36 results on '"García-Fandiño, R."'
Search Results
2. Reversing atherosclerosis by the specific removal of oxidized cholesterol with cyclodextrin dimer
- Author
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Clemens, D., Anderson, A., Dinh, D., Bhargava, P., Sadrerafi, K., Malanga, M., Garcia-Fandiño, R., Piñeiro, Á., and O'Connor, M.
- Published
- 2023
- Full Text
- View/download PDF
3. Defining the Nature of Thermal Intermediate in 3 State Folding Proteins: Apoflavodoxin, a Study Case
- Author
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Ministerio de Ciencia e Innovación (España), García-Fandiño, R., Bernadó, Pau, Ayuso-Tejedor, Sara, Sancho, Javier, Orozco, Modesto, Ministerio de Ciencia e Innovación (España), García-Fandiño, R., Bernadó, Pau, Ayuso-Tejedor, Sara, Sancho, Javier, and Orozco, Modesto
- Abstract
The early stages of the thermal unfolding of apoflavodoxin have been determined by using atomistic multi microsecond-scale molecular dynamics (MD) simulations complemented with a variety of experimental techniques. Results strongly suggest that the intermediate is reached very early in the thermal unfolding process and that it has the properties of an "activated" form of the native state, where thermal fluctuations in the loops break loop-loop contacts. The unrestrained loops gain then kinetic energy corrupting short secondary structure elements without corrupting the core of the protein. The MD-derived ensembles agree with experimental observables and draw a picture of the intermediate state inconsistent with a well-defined structure and characteristic of a typical partially disordered protein. Our results allow us to speculate that proteins with a well packed core connected by long loops might behave as partially disordered proteins under native conditions, or alternatively behave as three state folders. Small details in the sequence, easily tunable by evolution, can yield to one or the other type of proteins. © 2012 García-Fandino et al.
- Published
- 2012
4. cis-Platinum Complex Encapsulated in Self-Assembling Cyclic Peptide Dimers.
- Author
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Rodríguez-Vázquez, N., García-Fandiño, R., Aldegunde, M. J., Brea, J., Loza, M. I., Amorín, M., and Granja, J. R.
- Subjects
- *
CISPLATIN , *DIMERS , *CYCLIC peptides , *OVARIAN cancer , *CELL lines - Abstract
A new cyclic peptide dimer that encapsulates cisplatin complexes in its internal cavity is described. The resulting complex showed cytotoxic activity at A2780 ovarian cancer cell lines independent of acquired platinum resistance. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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5. Classical Simulations on Quantum Computers: Interface-Driven Peptide Folding on Simulated Membrane Surfaces.
- Author
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Conde-Torres D, Mussa-Juane M, Faílde D, Gómez A, García-Fandiño R, and Piñeiro Á
- Abstract
Background: Antimicrobial peptides (AMPs) are crucial in the fight against infections and play significant roles in various health contexts, including cancer, autoimmune diseases, and aging. A key aspect of AMP functionality is their selective interaction with pathogen membranes, which often exhibit altered lipid compositions. These interactions are thought to induce a conformational shift in AMPs from random coil to alpha-helical structures, essential for their lytic activity. Traditional computational approaches have faced challenges in accurately modeling these structural changes, especially in membrane environments, thereby opening and opportunity for more advanced approaches., Method: This study extends an existing quantum computing algorithm, initially designed for peptide folding simulations in homogeneous environments, to address the complexities of AMP interactions at interfaces. Our approach enables the prediction of the optimal conformation of peptides located in the transition region between hydrophilic and hydrophobic phases, resembling lipid membranes. The new method was tested on three 10-amino-acid-long peptides, each characterized by distinct hydrophobic, hydrophilic, or amphipathic properties, across different media and at interfaces between solvents of different polarity., Results: The developed method successfully modeled the structure of the peptides without increasing the number of qubits required compared to simulations in homogeneous media, making it more feasible with current quantum computing resources. Despite the current limitations in computational power and qubit availability, the findings demonstrate the significant potential of quantum computing in accurately characterizing complex biomolecular processes, particularly AMP folding at membrane models., Conclusions: This research highlights the promising applications of quantum computing in biomolecular simulations, paving the way for future advancements in the development of novel therapeutic agents. We aim to offer a new perspective on enhancing the accuracy and applicability of biomolecular simulations in the context of AMP interactions with membrane models., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)
- Published
- 2024
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6. Unraveling the molecular dynamics of sugammadex-rocuronium complexation: A blueprint for cyclodextrin drug design.
- Author
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Anderson A, García-Fandiño R, Piñeiro Á, and O'Connor MS
- Subjects
- Humans, Adult, Sugammadex, Rocuronium, Molecular Dynamics Simulation, Androstanols chemistry, gamma-Cyclodextrins chemistry, Cyclodextrins, Neuromuscular Nondepolarizing Agents chemistry
- Abstract
Sugammadex, marketed as Bridion™, is an approved cyclodextrin (CD) based drug for the reversal of neuromuscular blockade in adults undergoing surgery. Sugammadex forms an inclusion complex with the neuromuscular blocking agent (NMBA) rocuronium, allowing rapid reversal of muscle paralysis. In silico methods have been developed for studying CD inclusion complexes, aimed at accurately predicting their structural, energetic, dynamic, and kinetic properties, as well as binding constants. Here, a computational study aimed at characterizing the sugammadex-rocuronium system from the perspective of docking calculations, free molecular dynamics (MD) simulations, and biased metadynamics simulations with potential of mean force (PMF) calculations is presented. The aim is to provide detailed information about this system, as well as to use it as a model system for validation of the methods. This method predicts results in line with experimental evidence for both the optimal structure and the quantitative value for the binding constant. Interestingly, there is a less profound preference for the orientation than might be assumed based on electrostatic interactions, suggesting that both orientations may exist in solution. These results show that this technology can efficiently analyze CD inclusion complexes and could be used to facilitate the development and optimization of novel applications for CDs., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: AMA, RGF, AP, and MSO report financial support was provided by Cyclarity Therapeutics Inc. AMA, RGF, AP, and MSO report a relationship with Cyclarity Therapeutics Inc. that includes: employment, consultation or advisory, equity or stocks, and travel reimbursement. RGF and AP report a relationship with the company MD.USE that includes: employment, and equity or stocks., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)
- Published
- 2024
- Full Text
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7. Cyclodextrins: Establishing building blocks for AI-driven drug design by determining affinity constants in silico .
- Author
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Anderson A, Piñeiro Á, García-Fandiño R, and O'Connor MS
- Abstract
Cyclodextrins (CDs) are cyclic carbohydrate polymers that hold significant promise for drug delivery and industrial applications. Their effectiveness depends on their ability to encapsulate target molecules with strong affinity and specificity, but quantifying affinities in these systems accurately is challenging for a variety of reasons. Computational methods represent an exceptional complement to in vitro assays because they can be employed for existing and hypothetical molecules, providing high resolution structures in addition to a mechanistic, dynamic, kinetic, and thermodynamic characterization. Here, we employ potential of mean force (PMF) calculations obtained from guided metadynamics simulations to characterize the 1:1 inclusion complexes between four different modified βCDs, with different type, number, and location of substitutions, and two sterol molecules (cholesterol and 7-ketocholesterol). Our methods, validated for reproducibility through four independent repeated simulations per system and different post processing techniques, offer new insights into the formation and stability of CD-sterol inclusion complexes. A systematic distinct orientation preference where the sterol tail projects from the CD's larger face and significant impacts of CD substitutions on binding are observed. Notably, sampling only the CD cavity's wide face during simulations yielded comparable binding energies to full-cavity sampling, but in less time and with reduced statistical uncertainty, suggesting a more efficient approach. Bridging computational methods with complex molecular interactions, our research enables predictive CD designs for diverse applications. Moreover, the high reproducibility, sensitivity, and cost-effectiveness of the studied methods pave the way for extensive studies of massive CD-ligand combinations, enabling AI algorithm training and automated molecular design., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: AMA, RGF, AP, and MSO report financial support was provided by Cyclarity Therapeutics. Inc. AMA, RGF, AP, and MSO report a relationship with Cyclarity Therapeutics Inc that. includes: employment, consultation or advisory, equity or stocks, and travel reimbursement. RGF and AP report a relationship with the company MD.USE that includes: employment. and equity or stocks., (© 2024 The Authors.)
- Published
- 2024
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8. Unraveling lipid and inflammation interplay in cancer, aging and infection for novel theranostic approaches.
- Author
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Conde-Torres D, Blanco-González A, Seco-González A, Suárez-Lestón F, Cabezón A, Antelo-Riveiro P, Piñeiro Á, and García-Fandiño R
- Subjects
- Humans, Inflammation, Lipids, Precision Medicine, Neoplasms diagnosis, Neoplasms therapy
- Abstract
The synergistic relationships between Cancer, Aging, and Infection, here referred to as the CAIn Triangle, are significant determinants in numerous health maladies and mortality rates. The CAIn-related pathologies exhibit close correlations with each other and share two common underlying factors: persistent inflammation and anomalous lipid concentration profiles in the membranes of affected cells. This study provides a comprehensive evaluation of the most pertinent interconnections within the CAIn Triangle, in addition to examining the relationship between chronic inflammation and specific lipidic compositions in cellular membranes. To tackle the CAIn-associated diseases, a suite of complementary strategies aimed at diagnosis, prevention, and treatment is proffered. Our holistic approach is expected to augment the understanding of the fundamental mechanisms underlying these diseases and highlight the potential of shared features to facilitate the development of novel theranostic strategies., Competing Interests: Authors AB-G and FS-L were employed by company MD.USE Innovations S.L. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Conde-Torres, Blanco-González, Seco-González, Suárez-Lestón, Cabezón, Antelo-Riveiro, Piñeiro and García-Fandiño.)
- Published
- 2024
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9. Addressing the complexities in measuring cyclodextrin-sterol binding constants: A multidimensional study.
- Author
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Anderson AM, Manet I, Malanga M, Clemens DM, Sadrerafi K, Piñeiro Á, García-Fandiño R, and O'Connor MS
- Subjects
- Sterols, Calorimetry methods, Circular Dichroism, Cyclodextrins chemistry, Oxysterols
- Abstract
A class of cyclodextrin (CD) dimers has emerged as a potential new treatment for atherosclerosis; they work by forming strong, soluble inclusion complexes with oxysterols, allowing the body to reduce and heal arterial plaques. However, characterizing the interactions between CD dimers and oxysterols presents formidable challenges due to low sterol solubility, the synthesis of modified CDs resulting in varying number and position of molecular substitutions, and the diversity of interaction mechanisms. To address these challenges and illuminate the nuances of CD-sterol interactions, we have used multiple orthogonal approaches for a comprehensive characterization. Results obtained from three independent techniques - metadynamics simulations, competitive isothermal titration calorimetry, and circular dichroism - to quantify CD-sterol binding are presented. The objective of this study is to obtain the binding constants and gain insights into the intricate nature of the system, while accounting for the advantages and limitations of each method. Notably, our findings demonstrate ∼1000× stronger affinity of the CD dimer for 7-ketocholesterol in comparison to cholesterol for the 1:1 complex in direct binding assays. These methodologies and findings not only enhance our understanding of CD dimer-sterol interactions, but could also be generally applicable to prediction and quantification of other challenging host-guest complex systems., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: All authors report financial support, administrative support, equipment, drugs, or supplies, travel, and writing assistance were provided by Cyclarity Therapeutics. Amelia Anderson and Matthew O'Connor have patent Cyclodextrin dimers, compositions thereof, and uses thereof pending to CYCLARITY THERAPUTICS, INC. The authors would like to disclose that AMA, KS, DMC, and MSO have a financial interest in the company Cyclarity Therapeutics. MM has a financial interest in the company CarboHyde; RGF and AP have a financial interest in the company MD.USE. Cyclarity Therapeutics commissioned this work from all authors., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)
- Published
- 2024
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10. Molecular insights into the effects of focused ultrasound mechanotherapy on lipid bilayers: Unlocking the keys to design effective treatments.
- Author
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Blanco-González A, Marrink SJ, Piñeiro Á, and García-Fandiño R
- Subjects
- Cell Membrane chemistry, Lipid Bilayers chemistry, Molecular Dynamics Simulation
- Abstract
Administration of focused ultrasounds (US) represents an attractive complement to classical therapies for a wide range of maladies, from cancer to neurological pathologies, as they are non-invasive, easily targeted, their dosage is easy to control, and they involve low risks. Different mechanisms have been proposed for their activity but the direct effect of their interaction with cell membranes is not well understood at the molecular level. This is in part due to the difficulty of designing experiments able to probe the required spatio-temporal resolutions. Here we use Molecular Dynamics (MD) simulations at two resolution levels and machine learning (ML) classification tools to shed light on the effects that focused US mechanotherapy methods have over a range of lipid bilayers. Our results indicate that the dynamic-structural response of the membrane models to the mechanical perturbations caused by the sound waves strongly depends on the lipid composition. The analyses performed on the MD trajectories contribute to a better understanding of the behavior of lipid membranes, and to open up a path for the rational design of new therapies for the long list of diseases characterized by specific lipid profiles of pathological membrane cells., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)
- Published
- 2023
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11. Unravelling hierarchical levels of structure in lipid membranes.
- Author
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Blanco-González A, Piñeiro Á, and García-Fandiño R
- Abstract
In analogy with the hierarchical levels typically used to describe the structure of nucleic acids or proteins and keeping in mind that lipid bilayers are not just mere envelopers for biological material but directly responsible for many important functions of life, it is discussed here how membrane models can also be interpreted in terms of different hierarchies in their structure. Namely, lipid composition, interaction between leaflets, existence and interaction of domains arising from the coordinate behavior of lipids and their properties, plus the manifest and specific perturbation of the lipid organization around macromolecules embedded in a membrane are hereby used to define the primary, secondary, tertiary and quaternary structures, respectively. Molecular Dynamics simulations are used to illustrate this proposal. Alternative levels of organization and methods to define domains can be proposed but the final aim is to highlight the paradigm arising from this description which is expected to have significant consequences on deciphering the underlying factors governing membranes and their interactions with other molecules., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 Published by Elsevier B.V. on behalf of Research Network of Computational and Structural Biotechnology.)
- Published
- 2022
- Full Text
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12. In Vitro - In Silico Modeling Approach to Rationally Designed Simple and Versatile Drug Delivery Systems.
- Author
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Bouzo BL, Calvelo M, Martín-Pastor M, García-Fandiño R, and de la Fuente M
- Subjects
- Computer Simulation, Drug Delivery Systems, Nanotechnology, Curcumin, Pharmaceutical Preparations
- Abstract
Rational design and development of a nanosystem usually relies on empirical approaches as well as a fair degree of serendipity. Understanding how nanosystems behave at the molecular level is of great importance for potential biomedical applications. In this work, we describe a nanosystem composed of two natural compounds, vitamin E and sphingomyelin, prepared by spontaneous emulsification (vitamin E-sphingomyelin nanosystems (VSNs)). Extensive characterization revealed suitable physicochemical properties, very high biocompatibility in vitro and in vivo , and colloidal stability during storage and in biological media, all relevant properties for clinical translation. We have additionally pursued a computational approach to gain an improved understanding of the assembling, structure, dynamics, and drug-loading capacity of VSNs, using both small molecules and biomolecules (resveratrol, curcumin, gemcitabine, and two peptides). The spontaneous formation of compartmentalized VSNs starting from completely disassembled molecules, observed here for the first time, was accurately assessed from the computational molecular dynamics trajectories. We describe here a synergistic in silico / in vitro approach showing the predictive power of computational simulations for VSNs' structural characterization and description of internal interaction mechanisms responsible for the association of bioactive molecules, representing a paradigm shift in the rational design of nanotechnologies as drug delivery systems for advanced personalized medicine.
- Published
- 2020
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13. Skeletal diversity in Pt- and Au-catalyzed annulations of allenedienes: dissecting unconventional mechanistic pathways.
- Author
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Nelson R, Calvelo M, García-Fandiño R, Lledós A, Ujaque G, Mascareñas JL, and López F
- Abstract
We describe the discovery of unprecedented annulation processes of 1,7-allenedienes, promoted by Pt or Au catalysts. These transformations revealed mechanistic pathways that had not been previously observed in reactions involving carbophilic catalysis. In particular, we have found that allenedienes bearing a silyl ether in the carbon tether connecting the diene and the allene divergently afford cyclopropane-embedded tricyclic derivatives, 6,6-fused bicarbocyclic products or 5,6-fused bicarbocyclic systems, depending on the type of Au or Pt catalyst used. We have carried out experimental and computational studies that shed light on the mechanistic reasons behind this rich and unusual skeletal divergence, and provide new lessons on the drastic influence of platinum ancillary ligands on the reaction outcome., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)
- Published
- 2020
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14. Tight Xenon Confinement in a Crystalline Sandwich-like Hydrogen-Bonded Dimeric Capsule of a Cyclic Peptide.
- Author
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Pizzi A, Ozores HL, Calvelo M, García-Fandiño R, Amorín M, Demitri N, Terraneo G, Bracco S, Comotti A, Sozzani P, Bezuidenhout CX, Metrangolo P, and Granja JR
- Abstract
A cyclic hexapeptide with three pyridyl moieties connected to its backbone forms a hydrogen-bonded dimer, which tightly encapsulates a single xenon atom, like a pearl in its shell. The dimer imprints its shape and symmetry to the captured xenon atom, as demonstrated by
129 Xe NMR spectroscopy, single-crystal X-ray diffraction, and computational studies. The dimers self-assemble hierarchically into tubular structures to form a porous supramolecular architecture, whose cavities are filled by small molecules and gases., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)- Published
- 2019
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15. Rhodium-Catalyzed Annulation of ortho-Alkenyl Anilides with Alkynes: Formation of Unexpected Naphthalene Adducts.
- Author
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Seoane A, Comanescu C, Casanova N, García-Fandiño R, Diz X, Mascareñas JL, and Gulías M
- Abstract
o-Alkenyl N-triflylanilides underwent rhodium(III)-catalyzed oxidative annulations with alkynes to produce different types of naphthylamides in a process which involves the cleavage of two C-H bonds. Remarkably, besides formal dehydrogenative (4C+2C) cycloadducts, the reaction also produces variable amounts of isomeric naphthylamides, whose formation requires a formal migration of the alkenyl moiety from the ortho to the meta position of the anilide. The annulation reaction can be efficiently carried out in the absence of external oxidants, such as Cu(OAc)
2 ., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)- Published
- 2019
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16. GADDLE Maps: General Algorithm for Discrete Object Deformations Based on Local Exchange Maps.
- Author
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Otero-Mato JM, Montes-Campos H, Calvelo M, García-Fandiño R, Gallego LJ, Piñeiro Á, and Varela LM
- Abstract
A new method for switching between structures consisting of equivalent discrete and flexible objects with different particle representation and object configuration, including different resolution levels (number of particles per object), is reported. The method is fully general since it does not require any extra code nor additional database elements for new systems. It is based on a Monte Carlo sampling of the configurational space for each object type of the target system. The sampling is controlled by a Metropolis acceptance criterion of movements (translations, rotations, and relative deformations of the object configuration) that uses the generalized distance between the sets of particles at both representations. For Gaussian distributed distances, such a minimization procedure is equivalent to an optimization of χ
2 in a maximum likelihood method. This provides sound statistical support since the method leads to the most probable configuration of the system at each representation. The configurations obtained in this way are then used to create resolution exchange maps for each object type, which allows the extrapolation of the conversion to every object configuration throughout the whole system. As an example, the method is here tested with several molecular dynamics simulated systems (ionic liquids, cyclodextrins, cell-penetrating peptides, cyclic peptides, lipid bilayers, vesicles, heterogeneous organic molecules, DNA, and solvated proteins) for different resolution force fields (GROMOS, AMBER, OPLS, MARTINI) using GROMACS. In this context, the method can be applied to map structures described by any other pair of force fields, as well as to homogeneous and heterogeneous systems with many different molecules. The method is proved to be highly efficient since the time required for the mapping is practically independent of the number of molecules in the target system.- Published
- 2018
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17. Hydrazone-modulated peptides for efficient gene transfection.
- Author
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Louzao I, García-Fandiño R, and Montenegro J
- Abstract
Gene transfection continues to be a major challenge in chemistry, biology and materials sciences. New methodologies and recent breakthroughs have renewed the interest in the discovery and development of new tools for efficient gene transfection. Hydrazone formation between a cationic head and hydrophobic tails has emerged as one of the most promising techniques for nucleotide delivery. In this contribution, we have exploited hydrazone formation to modulate the transfection activity of a parent linear peptide in combination with a plasmid DNA cargo. This strategy allowed the straightforward preparation, under physiologically compatible conditions, of a discrete library of amphiphilic modulated penetrating peptides. Without the requirement of any isolation or purification steps, these modulated amphiphilic peptides were combined with a plasmid DNA and screened in transfection experiments of human HeLa cells. Three of these hydrazone-conjugated peptides were identified as excellent vectors for plasmid delivery with comparable, or even higher, efficiencies and lower toxicity than the commercial reagents employed in routine transfection assays.
- Published
- 2017
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18. Palladium-Catalyzed Formal (5 + 2) Annulation between ortho-Alkenylanilides and Allenes.
- Author
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Cendón B, Casanova N, Comanescu C, García-Fandiño R, Seoane A, Gulías M, and Mascareñas JL
- Abstract
2-Alkenyltriflylanilides react with allenes upon treatment with catalytic amounts of Pd(OAc)
2 and Cu(II) to give highly valuable 2,3-dihydro-1H-benzo[b]azepines, in good yields, and with very high regio- and diastereoselectivities. Density functional theory (DFT) calculations suggest that the C-H activation of the alkenylanilide involves a classical concerted metalation-deprotonation (CMD) mechanism.- Published
- 2017
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19. Palladium(II)-Catalyzed Annulation between ortho -Alkenylphenols and Allenes. Key Role of the Metal Geometry in Determining the Reaction Outcome.
- Author
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Casanova N, Del Rio KP, García-Fandiño R, Mascareñas JL, and Gulías M
- Abstract
2-Alkenylphenols react with allenes, upon treatment with catalytic amounts of Pd(II) and Cu(II), to give benzoxepine products in high yields and with very good regio- and diastereoselectivities. This contrasts with the results obtained with Rh catalysts, which provided chromene-like products through a pathway involving a β-hydrogen elimination step. Computational studies suggest that the square planar geometry of the palladium is critical to favor the reductive elimination process required for the formation of the oxepine products.
- Published
- 2016
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20. A designed DNA binding motif that recognizes extended sites and spans two adjacent major grooves.
- Author
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Rodríguez J, Mosquera J, García-Fandiño R, Vázquez ME, and Mascareñas JL
- Abstract
We report the rational design of a DNA-binding peptide construct composed of the DNA-contacting regions of two transcription factors (GCN4 and GAGA) linked through an AT-hook DNA anchor. The resulting chimera, which represents a new, non-natural DNA binding motif, binds with high affinity and selectivity to a long composite sequence of 13 base pairs (TCAT-AATT-GAGAG).
- Published
- 2016
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21. Self-assembling α,γ-cyclic peptides that generate cavities with tunable properties.
- Author
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Rodríguez-Vázquez N, García-Fandiño R, Amorín M, and Granja JR
- Abstract
The design and synthesis of β-sheet-based self-assembling cyclic peptides with tunable cavities is described. The incorporation of a γ-amino acid with a hydroxyl group at C2 allows the incorporation of different groups that modify the internal properties of the resulting dimeric ensemble. These dimers can entrap different guests depending on the properties of the group at C2. The guest defines the geometry of the resulting aggregate.
- Published
- 2016
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22. Self-Assembly of Silver Metal Clusters of Small Atomicity on Cyclic Peptide Nanotubes.
- Author
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Cuerva M, García-Fandiño R, Vázquez-Vázquez C, López-Quintela MA, Montenegro J, and Granja JR
- Subjects
- Circular Dichroism, Microscopy, Atomic Force, Models, Molecular, Nanotubes, Peptide ultrastructure, Pyrenes chemistry, Quantum Theory, Solutions, Spectrometry, Fluorescence, Nanotechnology methods, Nanotubes, Peptide chemistry, Peptides, Cyclic chemistry, Silver chemistry
- Abstract
Subnanometric noble metal clusters, composed by only a few atoms, behave like molecular entities and display magnetic, luminescent and catalytic activities. However, noncovalent interactions of molecular metal clusters, lacking of any ligand or surfactant, have not been seen at work. Theoretically attractive and experimentally discernible, van der Waals forces and noncovalent interactions at the metal/organic interfaces will be crucial to understand and develop the next generation of hybrid nanomaterials. Here, we present experimental and theoretical evidence of noncovalent interactions between subnanometric metal (0) silver clusters and aromatic rings and their application in the preparation of 1D self-assembled hybrid architectures with ditopic peptide nanotubes. Atomic force microscopy, fluorescence experiments, circular dichroism and computational simulations verified the occurrence of these interactions in the clean and mild formation of a novel peptide nanotube and metal cluster hybrid material. The findings reported here confirmed the sensitivity of silver metal clusters of small atomicity toward noncovalent interactions, a concept that could find multiple applications in nanotechnology. We conclude that induced supramolecular forces are optimal candidates for the precise spatial positioning and properties modulation of molecular metal clusters. The reported results herein outline and generalize the possibilities that noncovalent interactions will have in this emerging field.
- Published
- 2015
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23. Molecular dynamics simulations for designing biomimetic pores based on internally functionalized self-assembling α,γ-peptide nanotubes.
- Author
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Calvelo M, Vázquez S, and García-Fandiño R
- Subjects
- Amino Acids chemistry, Amino Acids metabolism, Biomimetics, Hydrogen Bonding, Lipid Bilayers chemistry, Nanopores, Peptides, Cyclic chemistry, Molecular Dynamics Simulation, Nanotubes, Peptide chemistry
- Abstract
A molecular dynamics study on internally functionalized peptide nanotubes composed of α- and γ-amino acids self-assembled in lipid bilayers is presented. One of the main advantages of peptide nanotubes composed of γ-amino acids is that the properties of their inner cavities can be tuned by introducing different functions on β-carbon of the γ-amino acid. In the work described here we studied the effect of the presence of different numbers of hydroxyl groups in different positions in the lumen of these channels when they are inserted into a lipid bilayer and assessed how they affect the structural and dynamic behavior of the modified peptide nanotubes as well as the transmembrane transport of different ions. The results provided atomic information about the effect of polar groups on the dynamic, structural and transport properties of this type of peptidic channel upon insertion into lipid bilayers, projecting a promising future for their use as biomimetic channels when properly inner-derivatized. Furthermore, the chemical versatility of the hydroxyl groups in the lumen of the peptide nanotubes would enable appealing applications for these channels, such as a controlled method for the activation/inactivation of the transmembrane transport along the nanopore.
- Published
- 2015
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24. Self-Sorting of cyclic peptide homodimers into a heterodimeric assembly featuring an efficient photoinduced intramolecular electron-transfer process.
- Author
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Aragay G, Ventura B, Guerra A, Pintre I, Chiorboli C, García-Fandiño R, Flamigni L, Granja JR, and Ballester P
- Subjects
- Electron Transport, Hydrogen Bonding, Molecular Structure, Photochemistry, Metalloporphyrins chemistry, Peptides, Cyclic chemistry, Zinc chemistry
- Abstract
We describe the thermodynamic characterisation of the self-sorting process experienced by two homodimers assembled by hydrogen-bonding interactions through their cyclopeptide scaffolds and decorated with Zn-porphyrin and fullerene units into a heterodimeric assembly that contains one electron-donor (Zn–porphyrin) and one electron-acceptor group (fullerene). The fluorescence of the Zn-porphyrin unit is strongly quenched upon heterodimer formation. This phenomenon is demonstrated to be the result of an efficient photoinduced electron-transfer (PET) process occurring between the Zn-porphyrin and the fullerene units of the heterodimeric system. The recombination lifetime of the charge-separated state of the heterodimer complex is in the order of 180 ns. In solution, both homo- and heterodimers are present as a mixture of three regioisomers: two staggered and one eclipsed. At the concentration used for this study, the high stability constant determined for the heterodimer suggests that the eclipsed conformer is the main component in solution. The application of the bound-state scenario allowed us to calculate that the heterodimer exists mainly as the eclipsed regioisomer (75-90 %). The attractive interaction that exists between the donor and acceptor chromophores in the heterodimeric assembly favours their arrangement in close contact. This is confirmed by the presence of charge-transfer bands centred at 720 nm in the absorption spectrum of the heterodimer. PET occurs in approximately 75% of the chromophores after excitation of both Zn-porphyrin and fullerene chromophores. Conversely, analogous systems, reported previously, decorated with extended tetrathiafulvalene and fullerene units showed a PET process in a significantly reduced extent (33%). We conclude that the strength (stability constant (K) x effective molarity (EM)) of the intramolecular interaction established between the two chromophores in the Zn-porphyrin/fullerene cyclopeptide-based heterodimers controls the regioisomeric distribution and regulates the high extent to which the PET process takes place in this system.
- Published
- 2014
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25. Mechanistic study on the palladium-catalyzed (3 + 2) intramolecular cycloaddition of alk-5-enylidenecyclopropanes.
- Author
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García-Fandiño R, Gulías M, Mascareñas JL, and Cárdenas DJ
- Subjects
- Catalysis, Cycloaddition Reaction, Cyclopropanes chemistry, Palladium chemistry
- Abstract
The intramolecular (3 + 2) cycloaddition of alkenylidenecyclopropanes to alkenes under palladium catalysis provides a practical and stereoselective entry into a variety of interesting bicycles. The reaction outcome and stereoselectivity of the process are somewhat dependent on the characteristics of the substrate and of the palladium ligand, which is not easy to justify on the basis of the current mechanistic understanding. We therefore decided to study the different mechanistic alternatives from a theoretical point of view. The energies of the reaction intermediates and transition states for different possible pathways have been explored at DFT level in a model system, and using PH(3) and P(OMe)(3) as ligands. The results obtained suggest that the most favourable reaction pathway involves an initial oxidative addition of Pd(0) at the distal position of the cyclopropane to afford a palladacyclobutane intermediate. The evolution of this intermediate into the final cycloadduct can occur following different paths, the most favorable depending on the configuration and substitution of the alkene cycloaddition partner, and the number of ancillary ligands coordinated to Pd. The computational results are consistent with the experimental observations and provide the basis for proposing which would be the operative mechanistic pathway in different cases. The results also allow us to explain the stereochemical divergences observed in some of the reactions.
- Published
- 2012
- Full Text
- View/download PDF
26. Palladium-catalyzed conjugate addition of terminal alkynes to enones.
- Author
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Villarino L, García-Fandiño R, López F, and Mascareñas JL
- Abstract
A practical protocol for the hydroalkynylation of enones using Pd catalysis is reported. The reaction proceeds efficiently with a variety of alkynes as well as with several cyclic and acyclic enones, providing synthetically relevant β-alkynyl ketones in good to excellent yields.
- Published
- 2012
- Full Text
- View/download PDF
27. Designing biomimetic pores based on carbon nanotubes.
- Author
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García-Fandiño R and Sansom MS
- Subjects
- Chlorides chemistry, Computer Simulation, Molecular Dynamics Simulation, Porins chemistry, Sodium chemistry, Biomimetic Materials chemistry, Nanotubes, Carbon chemistry
- Abstract
Biomimetic nanopores based on membrane-spanning single-walled carbon nanotubes have been designed to include selectivity filters based on combinations of anionic and cationic groups mimicking those present in bacterial porins and in voltage-gated sodium and calcium channels. The ion permeation and selectivity properties of these nanopores when embedded in a phospholipid bilayer have been explored by molecular dynamics simulations and free energy profile calculations. The interactions of the nanopores with sodium, potassium, calcium, and chloride ions have been explored as a function of the number of anionic and cationic groups within the selectivity filter. Unbiased molecular dynamics simulations show that the overall selectivity is largely determined by the net charge of the filter. Analysis of distribution functions reveals considerable structuring of the distribution of ions and water within the nanopores. The distributions of ions along the pore axis reveal local selectivity for cations around filter, even in those nanopores (C0) where the net filter charge is zero. Single ion free energy profiles also reveal clear evidence for cation selectivity, even in the C0 nanopores. Detailed analysis of the interactions of the C0 nanopore with Ca(2+) ions reveals that local interactions with the anionic (carboxylate) groups of the selectivity filter lead to (partial) replacement of solvating water as the ion passes through the pore. These studies suggest that a computational biomimetic approach can be used to evaluate our understanding of the design principles of nanopores and channels.
- Published
- 2012
- Full Text
- View/download PDF
28. Defining the nature of thermal intermediate in 3 state folding proteins: apoflavodoxin, a study case.
- Author
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García-Fandiño R, Bernadó P, Ayuso-Tejedor S, Sancho J, and Orozco M
- Subjects
- Amino Acid Sequence, Kinetics, Models, Molecular, Molecular Dynamics Simulation, Molecular Sequence Data, Protein Structure, Secondary, Apoproteins chemistry, Flavodoxin chemistry, Protein Folding
- Abstract
The early stages of the thermal unfolding of apoflavodoxin have been determined by using atomistic multi microsecond-scale molecular dynamics (MD) simulations complemented with a variety of experimental techniques. Results strongly suggest that the intermediate is reached very early in the thermal unfolding process and that it has the properties of an "activated" form of the native state, where thermal fluctuations in the loops break loop-loop contacts. The unrestrained loops gain then kinetic energy corrupting short secondary structure elements without corrupting the core of the protein. The MD-derived ensembles agree with experimental observables and draw a picture of the intermediate state inconsistent with a well-defined structure and characteristic of a typical partially disordered protein. Our results allow us to speculate that proteins with a well packed core connected by long loops might behave as partially disordered proteins under native conditions, or alternatively behave as three state folders. Small details in the sequence, easily tunable by evolution, can yield to one or the other type of proteins.
- Published
- 2012
- Full Text
- View/download PDF
29. Structural analysis of an equilibrium folding intermediate in the apoflavodoxin native ensemble by small-angle X-ray scattering.
- Author
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Ayuso-Tejedor S, García-Fandiño R, Orozco M, Sancho J, and Bernadó P
- Subjects
- Amino Acid Substitution, Apoproteins genetics, Flavodoxin genetics, Hot Temperature, Kinetics, Models, Molecular, Mutant Proteins chemistry, Mutant Proteins genetics, Mutant Proteins metabolism, Mutation, Missense, Protein Denaturation, Scattering, Small Angle, Anabaena enzymology, Apoproteins chemistry, Apoproteins metabolism, Flavodoxin chemistry, Flavodoxin metabolism, Protein Folding
- Abstract
Intermediate conformations are crucial to our understanding of how proteins fold into their native structures and become functional. Conventional spectroscopic measurements of thermal denaturation transitions allow the detection of equilibrium intermediates but often provide little structural detail; thus, application of more informative techniques is required. Here we used small-angle X-ray scattering (SAXS) to study the thermal denaturation of four variants of Anabaena PCC 7119 flavodoxin, including the wild-type apo and holo forms, and two mutants, E20K/E72K and F98N. Denaturation was monitored from changes in SAXS descriptors. Although the starting and final points of the denaturation were similar for the flavodoxin variants tested, substantial differences in the unfolding pathway were apparent between them. In agreement with calorimetric data, analysis of the SAXS data sets indicated a three-state unfolding equilibrium for wild-type apoflavodoxin, a two-state equilibrium for the F98N mutant, and increased thermostability of the E20K/E72K mutant and holoflavodoxin. Although the apoflavodoxin intermediate consistently appeared mixed with significant amounts of either native or unfolded conformations, its SAXS profile was derived from the deconvolution of the temperature-dependent SAXS data set. The apoflavodoxin thermal intermediate was structurally close to the native state but less compact, thereby indicating incipient unfolding. The residues that foster denaturation were explored by an ensemble of equilibrium ϕ-value restrained molecular dynamics. These simulations pointed to residues located in the cofactor and partner-protein recognition regions as the initial sites of denaturation and suggest a conformational adaptation as the mechanism of action in apoflavodoxin., (Copyright © 2011 Elsevier Ltd. All rights reserved.)
- Published
- 2011
- Full Text
- View/download PDF
30. Interaction and dimerization energies in methyl-blocked alpha,gamma-peptide nanotube segments.
- Author
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García-Fandiño R, Castedo L, Granja JR, and Vázquez SA
- Subjects
- Cyclopentanes chemistry, Dimerization, Hydrogen Bonding, Peptides, Cyclic chemistry, Protein Conformation, Thermodynamics, Nanotubes, Peptide chemistry
- Abstract
The building blocks of a promising class of peptide nanotubes composed of alternating D-alpha-amino acids and (1R,3S)-3-aminocyclohexane (or cyclopentane) carboxylic acid (D-gamma-Ach or D-gamma-Acp) were explored by computational methods. Specifically, density functional theory (DFT) calculations on monomers and dimers of gamma-Ach-based and gamma-Acp-based alpha,gamma-cyclo-hexapeptides and cyclo-octapeptides were carried out to investigate the experimentally observed preference for alpha-alpha over gamma-gamma dimerization, associated with the two types of stacking patterns present in these peptide nanotubes, as well as the preference for heterodimerization versus homodimerization. Full geometry optimizations were performed at the B3LYP/6-31G(d) level, and single point calculations were subsequently carried out with the B3LYP and M05-2X functionals and the 6-31+G(d,p) basis set. The calculations predict that the interaction energies in the alpha-alpha species are quite similar to those in the gamma-gamma dimers. However, a comparison of dimerization energies (i.e., interaction energies plus deformation energies of monomers) shows that alpha-alpha dimerization is energetically favored over gamma-gamma dimerization. The calculations strongly suggest that the preference for alpha-alpha binding is governed by differences between the deformation energies in the alpha and gamma monomers, rather than by differences between the relative strengths of the alpha-alpha and gamma-gamma hydrogen-bonding patterns. Calculations based on local properties of the electron density support the previous suggestion that the H-N bonds of the alpha-amino acids are more polarized than those of the gamma-amino acids.
- Published
- 2010
- Full Text
- View/download PDF
31. Alpha,gamma-cyclic peptide ensembles with a hydroxylated cavity.
- Author
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Reiriz C, Amorín M, García-Fandiño R, Castedo L, and Granja JR
- Subjects
- Amino Acids chemistry, Dimerization, Hydroxylation, Isomerism, Models, Molecular, Molecular Conformation, Peptides, Cyclic chemistry
- Abstract
Here we describe a self-assembling alpha,gamma-cyclic tetrapeptide that contains the 4-amino-3-hydroxytetrahydrofuran-2-carboxylic acid, in which the hydroxy group is pointing towards the inner cavity of the resulting dimers.
- Published
- 2009
- Full Text
- View/download PDF
32. Theoretical characterization of the dynamical behavior and transport properties of alpha,gamma-peptide nanotubes in solution.
- Author
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García-Fandiño R, Granja JR, D'Abramo M, and Orozco M
- Subjects
- Crystallography, X-Ray, Molecular Dynamics Simulation, Solutions, Models, Chemical, Nanotubes, Peptides chemistry
- Abstract
We present here a molecular dynamics study on a promising class of peptide nanotubes with a partially hydrophobic inner cavity and an easy chemical functionalization of the lumen of the cylindrical structure. The structural and dynamical behavior of the nanotube in water, methanol, and chloroform has been analyzed using state of the art theoretical methods. The nanotube structure is always well preserved, but solvent-dependent dynamic alterations are evident. Such dynamic effects are surprisingly more severe in the most viscous solvent (water), as a consequence of the competition in polar solvents between intra- and intermolecular hydrogen bonds. Stiffness analysis from the collected trajectories helped us to characterize the equilibrium deformability of the nanotube, while steered dynamics simulations were used to determine the magnitude of free energy associated with nanotube growth. Analysis of the carrier and permeation properties of the compounds reveals surprising properties: (i) permeability for the most polar solvent (water), (ii) carrier properties for the most apolar solvent (chloroform), and (iii) neither good permeation nor carrier properties for the intermediate solvent in polarity (methanol). Results reported here constitute the most extensive characterization of these nanotubes presented to date and open many intriguing questions on their stability, dynamics, and transport/carrier properties.
- Published
- 2009
- Full Text
- View/download PDF
33. Palladium-catalysed [3+2] cycloaddition of alk-5-ynylidenecyclopropanes to alkynes: a mechanistic DFT study.
- Author
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García-Fandiño R, Gulías M, Castedo L, Granja JR, Mascareñas JL, and Cárdenas DJ
- Subjects
- Catalysis, Cyclization, Electrons, Methane chemistry, Methylation, Models, Molecular, Molecular Structure, Thermodynamics, Alkynes chemistry, Cyclopropanes chemistry, Palladium chemistry
- Abstract
The mechanism of the palladium-catalysed [3+2] intramolecular cycloaddition of alkylidenecyclopropanes to alkynes has been computationally explored at DFT level. The energies of the reaction intermediates and transition states for different possible pathways have been calculated in a model system that involves the use of PH3 as a ligand. The results obtained suggest that the most favourable reaction pathway involves the initial C--C oxidative addition of the cyclopropane to a Pd0 complex to give an alkylidenepalladacyclobutane, which isomerises to a methylenepalladacyclobutane intermediate. Subsequent cyclisation by alkyne carbometallation, followed by reductive elimination affords the final product. An alternative mechanism consisting of a palladaene-type rearrangement is less probable in terms of Gibbs energy, but cannot be fully discarded because it is competitive if one considers electronic energies. For substrates that present an ester group at the terminal position of the triple bond we have found an alternative, more favourable mechanistic route that explains why the [3+2] cycloaddition of these types of systems does not lead to the expected cycloadducts.
- Published
- 2008
- Full Text
- View/download PDF
34. Feasibility of associative mechanism in enyne metathesis catalyzed by grubbs complexes.
- Author
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García-Fandiño R, Castedo L, Granja JR, and Cárdenas DJ
- Abstract
The mechanism of enyne metathesis catalyzed by first and second generation Grubbs complexes has been computationally explored at the DFT level. The relative reactivity and the regioselectivity for the reaction of differently substituted alkenes and alkynes with model Ru complexes has been studied. The usually accepted dissociative mechanism for the alkene metathesis has been explored for alkynes, and compared with an associative pathway involving initial coordination of the alkyne to the 16-electron catalyst. Our results show that an associative mechanism would be the preferred pathway for the reaction of phosphine-based (first generation) Ru carbenes, at least for small phosphines such as PMe(3), whereas for the more reactive complexes containing a heterocyclic carbene as ligand (second generation catalysts), the dissociative process is far more favourable.
- Published
- 2007
- Full Text
- View/download PDF
35. Dienyne ring-closing metathesis approach for the construction of taxosteroids.
- Author
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Aldegunde MJ, García-Fandiño R, Castedo L, and Granja JR
- Subjects
- Bridged Bicyclo Compounds chemistry, Carbon chemistry, Cyclization, Models, Chemical, Molecular Structure, Polycyclic Compounds chemistry, Alkadienes chemistry, Alkynes chemistry, Paclitaxel chemistry, Steroids chemical synthesis, Taxoids chemical synthesis
- Abstract
A cascade dienyne ring-closing metathesis approach has been applied to the synthesis of the tetracyclic carbon framework of a new class of hybrid compounds-the taxosteroids-possessing carbon frameworks incorporating moieties characteristic of both taxanes (such as AB rings) and steroids (i.e., CD system and side chain). This tandem cyclization is highly stereoselective, allowing the one-step formation of the bicyclo[5.3.1]undecene system characteristic of taxol. In this work we describe the scope and limitations of such cyclizations.
- Published
- 2007
- Full Text
- View/download PDF
36. RCM for the construction of novel steroid-like polycyclic systems. 1. Studies on the synthesis of a PreD3-D3 transition state analogue.
- Author
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García-Fandiño R, Aldegunde MJ, Codesido EM, Castedo L, and Granja JR
- Subjects
- Cholecalciferol chemistry, Cyclization, Molecular Structure, Stereoisomerism, Cholecalciferol analogs & derivatives, Cholecalciferol chemical synthesis, Polycyclic Aromatic Hydrocarbons chemistry, Steroids chemistry
- Abstract
Natural and nonnatural polycyclic systems containing eight-membered carbocycles constitute a large class of compounds of importance in organic chemistry, biology, and medicine. Here we describe a new strategy by which complex polycyclic steroid-like systems can be constructed on the steroid CD framework, by a combination of RCM and Heck cyclizations. The method is exemplified by its application to the stereoselective synthesis of 6-8-6 fused carbocyclic systems that mimic the putative transition structure of the isomerization of previtamin D3 to vitamin D3.
- Published
- 2005
- Full Text
- View/download PDF
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