experimental point of view. Concerning the origins of life, we have developed various theoretical contributions about prebiotic systems chemistry, pointing out the potential of this systems perspective at every level of the biogenesis process.

Experimentally, a pertinent question is whether artificial cells could be constructed from non-natural components. In order to provide clues about this question, we have started research lines on nucleic acid analogues, metabolic networks based on chemistries different from the current biochemistry, and nucleolipid compartments.

Escosura group prebiotic systems chemistry research line

The study and combination of these components is an interesting approach because it allows exploring some properties of life without the restrictions of the historical pathway that Darwinian evolution took.

In particular, we are studying different types of prebiotic reaction networks, as well as replicative systems, based on the merging of minimal nucleobase sequences with lipid moieties and amino acids as spacers, studying their potential for adaptive self-assembly, collective behaviour, selection and performance in out-of-equilibrium conditions. In some cases, we also decorate them with catalytic peptides.

Selected Publications of this line of research:

  1. Vela-Gallego, Z. Pardo-Botero, C. Moya, A. de la Escosura,* Collective Adaptability in a Replication Network of Minimal Nucleobase Sequences. Chem. Sci. 2022, 13, 10715-10724.Escosura Reseach line in replication network minimal nucleobase
  2. A. Kumar-Bandela, N. Wagner, S. Morales-Reina, H. Sadihov, A. Chotera-Ouda, K. Basu, R. Cohen-Luria, A. de la Escosura*, G. Ashkenasy: Primitive Selection of the Fittest Emerging Through Functional Synergy in Nucleopeptide Networks. Proc. Natl. Acad. Sci. USA 2021, 118, e2015285118.
    synergy nucleopeptide networks investigation
  3. S. Morales‐Reina, C. Giri, M. Leclercq, S. Vela‐Gallego, I. de la Torre, J. R. Castón, M. Surin, A. de la Escosura,* Programmed Recognition between Complementary Dinucleolipids to Control the Self‐Assembly of Lipidic Amphiphiles. Chem. Eur. J. 202026, 1082-1090 (VIP).
    research line in self assembly lipidic amphiphiles
  4. A. de la Escosura,* (2019). The Informational Substrate of Chemical Evolution: Implications for Abiogenesis. Life, 9, 66.Escosura research in Substrate of Chemical Evolution
  5. Ruiz-Mirazo, C. Briones, A. de la Escosura,* Chemical Roots of Biological Evolution: the Origins of Life as a Process of Development of Autonomous Functional Systems. Open Biol. 2017, 7, 170050. chemical roots in biological evolution research
  6. Ruiz-Mirazo, C. Briones, A. de la Escosura,* Prebiotic Systems Chemistry: New Perspectives for the Origins of Life”. Chem. Rev. 2014, 114, 285 – 366. prebiotic systems chemistry research

Contact:

Andrés de la Escosura Cartoon

Location:

Institutions:

Andrés de la Escosura Research Group | 2023®

Web Design for Science.