DOCSLIB.ORG

Synthesis and Properties of Bis-Porphyrin Molecular Tweezers: Effects of Spacer Flexibility on Binding and Supramolecular Chirogenesis

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Synthesis and Properties of Bis-Porphyrin Molecular Tweezers: Effects of Spacer Flexibility on Binding and Supramolecular Chirogenesis Article Synthesis and Properties of Bis-Porphyrin Molecular Tweezers: Effects of Spacer Flexibility on Binding and Supramolecular Chirogenesis Magnus Blom 1, Sara Norrehed 1, Claes-Henrik Andersson 1, Hao Huang 1, Mark E. Light 2, Jonas Bergquist 1, Helena Grennberg 1 and Adolf Gogoll 1,* Received: 25 October 2015 ; Accepted: 7 December 2015 ; Published: 23 December 2015 Academic Editor: M. Graça P. M. S. Neves 1 Department of Chemistry-BMC, Uppsala University, Uppsala S-75123, Sweden; [email protected] (M.B.); [email protected] (S.N.); [email protected] (C.-H.A.); [email protected] (H.H.); [email protected] (J.B.); [email protected] (H.G.) 2 Department of Chemistry, University of Southampton, Highfield, Southampton SO17 1BJ, UK; [email protected] * Correspondence: [email protected]; Tel.: +46-184-713-822 Abstract: Ditopic binding of various dinitrogen compounds to three bisporphyrin molecular tweezers with spacers of varying conformational rigidity, incorporating the planar enediyne (1), the helical stiff stilbene (2), or the semi-rigid glycoluril motif fused to the porphyrins (3), are compared. Binding 4 6 ´1 constants Ka = 10 –10 M reveal subtle differences between these tweezers, that are discussed in terms of porphyrin dislocation modes. Exciton coupled circular dichroism (ECCD) of complexes with chiral dinitrogen guests provides experimental evidence for the conformational properties of the tweezers. The results are further supported and rationalized by conformational analysis. Keywords: bisporphyrin tweezers; metalloporphyrins; porphyrinoids; host-guest chemistry; supramolecular chemistry; chirogenesis; chirality transfer; exciton coupled circular dichroism; conformational analysis 1. Introduction Bisporphyrin molecular clips and tweezers are well studied systems for ditopic host–guest interactions [1,2]. In the majority of these compounds, two porphyrin chromophores are attached by a single bond to a usually conformationally flexible spacer. They have been used extensively to determine the absolute configuration of guests with a single stereogenic center, or to distinguish enantiomers [3–15]. We recently have shown that bisporphyrin tweezers also can be utilized for determination of the relative stereochemistry in molecules with several stereocenters, employing a semi-rigid bisporphyrin tweezer 3 incorporating a glycoluril spacer [16,17]. For further investigations, we required alternative tweezers with altered conformational flexibility, a key factor for guest affinity. Also, substitutes for 3 requiring a less demanding synthetic protocol are desirable. Therefore, we decided to replace the glycoluril spacer with enediyne and stiff stilbene spacers, respectively (Figure1). These tweezers are expected to have restricted conformational flexibility, comparable to other tweezers with spacers composed of aromatic rings and ethyne segments [1]. Since several parameters are involved in host–guest binding, accurate predictions of ligand affinity are not always possible. However, bisporphyrins with flexible spacers are capable of strong binding to dinitrogen ligands. In typical examples, small aliphatic diamines were found to bind with 3 5 ´1 Ka = 10 –10 M to a bisporphyrin with diphenylether spacer, with weaker binding for bulkier guests [5]. Much higher binding constants have been reported for the structurally more rigid DABCO Molecules 2016, 21, 16; doi:10.3390/molecules21010016 www.mdpi.com/journal/molecules Molecules 2016, 21, 16 2 of 24 Molecules 2016, 21, 0016 7 9 ´1 2 of 24 (diazabicyclo[2.2.2]octane) with Ka = 10 –10 M [18,19]. The variation of binding constants with spacer length and flexibility has been explained by preorganization effects when binding rigid Ka = 107–109 M−1 [18,19]. The variation of binding constants with spacer length and flexibility has been guestsexplained [20]. by preorganization effects when binding rigid guests [20]. 1 2 3 Figure 1. Bisporphyrin molecular tweezers with enediyne (1) and stiff stilbene (2) spacers, and the Figure 1. Bisporphyrin molecular tweezers with enediyne (1) and stiff stilbene (2) spacers, and the previously reported semi-rigid 3 with glycoluril spacer. previously reported semi-rigid (3) with glycoluril spacer. Bisporphyrin tweezers have been classified as belonging to three distinct categories regarding Bisporphyrinthe conformational tweezers properties have of been their classifiedspacers: spac asers belonging with high to conformational three distinct flexibility, categories spacers regarding the conformationalwith conformational properties restrictions of their, and spacers: conformationally spacers withrigid highspacers conformational [1]. Rigid spacers flexibility, may favor spacers withguest conformational binding due restrictions, to a preorganization and conformationally effect, but also prevent rigid spacers binding [1 of]. Rigidguests spacersthat cannot may be favor accommodated by bitopic binding [21]. Flexible spacers allow more diverse binding via an induced guest binding due to a preorganization effect, but also prevent binding of guests that cannot be fit [22–24]. The three bisporphyrins 1–3 discussed here present a more subtle conformational behavior. accommodatedIn principle, by bitopic four different binding types [21 ].of Flexible dislocation spacers of the allowtwo porphyrin more diverse units, some binding of which via an might induced fit [22be–24 interdependent,]. The three bisporphyrins may be distinguished1–3 discussed (Figure here2). present a more subtle conformational behavior. In principle,For the previously four different studied types glycoluril of dislocation bisporphyrin of the tweezer two porphyrin3, we have observed units, some conformational of which might be interdependent,flexibility in terms may of be interporphyrin distinguished distance (Figure 2variation). (Figure 2a), due to the conformational Forproperties the previously of the glycoluril studied spacer glycoluril [16]. bisporphyrinThis manifested tweezer itself experimentally3, we have observed in variation conformational of the flexibilityhydrodynamic in terms of radius interporphyrin of the tweezer distance upon binding variation of (Figurevarious2 guests,a), due as to monitored the conformational by the diffusion properties of thecoefficient glycoluril of spacerthe host-guest [16]. This complex. manifested However, itself since experimentally the porphyrin inunits variation are attached of the to hydrodynamicthe spacer radiusvia of two the covalent tweezer bonds, upon lateral binding dislocation of various (Figure guests, 2b) appears as monitored to be unlikely, by the diffusionand porphyrin coefficient rotation of the (Figure 2d) is impossible. There is, however, an option of porphyrin twisting (Figure 2c) via host-guest complex. However, since the porphyrin units are attached to the spacer via two covalent conformational changes of the seven-membered rings in the glycoluril backbone (vide infra). bonds,In contrast, lateral dislocation both 1 and 2 (Figure might allow2b) appears for lateral to dislocation be unlikely, as well and as porphyrin twisting as rotation the result (Figure of spacer2d) is impossible.bond distortion, There is, in however, combination an option with po ofrphyrin porphyrin rotation twisting around (Figure single bonds.2c) via conformational changes of the seven-memberedIt occurred to us ringsthat detection in the glycoluril of the induced backbone circular (vide dichroism infra). ( Ini.e. contrast,, exciton coupled both 1 andcircular2 might allowdichroism, for lateral ECCD) dislocation [3–15] asthat well results as twisting from binding as the a result chiral ofdiamine spacer guest bond might distortion, provide in a combination simple withexperimental porphyrin rotation verification around of the single distortion bonds. modes available to our tweezers (Table 1). Tweezer Itflexibility occurred and to guest us that geometry detection determine of the the induced sign and circular amplitude dichroism of the detected (i.e., exciton ECCD, coupledand suitable circular dichroism,mnemonics ECCD) for reliable [3–15] prediction that results of the from effect binding are still a under chiral development diamine guest [8,9]. might The effect provide of rigidity a simple experimentalvariation verificationon CD performance of the distortion has been modesaddressed available for chiral to ourbisporphyrin tweezers tweezers (Table1). without Tweezer bound flexibility and guest geometry determine the sign and amplitude of the detected ECCD, and suitable mnemonics for reliable prediction of the effect are still under2 development [8,9]. The effect of rigidity variation on CD performance has been addressed for chiral bisporphyrin tweezers without bound guests [25], Molecules 2016, 21, 16 3 of 24 Molecules 2016, 21, 0016 3 of 24 whereas we here investigate achiral bisporphyrin tweezers. Recently, Rath and co-workers have shown that chirogenesisguests [25], in whereas a bisporphyrin we here investigate tweezers achiral requires bisporphyrin porphyrin tweezers. twisting Recently, [ 26Rath]. and co-workers have shown that chirogenesis in a bisporphyrin tweezers requires porphyrin twisting [26]. (a) distance variation (b) lateral dislocation (c) porphyrin twisting (d) porphyrin rotation Figure 2. Possible dislocations in bisporphyrin tweezers: (a) Variation of interporphyrin distance; Figure 2. (Possibleb) lateral displacement; dislocations (c) inporphyrin bisporphyrin twisting; ( tweezers:d) porphyrin (rotation.a) Variation
Load more

Recommended publications
  • Molecular Tweezers for Lysine and Arginine –
    Volume 52 Number 76 1 October 2016 Pages 11307–11452 ChemComm Chemical Communications www.rsc.org/chemcomm ISSN 1359-7345 FEATURE ARTICLE Thomas Schrader, Gal Bitan and Frank-Gerrit Klärner Molecular tweezers for lysine and arginine – powerful inhibitors of pathologic protein aggregation ChemComm View Article Online FEATURE ARTICLE View Journal | View Issue Molecular tweezers for lysine and arginine – powerful inhibitors of pathologic protein aggregation Cite this: Chem. Commun., 2016, 52, 11318 a b a Thomas Schrader,* Gal Bitan* and Frank-Gerrit Kla¨rner* Molecular tweezers represent the first class of artificial receptor molecules that have made the way from a supramolecular host to a drug candidate with promising results in animal tests. Due to their unique structure, only lysine and arginine are well complexed with exquisite selectivity by a threading mechanism, which unites electrostatic, hydrophobic and dispersive attraction. However, tweezer design must avoid self-dimerization, self-inclusion and external guest binding. Moderate affinities of molecular tweezers towards sterically well accessible basic amino acids with fast on and off rates protect normal proteins from potential interference with their biological function. However, the early stages of Received 2nd June 2016, abnormal Ab, a-synuclein, and TTR assembly are redirected upon tweezer binding towards the Accepted 27th July 2016 generation of amorphous non-toxic materials that can be degraded by the intracellular and extracellular Creative Commons Attribution-NonCommercial 3.0 Unported Licence. DOI: 10.1039/c6cc04640a clearance mechanisms. Thus, specific host–guest chemistry between aggregation-prone proteins and lysine/arginine binders rescues cell viability and restores animal health in models of AD, PD, and www.rsc.org/chemcomm TTR amyloidosis.
    [Show full text]
  • Design, Synthesis, and Testing of Bis-Corannulene Receptors for Fullerenes Based On
    Automated Template C: Created by James Nail 2013V2.1 Design, synthesis, and testing of bis-corannulene receptors for fullerenes based on Klärner’s tethers By Peumie Luckshika Abeyratne Kuragama A Dissertation Submitted to the Faculty of Mississippi State University in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy in Chemistry in the Department of Chemistry Mississippi State, Mississippi December 2015 Copyright by Peumie Luckshika Abeyratne Kuragama 2015 Design, synthesis, and testing of bis-corannulene receptors for fullerenes based on Klärner’s tethers By Peumie Luckshika Abeyratne Kuragama Approved: ____________________________________ Andrzej Sygula (Major Professor) ____________________________________ Keith T. Mead (Committee Member) ____________________________________ Todd E. Mlsna (Committee Member) ____________________________________ Dongmao Zhang (Committee Member) ____________________________________ Stephen C. Foster (Graduate Coordinator/Committee Member) ____________________________________ R. Gregory Dunaway Dean College of Arts & Sciences Name: Peumie Luckshika Abeyratne Kuragama Date of Degree: December 11, 2015 Institution: Mississippi State University Major Field: Chemistry Major Professor: Andrzej Sygula Title of Study: Design, synthesis, and testing of bis-corannulene receptors for fullerenes based on Klärner’s tethers Pages in Study: 141 Candidate for Degree of Doctor of Philosophy The discovery of the new allotropic forms of elemental carbon (e.g. fullerenes and carbon nanotubes)
    [Show full text]
  • Effect of Molecular Clips and Tweezers on Enzymatic Reactions by Binding Coenzymes and Basic Amino Acids*
    Pure Appl. Chem., Vol. 82, No. 4, pp. 991–999, 2010. doi:10.1351/PAC-CON-09-10-02 © 2010 IUPAC, Publication date (Web): 20 March 2010 Effect of molecular clips and tweezers on enzymatic reactions by binding coenzymes and basic amino acids* Frank-Gerrit Klärner1,‡, Thomas Schrader1, Jolanta Polkowska1, Frank Bastkowski1, Peter Talbiersky1, Mireia Campañá Kuchenbrandt1, Torsten Schaller1, Herbert de Groot2, and Michael Kirsch2 1Institute for Organic Chemistry, University of Duisburg-Essen, Universitätsstrasse 7, 45117 Essen, Germany; 2Institute for Physiological Chemistry, Universitätsklinikum Essen, Hufelandstrasse 55, 45122 Essen, Germany Abstract: The tetramethylene-bridged molecular tweezers bearing lithium methanephos - phonate or dilithium phosphate substituents in the central benzene or naphthalene spacer-unit and the dimethylene-bridged clips containing naphthalene or anthracene sidewalls substi- tuted by lithium methanephosphonate, dilithium phosphate, or sodium sulfate groups in the central benzene spacer-unit are water-soluble. The molecular clips having planar naphthalene sidewalls bind flat aromatic guest molecules preferentially, for example, the nicotinamide ring and/or the adenine-unit in the nucleotides NAD(P)+, NMN, or AMP, whereas the ben- zene-spaced molecular tweezers with their bent sidewalls form stable host–guest complexes with the aliphatic side chains of basic amino acids such as lysine and argenine. The phos- phonate-substituted tweezer and the clips having an extended central naphthalene spacer-unit or extended anthracene and benzo[k]fluoranthene sidewalls, respectively, form highly stable self-assembled dimers in aqueous solution, evidently due to non-classical hydrophobic inter- actions. The phosphate-substituted molecular clip containing naphthalene sidewalls inhibits the enzymatic, ADH-catalyzed ethanol oxidation by binding the cofactor NAD+ in a com- petitive reaction.
    [Show full text]
  • Molecular Tweezers: Concepts and Applications Jeanne Leblond, Anne Petitjean
    Molecular Tweezers: Concepts and Applications Jeanne Leblond, Anne Petitjean To cite this version: Jeanne Leblond, Anne Petitjean. Molecular Tweezers: Concepts and Applications. ChemPhysChem, Wiley-VCH Verlag, 2011, 10.1002/cphc.201001050. hal-02512503 HAL Id: hal-02512503 https://hal.archives-ouvertes.fr/hal-02512503 Submitted on 1 Apr 2020 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. MINIREVIEWS DOI: 10.1002/cphc.200((will be filled in by the editorial staff)) Molecular Tweezers: Concepts and Applications. Jeanne Leblond,[b] and Anne Petitjean*[a] In Memory of Dr Bernard Dietrich Taken to the molecular level, the concept of ‘tweezers’ opens a rich and fascinating field at the convergence of molecular recognition, biomimetic chemistry and nano-machines. Composed of a spacer bridging two interaction sites, the behaviour of molecular tweezers are strongly influenced by the flexibility of their spacer. Operating through an ‘induced-fit’ recognition mechanism, flexible molecular tweezers select the conformation(s) most appropriate for substrate binding. Their adaptability allows them to be used in a variety of binding modes and have found applications in chirality signaling. Rigid spacers, on the contrary, display a limited number of binding states, leading to selective and strong substrate binding following a ‘lock and key’ model.
    [Show full text]
  • Molecular Interactions in Organic and Biological Systems. Applications and Methodological Implementations” (E
    Theory – E. Sánchez-García 2.5.6 Research Area “Molecular interactions in organic and biological systems. Applications and methodological implementations” (E. Sánchez-García) Involved: K. Bravo-Rodriguez, S. Mittal, P. Sokkar, N. Tötsch, J. Iglesias, M. Fernandez-Oliva, S. Carmignani, G. Gerogiokas, V. Muñoz Robles, J. Mieres, L.Wollny Objectives: In the Sánchez-García group, molecular interactions are used as a tool to tune the properties of chemical and biological systems. In this context three very much interconnected, general lines are developed (Figure 15). One key topic is the study of molecular interactions in biological systems, namely protein–ligand interactions, protein–protein interactions, enzymatic activity, and computational mutagenesis, as well as the effect of solvent on these processes. Another research line is the study of molecular interactions in chemical reactivity, where we focus on reactive intermediates and unusual molecules and the effect of molecular interactions on their stability, spectroscopic properties, and reactivity. At the core of these applications lies the use and methodological implementation of multi-scale computational approaches. Fig. 15. Main research lines and selected representative publications of the Sánchez-García group in 2014-2016. 36 Theory – E. Sánchez-García Results: Molecular interactions in biological systems a) Protein-ligand interactions Interactions with small molecules can significantly influence the functionality of systems of diverse structural complexity – from amyloidogenic peptides to large proteins and enzymes. In our group we develop computational models of protein-ligand complexes to study their association and how such molecules can modulate protein– protein interactions. The combination of molecular dynamics simulations with free energy calculations and QM/MM methods allows us to predict ligand binding sites in a protein and to identify interactions patterns for an in silico design of improved ligands able to reach specific protein regions of biological relevance.
    [Show full text]
  • Octapodal Corannulene Porphyrin-Based Assemblies: Allosteric Behavior in Fullerene Hosting
    pubs.acs.org/joc Article Octapodal Corannulene Porphyrin-Based Assemblies: Allosteric Behavior in Fullerene Hosting ́ Sergio Ferrero, Hectoŕ Barbero, Daniel Miguel, Rauĺ García-Rodríguez,* and Celedonio M. Alvarez* Cite This: J. Org. Chem. 2020, 85, 4918−4926 Read Online ACCESS Metrics & More Article Recommendations *sı Supporting Information ABSTRACT: An octapodal corannulene-based supramolecular system has been prepared by introducing eight corannulene moieties in a porphyrin scaffold. Despite the potential of this double picket fence porphyrin for double- tweezer behavior, NMR titrations show exclusive formation of 1:1 adducts. ffi ± × The system exhibits very strong a nity for C60 and C70 (K1 = (2.71 0.08) 104 and (2.13 ± 0.1) × 105 M−1, respectively), presenting selectivity for the latter. Density functional theory (DFT) calculations indicate that, in addition to the four corannulene units, the relatively flexible porphyrin tether actively participates in the recognition process, resulting in a strong synergistic effect. This leads to a very strong interaction with C60, which in turn also induces a large structural change on the other face (second potential binding site), leading to a negative allosteric effect. We also introduced Zn2+ in the porphyrin core in an attempt to modulate its flexibility. The resulting metalloporphyrin ff also displayed single-tweezer behavior, albeit with slightly smaller binding constants for C60 and C70, suggesting that the e ect of the coordination of fullerene to one face of our supramolecular platform was still transmitted to the other face, leading to the deactivation of the second potential binding site. ■ INTRODUCTION buckybowl, has unique properties not seen in planar π- Since its establishment, supramolecular chemistry1 has been conjugated compounds arising from its nonplanarity, which enables it to form supramolecular assemblies with fullerenes used to design and develop new entities with a wide range of 10 applications in various areas of science.
    [Show full text]
  • Molecular Lysine Tweezers Counteract Aberrant Protein Aggregation
    UCLA UCLA Previously Published Works Title Molecular Lysine Tweezers Counteract Aberrant Protein Aggregation. Permalink https://escholarship.org/uc/item/94q3c257 Authors Hadrovic, Inesa Rebmann, Philipp Klärner, Frank-Gerrit et al. Publication Date 2019 DOI 10.3389/fchem.2019.00657 Peer reviewed eScholarship.org Powered by the California Digital Library University of California MINI REVIEW published: 01 October 2019 doi: 10.3389/fchem.2019.00657 Molecular Lysine Tweezers Counteract Aberrant Protein Aggregation Inesa Hadrovic 1, Philipp Rebmann 1, Frank-Gerrit Klärner 1, Gal Bitan 2 and Thomas Schrader 1* 1 Faculty of Chemistry, University of Duisburg-Essen, Essen, Germany, 2 Department of Neurology, University of California, Los Angeles, Los Angeles, CA, United States Molecular tweezers (MTs) are supramolecular host molecules equipped with two aromatic pincers linked together by a spacer (Gakh, 2018). They are endowed with fascinating properties originating from their ability to hold guests between their aromatic pincers (Chen and Whitlock, 1978; Zimmerman, 1991; Harmata, 2004). MTs are finding an increasing number of medicinal applications, e.g., as bis-intercalators for DNA such as the anticancer drug Ditercalinium (Gao et al., 1991), drug activity reverters such as the bisglycoluril tweezers Calabadion 1 (Ma et al., 2012) as well as radioimmuno Edited by: detectors such as Venus flytrap clusters (Paxton et al., 1991). We recently embarked De-Xian Wang, on a program to create water-soluble tweezers which selectively bind the side chains Institute of Chemistry (Chinese Academy of Sciences), China of lysine and arginine inside their cavity. This unique recognition mode is enabled by a Reviewed by: torus-shaped, polycyclic framework, which is equipped with two hydrophilic phosphate Lihua Yuan, groups.
    [Show full text]
  • Charging and Self-Assembly of Fullerene Fragments
    University at Albany, State University of New York Scholars Archive Chemistry Honors College 5-2013 Charging and Self-Assembly of Fullerene Fragments Michael V. Ferguson University at Albany, State University of New York Follow this and additional works at: https://scholarsarchive.library.albany.edu/honorscollege_chem Part of the Chemistry Commons Recommended Citation Ferguson, Michael V., "Charging and Self-Assembly of Fullerene Fragments" (2013). Chemistry. 4. https://scholarsarchive.library.albany.edu/honorscollege_chem/4 This Honors Thesis is brought to you for free and open access by the Honors College at Scholars Archive. It has been accepted for inclusion in Chemistry by an authorized administrator of Scholars Archive. For more information, please contact [email protected]. Charging and Self-Assembly of Fullerene Fragments An honors thesis presented to the Department of Chemistry University at Albany, State University Of New York In partial fulfillment of the requirements for graduation with Honors in Chemistry with a Chemical Biology Emphasis and graduation from The Honors College. Michael V. Ferguson Research Advisor: Prof. Marina A. Petrukhina April, 2013 I. Abstract Buckybowls are bowl-shaped aromatic polycyclic hydrocarbons that map onto the surface of fullerene molecules, such as C60 and C70, but lack their full closure. They are revered for their ability to undergo multiple reduction reactions, accepting several electrons, due to their degenerate and low energy LUMO orbitals. Corannulene (C20H10), the smallest buckybowl, is well known for its ability to accept up to four electrons. Many studies have been performed targeting preparation and characterization of corannulene anions using the NMR, ESR and UV-vis spectroscopic techniques.
    [Show full text]
  • BODIPY- and Porphyrin-Based Sensors for Recognition of Amino Acids and Their Derivatives
    molecules Review BODIPY- and Porphyrin-Based Sensors for Recognition of Amino Acids and Their Derivatives Marco Farinone, Karolina Urba ´nska and Miłosz Pawlicki * Wydział Chemii, Uniwersytet Wrocławski, F. Joliot-Curie 14, 50-383 Wrocław, Poland; [email protected] (M.F.); [email protected] (K.U.) * Correspondence: [email protected]; Tel.: +48 (71)375-7649 Academic Editor: M. Salomé Rodríguez-Morgade Received: 30 August 2020; Accepted: 29 September 2020; Published: 2 October 2020 Abstract: Molecular recognition is a specific non-covalent and frequently reversible interaction between two or more systems based on synthetically predefined character of the receptor. This phenomenon has been extensively studied over past few decades, being of particular interest to researchers due to its widespread occurrence in biological systems. In fact, a straightforward inspiration by biological systems present in living matter and based on, e.g., hydrogen bonding is easily noticeable in construction of molecular probes. A separate aspect also incorporated into the molecular recognition relies on the direct interaction between host and guest with a covalent bonding. To date, various artificial systems exhibiting molecular recognition and based on both types of interactions have been reported. Owing to their rich optoelectronic properties, chromophores constitute a broad and powerful class of receptors for a diverse range of substrates. This review focuses on BODIPY and porphyrin chromophores as probes for molecular recognition and chiral discrimination of amino acids and their derivatives. Keywords: molecular recognition; covalent recognition; chiral discrimination; BODIPY; porphyrin tweezers 1. Introduction For several reasons, the visible light became an important aspect of research focusing on specific interactions with the matter, which can find a wide scope of applications.
    [Show full text]
  • A Journey in Bioinspired Supramolecular Chemistry: from Molecular Tweezers to Small Molecules That Target Myotonic Dystrophy
    A journey in bioinspired supramolecular chemistry: from molecular tweezers to small molecules that target myotonic dystrophy Steven C. Zimmerman Review Open Access Address: Beilstein J. Org. Chem. 2016, 12, 125–138. Department of Chemistry, University of Illinois at Urbana-Champaign, doi:10.3762/bjoc.12.14 Urbana, Illinois 61801, United States Received: 11 November 2015 Email: Accepted: 06 January 2016 Steven C. Zimmerman - [email protected] Published: 25 January 2016 This article is part of the Thematic Series "Supramolecular chemistry at Keywords: the interface of biology, materials and medicine". catenanes; intercalation; macrocycles; multi-target drug discovery; RNA recognition; RNase mimic Editor-in-Chief: P. H. Seeberger © 2016 Zimmerman; licensee Beilstein-Institut. License and terms: see end of document. Abstract This review summarizes part of the author’s research in the area of supramolecular chemistry, beginning with his early life influ- ences and early career efforts in molecular recognition, especially molecular tweezers. Although designed to complex DNA, these hosts proved more applicable to the field of host–guest chemistry. This early experience and interest in intercalation ultimately led to the current efforts to develop small molecule therapeutic agents for myotonic dystrophy using a rational design approach that heavily relies on principles of supramolecular chemistry. How this work was influenced by that of others in the field and the evolu- tion of each area of research is highlighted with selected examples. Review Early childhood and overview I was born on October 8, 1957 in Evanston, Illinois, the second University. He was the first on either side of the family to get a of three boys.
    [Show full text]
  • Synthesis of Corannulene-Based Nanographenes.Pdf
    This document is downloaded from DR‑NTU (https://dr.ntu.edu.sg) Nanyang Technological University, Singapore. Synthesis of corannulene‑based nanographenes Muzammil, Ezzah M.; Halilovic, Dzeneta; Stuparu, Mihaiela Corina 2019 Muzammil, E. M., Halilovic, D., & Stuparu, M. C. (2019). Synthesis of corannulene‑based nanographenes. Communications Chemistry, 2(1), 58‑. doi:10.1038/s42004‑019‑0160‑1 https://hdl.handle.net/10356/141853 https://doi.org/10.1038/s42004‑019‑0160‑1 © 2019 The Author(s). This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/. Downloaded on 25 Sep 2021 18:40:16 SGT REVIEW ARTICLE https://doi.org/10.1038/s42004-019-0160-1 OPEN Synthesis of corannulene-based nanographenes Ezzah M. Muzammil1,2, Dzeneta Halilovic1,2 & Mihaiela C. Stuparu 1 Corannulene (C20H10) is a polycyclic hydrocarbon in which five six-membered rings surround 1234567890():,; a central five-membered ring to construct a bowl-like aromatic structure.
    [Show full text]
  • Tweezers for the Recognition of Functionalized Polycyclic Aromatic Hydrocarbons by Combined Pi-Pi Stacking and H-Bonding
    A Journal of Accepted Article Title: Gold(I) metallo-tweezers for the recognition of functionalized polycyclic aromatic hydrocarbons by combined pi-pi stacking and H-bonding Authors: Eduardo Victor Peris, Chiara Biz, Susana Ibáñez, Macarena Poyatos, and Dmitry Gusev This manuscript has been accepted after peer review and appears as an Accepted Article online prior to editing, proofing, and formal publication of the final Version of Record (VoR). This work is currently citable by using the Digital Object Identifier (DOI) given below. The VoR will be published online in Early View as soon as possible and may be different to this Accepted Article as a result of editing. Readers should obtain the VoR from the journal website shown below when it is published to ensure accuracy of information. The authors are responsible for the content of this Accepted Article. To be cited as: Chem. Eur. J. 10.1002/chem.201703984 Link to VoR: http://dx.doi.org/10.1002/chem.201703984 Supported by Chemistry - A European Journal 10.1002/chem.201703984 COMMUNICATION Gold(I) metallo-tweezers for the recognition of functionalized polycyclic aromatic hydrocarbons by combined stacking and H-bonding Chiara Biz,a Susana Ibáñez,a Macarena Poyatos,a Dmitry Gusev,b and Eduardo Peris*a Abstract: Two gold(I)-based metallo-tweezers with bis(Au-NHC) of the central pyridine ring of the spacer ligand (C).[8i] We recently pincers and a carbazole connector have been obtained and used for utilized the -stacking abilities of N-heterocyclic carbene ligands the recognition of polycyclic
    [Show full text]