Search

Your search keyword '"Werner M. Nau"' showing total 342 results
Start Over Author "Werner M. Nau" Database OpenAIRE
342 results on '"Werner M. Nau"'

5. Boron clusters as broadband membrane carriers

Author

Andrea Barba-Bon, Giulia Salluce, Irene Lostalé-Seijo, Khaleel. I. Assaf, Andreas Hennig, Javier Montenegro, and Werner M. Nau

Subjects
Anions, Drug Carriers, Multidisciplinary, Pharmaceutical Preparations, Cations, Biological Transport, Peptides, Hydrophobic and Hydrophilic Interactions, Boron
Abstract

The membrane translocation of hydrophilic substances constitutes a challenge for their application as therapeutic compounds and labelling probes1–4. To remedy this, charged amphiphilic molecules have been classically used as carriers3,5. However, such amphiphilic carriers may cause aggregation and non-specific membrane lysis6,7. Here we show that globular dodecaborate clusters, and prominently B12Br122−, can function as anionic inorganic membrane carriers for a broad range of hydrophilic cargo molecules (with molecular mass of 146–4,500 Da). We show that cationic and neutral peptides, amino acids, neurotransmitters, vitamins, antibiotics and drugs can be carried across liposomal membranes. Mechanistic transport studies reveal that the carrier activity is related to the superchaotropic nature of these cluster anions8–12. We demonstrate that B12Br122− affects cytosolic uptake of different small bioactive molecules, including the antineoplastic monomethyl auristatin F, the proteolysis targeting chimera dBET1 and the phalloidin toxin, which has been successfully delivered in living cells for cytoskeleton labelling. We anticipate the broad and distinct delivery spectrum of our superchaotropic carriers to be the starting point of conceptually distinct cell-biological, neurobiological, physiological and pharmaceutical studies.

Published
2022

8. Diffusion-Enhanced Förster Resonance Energy Transfer in Flexible Peptides: From the Haas-Steinberg Partial Differential Equation to a Closed Analytical Expression

Author

Maik H. Jacob, Roy N. D’Souza, Alexandra I. Lazar, and Werner M. Nau

Subjects
Polymers and Plastics, FRET, General Chemistry, fluorescence, diffusion coefficient, peptide and polymer structure and dynamics, distance distribution
Abstract

In the huge field of polymer structure and dynamics, including intrinsically disordered peptides, protein folding, and enzyme activity, many questions remain that cannot be answered by methodology based on artificial intelligence, X-ray, or NMR spectroscopy but maybe by fluorescence spectroscopy. The theory of Förster resonance energy transfer (FRET) describes how an optically excited fluorophore transfers its excitation energy through space to an acceptor moiety—with a rate that depends on the distance between donor and acceptor. When the donor and acceptor moiety are conjugated to different sites of a flexible peptide chain or any other linear polymer, the pair could in principle report on chain structure and dynamics, on the site-to-site distance distribution, and on the diffusion coefficient of mutual site-to-site motion of the peptide chain. However, the dependence of FRET on distance distribution and diffusion is not defined by a closed analytical expression but by a partial differential equation (PDE), by the Haas-Steinberg equation (HSE), which can only be solved by time-consuming numerical methods. As a second complication, time-resolved FRET measurements have thus far been deemed necessary. As a third complication, the evaluation requires a computationally demanding but indispensable global analysis of an extended experimental data set. These requirements have made the method accessible to only a few experts. Here, we show how the Haas-Steinberg equation leads to a closed analytical expression (CAE), the Haas-Steinberg-Jacob equation (HSJE), which relates a diffusion-diagnosing parameter, the effective donor–acceptor distance, to the augmented diffusion coefficient, J, composed of the diffusion coefficient, D, and the photophysical parameters that characterize the used FRET method. The effective donor–acceptor distance is easily retrieved either through time-resolved or steady-state fluorescence measurements. Any global fit can now be performed in seconds and minimizes the sum-of-square difference between the experimental values of the effective distance and the values obtained from the HSJE. In summary, the HSJE can give a decisive advantage in applying the speed and sensitivity of FRET spectroscopy to standing questions of polymer structure and dynamics.

Published
2023
Full Text
View/download PDF

9. Stability and p

Author

Francisco J R, Mejías, Suhang, He, Rosa M, Varela, José M G, Molinillo, Andrea, Barba-Bon, Werner M, Nau, and Francisco A, Macías

Abstract

Aqueous solubility and stability often limit the application of aminophenoxazinones and their sulfur mimics as promising agrochemicals in a sustainable agriculture inspired by allelopathy. This paper presents a solution to the problem using host-guest complexation with cucurbiturils (

Published
2022

12. Proton‐Gradient‐Driven Sensitivity Enhancement of Liposome‐Encapsulated Supramolecular Chemosensors

Author

Mohamed Nilam, Shreya Karmacharya, Werner M. Nau, and Andreas Hennig

Subjects
Liposomes, General Chemistry, Hydrogen-Ion Concentration, Protons, Catalysis
Abstract

An overarching challenge in the development of supramolecular sensor systems is to enhance their sensitivity, which commonly involves the synthesis of refined receptors with increased affinity to the analyte. We show that a dramatic sensitivity increase by 1-2 orders of magnitude can be achieved by encapsulating supramolecular chemosensors inside liposomes and exposing them to a pH gradient across the lipid bilayer membrane. This causes an imbalance of the influx and efflux rates of basic and acidic analytes leading to a significantly increased concentration of the analyte in the liposome interior. The utility of our liposome-enhanced sensors was demonstrated with various host-dye reporter pairs and sensing mechanisms, and we could easily increase the sensitivity towards multiple biologically relevant analytes, including the neurotransmitters serotonin and tryptamine.

Published
2022

15. Large‐Peptide Permeation Through a Membrane Channel: Understanding Protamine Translocation Through CymA from Klebsiella Oxytoca **

Author

Jayesh Arun Bafna, Ulrich Kleinekathöfer, Jigneshkumar Dahyabhai Prajapati, Mohamed Nilam, Mathias Winterhalter, Sushil Pangeni, and Werner M. Nau

Subjects
Models, Molecular, endocrine system, Kinetics, Peptide, 010402 general chemistry, 01 natural sciences, Catalysis, Ion Channels, Protamines, Reversal potential, Research Articles, chemistry.chemical_classification, Liposome, biology, 010405 organic chemistry, Klebsiella oxytoca, Cytochromes c, Biological Transport, General Chemistry, molecular dynamics simulations, Permeation, electrophysiology, Protamine, 0104 chemical sciences, outer membrane porins, Membrane, chemistry, biology.protein, Biophysics, Membrane channel, membrane translocation assay, Membrane Channels | Hot Paper, protamine, Research Article
Abstract

Quantifying the passage of the large peptide protamine (Ptm) across CymA, a passive channel for cyclodextrin uptake, is in the focus of this study. Using a reporter‐pair‐based fluorescence membrane assay we detected the entry of Ptm into liposomes containing CymA. The kinetics of the Ptm entry was independent of its concentration suggesting that the permeation through CymA is the rate‐limiting factor. Furthermore, we reconstituted single CymA channels into planar lipid bilayers and recorded the ion current fluctuations in the presence of Ptm. To this end, we were able to resolve the voltage‐dependent entry of single Ptm peptide molecules into the channel. Extrapolation to zero voltage revealed about 1–2 events per second and long dwell times, in agreement with the liposome study. Applied‐field and steered molecular dynamics simulations added an atomistic view of the permeation events. It can be concluded that a concentration gradient of 1 μm Ptm leads to a translocation rate of about one molecule per second and per channel., Surprisingly, large peptides (Protamine, 5.1 kDa) can permeate through bacterial outer membrane channels. The use of fluorescence, electrophysiology, and all‐atom modeling allows to quantify the flux. This approach can be transferred to related problems.

Published
2021

16. Reversible covalent locking of a supramolecular hydrogel via UV-controlled anthracene dimerization

Author

Zhanyao Hou, Werner M. Nau, and Richard Hoogenboom

Subjects
Anthracene, Polymers and Plastics, Organic Chemistry, technology, industry, and agriculture, Cationic polymerization, Supramolecular chemistry, Bioengineering, macromolecular substances, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, complex mixtures, 01 natural sciences, Biochemistry, 0104 chemical sciences, chemistry.chemical_compound, Photopolymer, chemistry, Covalent bond, Polymer chemistry, Self-healing hydrogels, Side chain, Copolymer, 0210 nano-technology
Abstract

Supramolecular hydrogels gained significant attention as shear-thinning, self-healing materials. However, the introduction of non-covalent crosslinks inherently decreases the strength and stability of the hydrogel. In this work, we developed a novel supramolecular hydrogel that undergoes a reversible transformation to the corresponding covalently crosslinked hydrogel upon UV-irradiation. The supramolecular hydrogel was developed based on the ternary host–guest interaction of two anthracene moieties and one large macrocyclic host. Anthracene functionalized poly(N-acryloylmorpholine)s were synthesized by post-polymerization modification of a copolymer consisting of N-acryloylmorpholine and an activated ester comonomer, whereby two different polymers were prepared having either neutral anthracene side-chains or carrying a positive charge next to the anthracene to enhance the interaction with the host. The binding affinity of the anthracene side chains with and without an additional cationic charge were studied with two macrocyclic hosts, namely cucurbit[8]uril and γ-cyclodextrin (γ-CD) by UV-Vis titration revealing a markedly stronger binding in the presence of the cationic charge due to additional ion-dipole one of the macrocyclic hosts, cucurbit[8]uril. Subsequently, the effect of the binding affinity on the hydrogelation was investigated, indicating that the stronger binding affinity facilitated the hydrogel formation at lower concentration. Finally, the reversible transformation of the supramolecular hydrogel to a chemical hydrogel by anthracene dimerization was studied by the UV irradiation of the hydrogel at 365 nm for covalent crosslinking or at 254 nm for decrosslinking. It could be demonstrated that the dynamic nature of the hydrogel, that is responsible for the shear-thinning behavior, was indeed lost upon UV-irradiation indicative of the formation of a covalently crosslinked hydrogel. The capabilities of the formed supramolecular hydrogel that is easily processable and able to reversibly convert to a chemical hydrogel, provides potential applications in applying mechanically robust covalently crosslinked hydrogels in complex shapes and difficult to reach locations making use of the dynamic nature of the supramolecular crosslinks.

Published
2021

17. A reference scale of cucurbit[7]uril binding affinities

Author

Andreas Hennig, Werner M. Nau, and Mohammad A. Alnajjar

Subjects
Chemistry, Computational chemistry, Direct binding, Organic Chemistry, Supramolecular chemistry, Titration, Physical and Theoretical Chemistry, Biochemistry, Affinities, Binding affinities
Abstract

The accurate determination of ultra-high binding affinities in supramolecular host-guest chemistry is a challenging endeavour because direct binding titrations are generally limited to affinities

Published
2021

18. Cephalosporin translocation across enterobacterial OmpF and OmpC channels, a filter across the outer membrane

Author

Muriel, Masi, Julia, Vergalli, Ishan, Ghai, Andrea, Barba-Bon, Thérèse, Schembri, Werner M, Nau, Daniel, Lafitte, Mathias, Winterhalter, and Jean-Marie, Pagès

Subjects
Enterobacteriaceae, Tandem Mass Spectrometry, Lipid Bilayers, Escherichia coli, Porins, Cefotaxime, Cefepime, Ceftazidime, Cephalosporins, Chromatography, Liquid, Monobactams
Abstract

Gram-negative porins are the main entry for small hydrophilic molecules. We studied translocation of structurally related cephalosporins, ceftazidime (CAZ), cefotaxime (CTX) and cefepime (FEP). CAZ is highly active on E. coli producing OmpF (Outer membrane protein F) but less efficient on cells expressing OmpC (Outer membrane protein C), whereas FEP and CTX kill bacteria regardless of the porin expressed. This matches with the different capacity of CAZ and FEP to accumulate into bacterial cells as quantified by LC-MS/MS (Liquid Chromatography Tandem Mass Spectrometry). Furthermore, porin reconstitution into planar lipid bilayer and zero current assays suggest permeation of ≈1,000 molecules of CAZ per sec and per channel through OmpF versus ≈500 through OmpC. Here, the instant killing is directly correlated to internal drug concentration. We propose that the net negative charge of CAZ represents a key advantage for permeation through OmpF porins that are less cation-selective than OmpC. These data could explain the decreased susceptibility to some cephalosporins of enterobacteria that exclusively express OmpC porins.

Published
2022

19. Dynamic Interconversions of Single Molecules Probed by Recognition Tunneling at Cucurbit[7]uril‐Functionalized Supramolecular Junctions

Author

Bohuai Xiao, Suhang He, Mingjun Sun, Jianghao Zhou, Zhiye Wang, Yunchuan Li, Simin Liu, Werner M. Nau, and Shuai Chang

Subjects
Bridged-Ring Compounds, Macrocyclic Compounds, Imidazoles, Nanotechnology, General Chemistry, General Medicine, Imidazolidines, Heterocyclic Compounds, 2-Ring, Catalysis
Abstract

We introduce a versatile recognition tunneling technique using doubly cucurbit[7]uril-functionalized electrodes to form supramolecular junctions that capture analytes dynamically by host-guest complexation. This results in characteristic changes in their single-molecule conductance. For structurally related drug molecules (camptothecin, sanguinarine, chelerythrine, and berberine) and mixtures thereof, we observed distinct current switching signals related to their intrinsic conductance properties as well as pH-dependent effects which can be traced back to their different states (protonated versus neutral). The conductance variation of a single molecule with pH shows a sigmoidal distribution, allowing us to extract a pK

Published
2022

21. Reliably Probing the Conductance of a Molecule in a Cavity via van der Waals Contacts

Author

Mingjun Sun, Tao Wu, Xiang Yu, Yun Wang, Simin Liu, Mingzhu Huang, Shuai Chang, Werner M. Nau, Suhang He, Yunchuan Li, and Jin He

Subjects
Coupling, Work (thermodynamics), Conductance, Anchoring, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, symbols.namesake, General Energy, law, Chemical physics, symbols, Molecule, Density functional theory, Physical and Theoretical Chemistry, van der Waals force, Scanning tunneling microscope, 0210 nano-technology
Abstract

To address a long-standing issue of building molecular electrical circuits heavily relying on anchoring chemistry, we propose an alternative method to immobilize anchor-free molecules in a molecular cavity between metal electrodes. In such a scheme, well-defined conductance distribution of anchor-free molecules was obtained by means of a scanning tunneling microscopy break-junction technique. Density functional theory calculations suggest that effective electronic coupling at the molecule-electrode interface can be achieved through well-defined van der Waals (vdW) interactions when the molecule is confined in a cavity with a defined geometry. This work offers a new paradigm to achieve reliable conductance measurements of molecules via vdW interaction without metal-binding groups.

Published
2020

22. Host‐Guest Complexation Affects Perylene‐Based Dye Aggregation

Author

Shreya Karmacharya, Mohamed Nilam, Chusen Huang, Werner M. Nau, Khaleel I. Assaf, Gyan H. Aryal, and Liming Huang

Subjects
chemistry.chemical_compound, chemistry, Host (biology), Supramolecular chemistry, General Chemistry, Photochemistry, Fluorescence, Perylene
Published
2020

23. Face‐Fusion of Icosahedral Boron Hydride Increases Affinity to γ‐Cyclodextrin: closo , closo ‐[B 21 H 18 ] − as an Anion with Very Low Free Energy of Dehydration

Author

Eduard Bernhardt, Josep M. Oliva-Enrich, Moisés Canle, Werner M. Nau, Khaleel I. Assaf, Jindřich Fanfrlík, M. Isabel Fernández Pérez, Josef Holub, Drahomír Hnyk, and J. Arturo Santaballa

Subjects
Aqueous solution, Chemistry, Hydride, Supramolecular chemistry, Isothermal titration calorimetry, 02 engineering and technology, Nuclear magnetic resonance spectroscopy, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Crystallography, Chaotropic agent, Physical and Theoretical Chemistry, 0210 nano-technology, Host–guest chemistry, Anion binding
Abstract

The supramolecular recognition of closo,closo-[B21 H18 ]- by cyclodextrins (CDs) has been studied in aqueous solution by isothermal titration calorimetry and nuclear magnetic resonance spectroscopy. These solution studies follow up on previous mass-spectrometric measurements and computations, which indicated the formation and stability of CD ⋅ B21 H18 - complexes in the gas phase. The thermodynamic signature of solution-phase binding is exceptional, the association constant for the γ-CD complex with B21 H18 - reaches 1.8×106 M-1 , which is on the same order of magnitude as the so far highest observed value for the complex between γ-CD and a metallacarborane. The nature of the intermolecular interaction is also examined by quantum-mechanical computational protocols. These suggest that the desolvation penalty, which is particularly low for the B21 H18 - anion, is the decisive factor for its high binding strength. The results further suggest that the elliptical macropolyhedral boron hydride is another example of a CD binder, whose extraordinary binding affinity is driven by the chaotropic effect, which describes the intrinsic affinity of large polarizable and weakly solvated chaotropic anions to hydrophobic cavities and surfaces in aqueous solution.

Published
2020

24. Augmenting Peptide Flexibility by Inserting Gamma-Aminobutyric Acid (GABA) in Their Sequence

Author

Morvarid Shahabi, Kambiz Akbari Noghabi, Werner M. Nau, Amir Norouzy, and Reza Hajihosseini

Subjects
chemistry.chemical_classification, Oligopeptide, Chemistry, Stereochemistry, Tryptophan, Bioengineering, Peptide, Biochemistry, Analytical Chemistry, Amino acid, Residue (chemistry), Drug Discovery, Molecular Medicine, Peptide bond, Peptide sequence, Linker
Abstract

Peptide flexibility is a determining factor in designing peptide-based drugs and in linker peptides. The flexibility is roughly inversely proportional to the size of the amino acid side chains in a peptide sequence. Glycine homo repeats are, therefore, the most flexible oligopeptides. We synthesized three oligopeptides: a relatively rigid peptide, His-(Arg)4-Trp (1), a flexible peptide, His-(Gly)4-Trp (2), and a “super-flexible” peptide; His-Gly-(GABA)-Gly-Trp (3) in which the central Gly-Gly unit in 2 was substituted by a γ-aminobutyric acid (GABA) linker. The only structural difference between 2 and 3 is that an amide bond in 2 is replaced by –CH2– units in 3. The frequency of end-to-end collisions, which serves as indicator of peptide flexibility, was measured fluorometrically. For comparing peptide flexibility, fluorescence emission spectra of their tryptophan residues were compared. Upon end-to-end collision, the N-terminal histidine residue efficiently quenches the fluorescence emission of the C-terminal tryptophan residue. The quenching rate is directly proportional to the peptide flexibility. The observed strongly increased flexibility in the γ-aminobutyric acid-containing peptide is due to the substitution of a single, rotationally restricted amide bond. Our result demonstrates the importance of amid bonds in limiting peptide dynamics.

Published
2020

25. Discrete, Cationic Palladium(II)-Oxo Clusters via f-Metal Ion Incorporation and their Macrocyclic Host-Guest Interactions with Sulfonatocalixarenes

Author

Saurav Bhattacharya, Andrea Barba‐Bon, Tsedenia A. Zewdie, Anja B. Müller, Talha Nisar, Anna Chmielnicka, Iwona A. Rutkowska, Christian J. Schürmann, Veit Wagner, Nikolai Kuhnert, Pawel J. Kulesza, Werner M. Nau, and Ulrich Kortz

Subjects
Molecular Structure, Cations, General Medicine, General Chemistry, Ligands, Catalysis, Palladium
Abstract

We report on the discovery of the first two examples of cationic palladium(II)-oxo clusters (POCs) containing f-metal ions, [Pd

Published
2022

26. Binding affinity of aniline-substituted dodecaborates to cyclodextrins

Author

Tarek Marei, Mahmoud K. Al-Joumhawy, Mohammad A. Alnajjar, Werner M. Nau, Khaleel I. Assaf, and Detlef Gabel

Subjects
Materials Chemistry, Metals and Alloys, Ceramics and Composites, General Chemistry, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

A new set of hybrid guest molecules bearing organic and inorganic residues have been studied for their recognition by cyclodextrins in aqueous solution. The guest molecules consist of nitroanilines linked through their amino group to the dodecahydrido

Published
2022

27. Self-assembled theranostic microcarrier targeting tumor cells with high metastatic potential

Author

Dai Qi, Cai Liu, Baosheng Ge, Xiqi Ma, Zhixiong Zhang, Werner M. Nau, Fang Huang, Hua He, Xiaojuan Wang, and Jinyi Yu

Subjects
Materials science, Fluorescence, Flow cytometry, law.invention, Metastasis, Confocal microscopy, law, medicine, General Materials Science, Heparanase, Viability assay, Gold nanoclusters, Materials of engineering and construction. Mechanics of materials, Delivery system, medicine.diagnostic_test, antisense microRNA, Mechanical Engineering, Microcarrier, Cancer, Heparin, Self-assembly, medicine.disease, Mechanics of Materials, Cancer research, TA401-492, medicine.drug
Abstract

Compared with primary and local tumor, metastasis is more difficult to resect completely and remain the leading cause of death associated with solid tumors. It is therefore pressing to develop effective strategies to prevent and suppress tumor metastasis in its early stages. Heparanase overexpression is significantly associated with increased malignancy and metastasis. Here, we develop a novel heparanase degradable heparin-based microcarrier, HBMA, for specific staining, targeting, and inhibiting tumor cells with high metastatic potential. HBMA is fabricated through self-assembling of three components, positively charged fluorescent gold nanoclusters (KG-AuNCs), heparin polymers (HP), and antisense miRNA-21 oligonucleotides (AM-21), with each component playing multiple roles. Results of confocal microscopy and flow cytometry show that this agent has an excellent capability to label metastatic tumor cells with high selectivity. On the therapeutic side, the results of cell viability assay, wound healing assay, and plate colony formation assay verify that HBMA induces a significant inhibition effect towards the proliferation and migration of the selectively target tumor cells. The heparanase responsive AM-21 delivery, the specific staining, and the efficient tumor cell activity suppression highlight HBMA as a promising cancer theranostic agent to prevent tumor metastasis.

Published
2021

28. Electrostatically induced pK

Author

Amir, Norouzy, Alexandra I, Lazar, Mohammad Hossein, Karimi-Jafari, Rohoullah, Firouzi, and Werner M, Nau

Subjects
Spectrometry, Fluorescence, Static Electricity, Amino Acids, Hydrogen-Ion Concentration, Molecular Dynamics Simulation, Oligopeptides
Abstract

pK

Published
2021

29. Fluorescence Monitoring of Peptide Transport Pathways into Large and Giant Vesicles by Supramolecular Host–Dye Reporter Pairs

Author

Andreas Hennig, Andrea Barba-Bon, Werner M. Nau, Frank Biedermann, Dong-Sheng Guo, and Yu-Chen Pan

Subjects
Macrocyclic Compounds, media_common.quotation_subject, Peptide, Cell-Penetrating Peptides, Biochemistry, Fluorescence, Catalysis, Colloid and Surface Chemistry, Fluorescence microscope, Internalization, Unilamellar Liposomes, Fluorescent Dyes, media_common, chemistry.chemical_classification, Molecular Structure, Vesicle, Optical Imaging, Biological Transport, General Chemistry, Membrane transport, Membrane, Microscopy, Fluorescence, chemistry, Peptide transport, Biophysics
Abstract

The membrane transport mechanisms of cell-penetrating peptides (CPPs) are still controversial, and reliable assays to report on their internalization in model membranes are required. Herein, we introduce a label-free, fluorescence-based method to monitor membrane transport of peptides in real time. For this purpose, a macrocyclic host and a fluorescent dye forming a host-dye reporter pair are encapsulated inside phospholipid vesicles. Internalization of peptides, which can bind to the supramolecular host, leads to displacement of the dye from the host, resulting in a fluorescence change that signals the peptide uptake and, thus, provides unambiguous evidence for their transport through the membrane. The method was successfully validated with various established CPPs, including the elusive peptide TP2, in the presence of counterion activators of CPPs, and with a calixarene-based supramolecular membrane transport system. In addition, transport experiments with encapsulated host-dye reporter pairs are not limited to large unilamellar vesicles (LUVs) but can also be used with giant unilamellar vesicles (GUVs) and fluorescence microscopy imaging.

Published
2019

30. Label‐Free Fluorescent Kinase and Phosphatase Enzyme Assays with Supramolecular Host‐Dye Pairs

Author

Yan-Cen Liu, Andreas Hennig, Shu Peng, Werner M. Nau, and Lora Angelova

Subjects
enzyme assay, biology, Chemistry, Kinase, Drug discovery, Biological signal transduction, kinase, Communication, Phosphatase, General Chemistry, Fluorescence, Enzyme assay, Communications, phosphatase, lcsh:Chemistry, chemistry.chemical_compound, lcsh:QD1-999, Biochemistry, biology.protein, Phosphorylation, host-guest chemistry, Lucigenin, fluorescence
Abstract

The combination of the macrocyclic hosts p‐sulfonatocalix[4]arene and cucurbit[7]uril with the fluorescent dyes lucigenin and berberine affords two label‐free enzyme assays for the detection of kinase and phosphatase activity by fluorescence monitoring. In contrast to established assays, no substrate labeling is required. Since phosphorylation is one of the most important regulatory mechanisms in biological signal transduction, the assays should be useful for identification of inhibitors and activators in high‐throughput screening (HTS) format for drug discovery., Monitoring enzyme activity: Reporter pairs composed of macrocyclic hosts and dyes afford kinase and phosphatase assays suitable for drug discovery

Published
2019

31. A Selective Cucurbit[8]uril‐Peptide Beacon Ensemble for the Ratiometric Fluorescence Detection of Peptides

Author

Carsten Schmuck, Christoph Hirschhäuser, Werner M. Nau, Wilhelm Sicking, Debabrata Maity, and Khaleel I. Assaf

Subjects
Bridged-Ring Compounds, insulin, Macromolecular Substances, Chemie, Supramolecular chemistry, Peptide, 010402 general chemistry, Excimer, 01 natural sciences, Supramolecular Chemistry, Fluorescence, Catalysis, chemistry.chemical_compound, Amphiphile, chemistry.chemical_classification, Pyrenes, 010405 organic chemistry, Communication, Organic Chemistry, Imidazoles, Water, peptide beacon, General Chemistry, Combinatorial chemistry, Communications, 0104 chemical sciences, Amino acid, cucurbit[n]uril, Monomer, chemistry, Pyrene, Peptides, Oligopeptides
Abstract

A convenient supramolecular strategy for constructing a ratiometric fluorescent chemosensing ensemble, consisting of a macrocyclic host (cucurbit[8]uril CB[8]), and a pyrene‐tagged amphiphilic peptide beacon (AP 1), is reported. AP 1 unfolds upon encapsulation of the pyrene termini into the hydrophobic CB[8] cavity. This changes pyrene excimer to monomer emission. Substrates with higher affinity for the CB[8] cavity can displace AP 1 from the ensemble. The released AP 1 folds again to form a pyrene excimer, which allows for the ratiometric fluorescence monitoring of the substrate. In this report, the ensemble capacity for ratiometric fluorescence monitoring of biological substrates, such as amino acid derivatives, specific peptides, and proteins, in aqueous media is demonstrated., A switching chemosensing ensemble was obtained by combining a macrocyclic host, cucurbit[8]uril (CB[8]), and a pyrene‐tagged amphiphilic peptide beacon (AP 1) for excellent ratiometric fluorescent recognition of biological substrates in aqueous media. The pyrene termini of the flexible AP 1 compete with substrates for encapsulation into the CB[8] cavity which changes pyrene excimer/monomer emission.

Published
2019

32. High-Affinity Binding of Metallacarborane Cobalt Bis(dicarbollide) Anions to Cyclodextrins and Application to Membrane Translocation

Author

Barbara Begaj, Angelina Frank, Mohamed Nilam, Bohumír Grüner, Ali S. Mougharbel, Jan Nekvinda, Khaleel I. Assaf, Ulrich Kortz, Werner M. Nau, and Detlef Gabel

Subjects
Anions, Boron Compounds, Models, Molecular, Cyclodextrins, Liposome, Aqueous solution, 010405 organic chemistry, Chemistry, Lipid Bilayers, Organic Chemistry, chemistry.chemical_element, Isothermal titration calorimetry, Cobalt, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, 0104 chemical sciences, Membrane, Liposomes, Organometallic Compounds, Thermodynamics, Molecule, Cyclic voltammetry, Lipid bilayer
Abstract

Metallacarboranes are a class of inorganic boron clusters that have recently been recognized as biologically active compounds. Herein, we report on the host-guest complexation of several cobalt bis(1,2-dicarbollide) anions (COSANs) with cyclodextrins (CDs) in aqueous solution. The binding affinities reach micromolar values, which are among the highest known values for native CDs, and exceed those for neutral hydrophobic organic guest molecules. The entrapment of the COSANs inside the cavity of CDs was confirmed using NMR and UV-visible spectroscopy, mass spectrometry, cyclic voltammetry, and isothermal titration calorimetry. Complexation by CDs greatly influences the photophysical and electrochemical properties of COSANs. In combination with indicator displacement assays, a label-free fluorescence-based method was developed to allow real-time monitoring of the translocation of COSANs through lipid bilayer membranes.

Published
2019

33. Synthesis and photophysical properties of inclusion complexes between conjugated polyazomethines with γ-cyclodextrin and its tris-O-methylated derivative

Author

Aurica Farcas, Mihaela Balan-Porcarasu, Mohamed Nilam, Werner M. Nau, Elena-Laura Ursu, Andreas Hennig, and Yan-Cen Liu

Subjects
chemistry.chemical_classification, Materials science, Polymers and Plastics, Organic Chemistry, General Physics and Astronomy, 02 engineering and technology, Polymer, Conjugated system, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Fluorescence spectroscopy, 0104 chemical sciences, chemistry.chemical_compound, Monomer, chemistry, Materials Chemistry, Proton NMR, Physical chemistry, Thermal stability, Solubility, 0210 nano-technology, Conformational isomerism
Abstract

In this study, we investigate the influence of γ-cyclodextrin (γCD) or octakis-(2,3,6-tri-O-methyl)-γ-cyclodextrin (TMe-γCD) encapsulation on the solubility, thermal, optical, electrochemical, morphological, and electrical properties of an aromatic polyazomethine (PA). PA was prepared by oxidative C C coupling of pyrenyl groups from the monomer MA using FeCl3 as catalyst in DMF. After threading of γCD or TMe-γCD macrocycles onto the PA chains, the 1H NMR spectra were in line with the formation of the respective inclusion complexes, PA·γCD and PA·TMe-γCD, which showed distinct improvements of their solubility in common organic solvents, higher thermal stability, as well as better film-forming ability. Fluorescence spectroscopy revealed that the emission maximum shifted from 388 nm for PA to 425 nm and 428 nm for PA·γCD and PA·TMe-γCD, which is in good agreement with encapsulation of PA backbones into the hydrophobic cavities. Fluorescence lifetime measurements indicated multiexponential decays for all compounds, which is in accordance with different conformers in the excited state. Atomic force microscopy indicated that the surfaces of PA·γCD and PA·TMe-γCD in the solid state showed needle-shaped morphologies with widths of 105 ± 25 nm and 46 ± 13 nm, respectively, whereas the surface of the naked PA polymer displayed an irregular morphology with embedded particles and width of 158 ± 29 nm. The electrochemical band gaps (ΔEg) of PA·γCD and PA·TMe-γCD were lower than that of non-encapsulated PA. The electrical conductivities of the investigated compounds were about 10−11 S cm−1, which is in the range of insulating materials.

Published
2019

34. Cucurbit[7]uril-Threaded Poly(3,4-ethylenedioxythiophene): A Novel Processable Conjugated Polyrotaxane

Author

Werner M. Nau, Khaleel I. Assaf, Pierre-Henri Aubert, Liviu Sacarescu, Ana-Maria Resmerita, Aurica Farcas, and Mihai Asandulesa

Subjects
Conductive polymer, Chemistry, Organic Chemistry, 02 engineering and technology, Polyrotaxane, Conjugated system, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, PEDOT:PSS, Polymer chemistry, Physical and Theoretical Chemistry, 0210 nano-technology, Host–guest chemistry, Poly(3,4-ethylenedioxythiophene)
Published
2019

35. A supramolecular five-component relay switch that exposes the mechanistic competition of dissociativeversusassociative binding to cucurbiturils by ratiometric fluorescence monitoring

Author

Yan-Cen Liu, Werner M. Nau, and Andreas Hennig

Subjects
010405 organic chemistry, Component (thermodynamics), Metals and Alloys, Supramolecular chemistry, General Chemistry, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, Fluorescence, Catalysis, Ratiometric fluorescence, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, chemistry.chemical_compound, chemistry, Relay, law, Cucurbituril, Materials Chemistry, Ceramics and Composites, Binding site, Derivative (chemistry)
Abstract

A putrescine derivative of aminomethyladamantane is established as a ditopic guest with two mutually exclusive binding sites for cucurbit[6]uril and cucurbit[7]uril. A mixture containing both hosts, the ditopic guest, and two fluorescent dyes affords a relay system with a ratiometric fluorescence response and enables a kinetic analysis of the switching mechanism.

Published
2019

36. Ratiometric DNA sensing with a host–guest FRET pair

Author

Werner M. Nau, Chusen Huang, Shuai Zhang, Andreas Hennig, and Khaleel I. Assaf

Subjects
Bridged-Ring Compounds, Indoles, Supramolecular chemistry, 010402 general chemistry, 01 natural sciences, Fluorescence, Catalysis, Dna staining, chemistry.chemical_compound, Limit of Detection, Fluorescence Resonance Energy Transfer, Materials Chemistry, DAPI, Fluorescent Dyes, 010405 organic chemistry, Imidazoles, Metals and Alloys, DNA, General Chemistry, Fluoresceins, Acceptor, Intercalating Agents, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Spectrometry, Fluorescence, Förster resonance energy transfer, chemistry, Ceramics and Composites, SYBR Green I, Biophysics
Abstract

A supramolecular host-guest FRET pair based on a carboxyfluorescein-labelled cucurbit[7]uril (CB7-CF, as acceptor) and the fluorescent dye 4',6-diamidino-2-phenylindole (DAPI, as donor) is developed for sensing of DNA. In comparison to the commercial DNA staining dye SYBR Green I, the new chemosensing ensemble offers dual-emission signals, which allows a linear ratiometric response over a wide concentration range.

Published
2019

38. Cucurbituril Ameliorates Liver Damage Induced by Microcystis aeruginosa in a Mouse Model

Author

Na'il Saleh, Saad Al-Jassabi, Ali H. Eid, and Werner M. Nau

Subjects
biology, chemoprotectant, Protein phosphatase 1, General Chemistry, Glutathione, Pharmacology, biology.organism_classification, cucurbituril, lcsh:Chemistry, Chemistry, chemistry.chemical_compound, Increased lipid, lcsh:QD1-999, chemistry, Cucurbituril, liver damage, Microcystis aeruginosa, Liver function, Liver damage, Alanine aminotransferase, cyanobacterial crude extract, Original Research
Abstract

Microcystis aeruginosa is a cyanobacterium that produces a variety of cyclic heptapeptide toxins in freshwater. The protective effects of the macromolecular container cucurbit[7]uril (CB7) were evaluated using mouse models of cyanotoxin-induced liver damage. Biochemical analysis of liver function was performed to gauge the extent of liver damage after exposure to cyanobacterial crude extract [CCE; LD50 = 35 mg/kg body weight; intraperitoneal (i.p.)] in the absence or presence of CB7 (35 mg/kg body weight, i.p.). CCE injection resulted in liver enlargement, potentiated the activities of alanine aminotransferase (ALT) and glutathione S-transferase (GST), increased lipid peroxidation (LPO), and reduced protein phosphatase 1 (PP1) activity. CCE-induced liver enlargement, ALT and GST activities, and LPO were significantly reduced when CB7 was coadministered. Moreover, the CCE-induced decline of PP1 activity was also ameliorated in the presence of CB7. Treatment with CB7 alone did not affect liver function, which exhibited a dose tolerance of 100 mg/kg body wt. Overall, our results illustrated that the addition of CB7 significantly reduced CCE-induced hepatotoxicity (P < 0.05).

Published
2021

39. Carbon Dot Blinking Enables Accurate Molecular Counting at Nanoscale Resolution

Author

Hua He, Xiaojuan Wang, Lihua Liu, Xiaoliang Chen, Werner M. Nau, Fang Huang, and Qian Wang

Subjects
Microscopy, Microscope, Blinking, Chemistry, 010401 analytical chemistry, Resolution (electron density), Nanoparticle, 010402 general chemistry, Laser, 01 natural sciences, Carbon, Single Molecule Imaging, 0104 chemical sciences, Analytical Chemistry, law.invention, law, Molecule, Molecular Density, Nanoparticles, Biological system, Nanoscopic scale
Abstract

Accurate counting of single molecules at nanoscale resolution is essential for the study of molecular interactions and distribution in subcellular fractions. By using small-sized carbon dots (CDs), we have now developed a quantitative single-molecule localization microscopy technique (qSMLM) based on spontaneous blinking to count single molecules with a localization precision of 10 nm, which can be accomplished on conventional microscopes without sophisticated laser control. We explore and adapt the blinking of CDs with diverse structures and demonstrate a counting accuracy of >97% at a molecular density of 500 per μm2. When applied to G-protein coupled receptors on a cell membrane, we discriminated receptor oligomerization and clustering and revealed ligand-regulated receptor distribution patterns. This is the first example of adapting nanoparticle self-blinking for molecular counting, and this demonstrates the power of CDs as SMLM probes to reliably decipher sub-diffraction structures that mediate crucial biological functions.

Published
2021

40. Large Peptide Permeation Through a Membrane Channel: Understanding Protamine Translocation Through CymA from Klebsiella Oxytoca

Author

Sushil Pangeni, Jigneshkumar Dahyabhai Prajapati, Jayesh Arun Bafna, Nilam Mohamed, Werner M. Nau, Ulrich Kleinekathöfer, and Mathias Winterhalter

Subjects
endocrine system
Abstract

Quantifying the passage of the large peptide protamine (Ptm) across CymA, a passive channel for cyclodextrin uptake, is in the focus of this study. Using a reporter-pair based fluorescence membrane assay we detected the entry of Ptm into liposomes containing CymA. The kinetics of the Ptm entry was independent of its concentration suggesting that the permeation across CymA is the rate-limiting factor. Furthermore, we reconstituted single CymA channels into planar lipid bilayers and recorded the ion current fluctuations in the presence of Ptm. To this end, we were able to resolve the voltage-dependent entry of single Ptm peptide molecules into the channel. Extrapolation to zero voltage revealed about 1-2 events per second and long dwell times, in agreement with the liposome study. Applied-field and steered molecular dynamics simulations provided an atomistic view on the permeation. It can be concluded that a concentration gradient of 1 M Ptm leads to a translocation rate of about 1 molecule per second and per channel.

Published
2020

41. Membrane Permeability and Its Activation Energies in Dependence on Analyte, Lipid, and Phase Type Obtained by the Fluorescent Artificial Receptor Membrane Assay

Author

Werner M. Nau, Solène Collin, Mohamed Nilam, Andreas Hennig, and Shreya Karmacharya

Subjects
Fluid Flow and Transfer Processes, Liposome, Chromatography, Membrane permeability, Chemistry, Process Chemistry and Technology, Vesicle, Phospholipid, Bioengineering, Membranes, Artificial, Receptors, Artificial, Permeation, Fluorescence, Permeability, chemistry.chemical_compound, Membrane, Liposomes, Phosphatidylcholines, Instrumentation, POPC
Abstract

Time-resolved monitoring of the permeability of analytes is of utmost importance in membrane research. Existing methods are restricted to single-point determinations or flat synthetic membranes, limiting access to biologically relevant kinetic parameters (permeation rate constant, permeation coefficients). We now use the recently introduced fluorescent artificial receptor membrane assay (FARMA) as a method to monitor, in real time, the permeation of indole derivatives through liposomal membranes of different lipid compositions. This method is based on the liposomal encapsulation of a chemosensing ensemble or "fluorescent artificial receptor", consisting of 2,7-dimethyldiazapyrenium as a fluorescent dye and cucurbit[8]uril as the macrocyclic receptor, that responds to the complexation of a permeating aromatic analyte by fluorescence quenching. FARMA does not require a fluorescent labeling of the analytes and allows access to permeability coefficients in the range from 10-8 to 10-4 cm s-1. The effect of temperature on the permeation rate of a series of indole derivatives across the phospholipid membranes was studied. The activation energies for permeation through POPC/POPS phospholipid membranes were in the range of 28-96 kJ mol-1. To study the effect of different lipid phases on the membrane permeability, we performed experiments with DPPC/DOPS vesicles, which showed a phase transition from a gel phase to a liquid-crystalline phase, where the activation energies for the permeation process were expected to show a dramatic change. Accordingly, for the permeation of the indole derivatives into the DPPC/DOPS liposomes, discontinuities were observed in the Arrhenius plots, from which the permeation activation energies for the distinct phases could be determined, for example, for tryptamine 245 kJ mol-1 in the gel phase and 47 kJ mol-1 in the liquid-crystalline phase.

Published
2020

42. Real-Time Parallel Artificial Membrane Permeability Assay Based on Supramolecular Fluorescent Artificial Receptors

Author

Suhang He, Werner M. Nau, Andrea Barba-Bon, Andreas Hennig, and Anxhela Zhiti

Subjects
Analyte, Synthetic membrane, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, drug discovery, lcsh:Chemistry, Molecular recognition, Lipid bilayer, Original Research, Chromatography, Chemistry, passive diffusion, Biological membrane, General Chemistry, Permeation, 021001 nanoscience & nanotechnology, Fluorescence, 0104 chemical sciences, Microplate Reader, cucurbituril, lcsh:QD1-999, fluorescence, permeability, 0210 nano-technology
Abstract

Parallel artificial membrane permeability assay (PAMPA) is a screening tool for the evaluation of drug permeability across various biological membrane systems in a microplate format. In PAMPA, a drug candidate is allowed to pass through the lipid layer of a particular well during an incubation period of, typically, 10-16 h. In a second step, the samples of each well are transferred to a UV-Vis-compatible microplate and optically measured (applicable only to analytes with sufficient absorbance) or sampled by mass-spectrometric analysis. The required incubation period, sample transfer, and detection methods jointly limit the scalability of PAMPA to high-throughput screening format. We introduce a modification of the PAMPA method that allows direct fluorescence detection, without sample transfer, in real time (RT-PAMPA). The method employs the use of a fluorescent artificial receptor (FAR), composed of a macrocycle in combination with an encapsulated fluorescent dye, administered in the acceptor chamber of conventional PAMPA microplates. Because the detection principle relies on the molecular recognition of an analyte by the receptor and the associated fluorescence response, concentration changes of any analyte that binds to the receptor can be monitored (molecules with aromatic residues in the present example), regardless of the spectroscopic properties of the analyte itself. Moreover, because the fluorescence of the (upper) acceptor well can be read out directly by fluorescence in a microplate reader, the permeation of the drug through the planar lipid layer can be monitored in real time. Compared with the traditional assay, RT-PAMPA allows not only quantification of the permeability characteristics but also rapid differentiation between fast and slow diffusion events.

Published
2020
Full Text
View/download PDF

43. Interaction of Cucurbit[7]uril With Protease Substrates: Application to Nanosecond Time-Resolved Fluorescence Assays

Author

Andreas Hennig and Werner M. Nau

Subjects
lcsh:Chemistry, time-resolved fluorescence (TRF), lcsh:QD1-999, cucurbiturils, peptides, proteases, enzyme assays
Abstract

We report the use of the macrocyclic host cucurbit[7]uril (CB7) as a supramolecular additive in nanosecond time-resolved fluorescence (Nano-TRF) assays for proteases to enhance the discrimination of substrates and products and, thereby, the sensitivity. A peptide substrate was labeled with 2,3-diazabicyclo[2.2.2]oct-2-ene (DBO) as a long-lived (>300 ns) fluorescent probe and 3-nitrotyrosine was established as a non-fluorescent fluorescence resonance energy transfer (FRET) acceptor that acts as a “dark quencher.” The substrate was cleaved by the model proteases trypsin and chymotrypsin and the effects of the addition of CB7 to the enzyme assay mixture were investigated in detail using UV/VIS absorption as well as steady-state and time-resolved fluorescence spectroscopy. This also allowed us to identify the DBO and nitrotyrosine residues as preferential binding sites for CB7 and suggested a hairpin conformation of the peptide, in which the guanidinium side chain of an arginine residue is additionally bound to a vacant ureido rim of one of the CB7 hosts.

Published
2020

44. An Amphiphilic Sulfonatocalix[5]arene as an Activator for Membrane Transport of Lysine-rich Peptides and Proteins

Author

Fei Ding, Yu-Chen Pan, Werner M. Nau, Dong-Sheng Guo, Andrea Barba-Bon, Han-Wen Tian, and Andreas Hennig

Subjects
chemistry.chemical_classification, Kosmotropic, 010405 organic chemistry, Lysine, Cell Membrane, Proteins, Peptide, Membranes, Artificial, General Chemistry, Membrane transport, 010402 general chemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, Residue (chemistry), Protein Transport, Membrane, Molecular recognition, chemistry, Amphiphile, Biophysics, Calixarenes, Sulfonic Acids, Peptides
Abstract

Lysine (K) is an important target residue for protein and peptide delivery across membranes. K is the most frequently exposed residue in proteins, leading to high demand for the development of K-compatible transport activators. However, designing activators for K-rich peptides and proteins is more challenging than for arginine-rich species because of the kosmotropic nature of K and its recognition difficulty. In this study, we designed a new amphiphilic sulfonatocalix[5]arene (sCx5-6C) as a K-compatible transport activator. sCx5-6C was tailored with two key elements, recognition of K and the ability to embed into membranes. We measured the membrane transport efficiencies of α-poly-l-lysine, heptalysine, and histones across artificial membranes and of α-poly-l-lysine into live cells, activated by sCx5-6C. The results demonstrate that sCx5-6C acts as an efficient activator for translocating K-rich peptides and proteins, which cannot be achieved by known arginine-compatible activators.

Published
2020

45. Interaction of Cucurbit[7]uril With Protease Substrates: Application to Nanosecond Time-Resolved Fluorescence Assays

Author

Andreas, Hennig and Werner M, Nau

Subjects
Chemistry, time-resolved fluorescence (TRF), cucurbiturils, peptides, proteases, enzyme assays, Original Research
Abstract

We report the use of the macrocyclic host cucurbit[7]uril (CB7) as a supramolecular additive in nanosecond time-resolved fluorescence (Nano-TRF) assays for proteases to enhance the discrimination of substrates and products and, thereby, the sensitivity. A peptide substrate was labeled with 2,3-diazabicyclo[2.2.2]oct-2-ene (DBO) as a long-lived (>300 ns) fluorescent probe and 3-nitrotyrosine was established as a non-fluorescent fluorescence resonance energy transfer (FRET) acceptor that acts as a “dark quencher.” The substrate was cleaved by the model proteases trypsin and chymotrypsin and the effects of the addition of CB7 to the enzyme assay mixture were investigated in detail using UV/VIS absorption as well as steady-state and time-resolved fluorescence spectroscopy. This also allowed us to identify the DBO and nitrotyrosine residues as preferential binding sites for CB7 and suggested a hairpin conformation of the peptide, in which the guanidinium side chain of an arginine residue is additionally bound to a vacant ureido rim of one of the CB7 hosts.

Published
2020

46. Encapsulation of ionic liquids inside cucurbiturils

Author

Fatima Alsoubani, Abdussalam K. Qaroush, Sanaa K. Bardaweel, Musa I. El-Barghouthi, Werner M. Nau, Ala'a F. Eftaiha, Husam Abed alfattah, Khaleel I. Assaf, and Mohammad A. Alnajjar

Subjects
chemistry.chemical_classification, Aqueous solution, Chemistry, Organic Chemistry, Isothermal titration calorimetry, Biochemistry, Hydrophobic effect, chemistry.chemical_compound, Crystallography, Cucurbituril, Ionic liquid, Amphiphile, Titration, Physical and Theoretical Chemistry, Alkyl
Abstract

Cucurbit[n]urils (CBn, n = 6–8) serve as molecular receptors for imidazolium-based ionic liquids (ILs) in aqueous solution. The amphiphilic nature of 1-alkyl-3-methylimidazolium guests (Cnmim), with a cationic imidazolium residue and a hydrophobic alkyl chain, enabled their complexation with CBn through a combination of the hydrophobic effect and ion–dipole interactions. 1H NMR experiments revealed that the cavity of CBn can host the hydrophobic chain of the ILs, while one of the carbonyl rims served as a docking site for the imidazolium ring. The structure of the complexes was further analyzed by molecular dynamics (MD) simulations, which indicated that the cavity of CB6 can accommodate up to 5 carbon atoms, while the larger cavity of CB7 and CB8 can encapsulate longer alkyl chains in folded conformations. Isothermal titration calorimetry (ITC) experiments provided up to micromolar affinity of ILs to CBn in aqueous solution, which was independently quantified by indicator displacement titrations.

Published
2020

47. Orthogonal Molecular Recognition of Chaotropic and Hydrophobic Guests Enables Supramolecular Architectures

Author

Wenjing Wang, Khaleel I. Assaf, Changjun Xiang, Xiaohai Zhou, Xiaoqiang Wang, Werner M. Nau, Haibo Zhang, and Detlef Gabel

Subjects
010405 organic chemistry, Renewable Energy, Sustainability and the Environment, Chemistry, Supramolecular chemistry, Energy Engineering and Power Technology, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, 0104 chemical sciences, Biomaterials, Hydrophobic effect, Chaotropic agent, Molecular recognition, Materials Chemistry, Surface modification
Published
2018

49. The Chaotropic Effect as an Assembly Motif in Chemistry

Author

Khaleel I. Assaf and Werner M. Nau

Subjects
chemistry.chemical_classification, Kosmotropic, 010405 organic chemistry, Biomolecule, Solvation, Minireviews, General Chemistry, large anions, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, Catalysis, Supramolecular Chemistry, 0104 chemical sciences, Supramolecular assembly, Hydrophobic effect, Chaotropic agent, chemistry, cavitation, superchaotropes, Molecule, Minireview, Lipid bilayer, aqueous solvation, superchaotropic ions
Abstract

Following up on scattered reports on interactions of conventional chaotropic ions (for example, I−, SCN−, ClO4 −) with macrocyclic host molecules, biomolecules, and hydrophobic neutral surfaces in aqueous solution, the chaotropic effect has recently emerged as a generic driving force for supramolecular assembly, orthogonal to the hydrophobic effect. The chaotropic effect becomes most effective for very large ions that extend beyond the classical Hofmeister scale and that can be referred to as superchaotropic ions (for example, borate clusters and polyoxometalates). In this Minireview, we present a continuous scale of water–solute interactions that includes the solvation of kosmotropic, chaotropic, and hydrophobic solutes, as well as the creation of void space (cavitation). Recent examples for the association of chaotropic anions to hydrophobic synthetic and biological binding sites, lipid bilayers, and surfaces are discussed.

Published
2018

50. Rational design of boron-dipyrromethene (BODIPY) reporter dyes for cucurbit[7]uril

Author

Werner M. Nau, Pichandi Ashokkumar, Jürgen Bartelmeß, Mohammad A. Alnajjar, Robert Hein, Knut Rurack, Mohamed Nilam, and Andreas Hennig

Subjects
Supramolecular chemistry, Fluorescence correlation spectroscopy, Protonation, 010402 general chemistry, Photochemistry, 01 natural sciences, Full Research Paper, supramolecular chemistry, Photoinduced electron transfer, lcsh:QD241-441, photoinduced electron transfer, chemistry.chemical_compound, lcsh:Organic chemistry, BODIPY, lcsh:Science, pH, 010405 organic chemistry, Chemistry, Organic Chemistry, Rational design, Chromophore, Fluorescence, cucurbituril, 0104 chemical sciences, lcsh:Q, fluorescence
Abstract

We introduce herein boron-dipyrromethene (BODIPY) dyes as a new class of fluorophores for the design of reporter dyes for supramolecular host–guest complex formation with cucurbit[7]uril (CB7). The BODIPYs contain a protonatable aniline nitrogen in the meso-position of the BODIPY chromophore, which was functionalized with known binding motifs for CB7. The unprotonated dyes show low fluorescence due to photoinduced electron transfer (PET), whereas the protonated dyes are highly fluorescent. Encapsulation of the binding motif inside CB7 positions the aniline nitrogen at the carbonyl rim of CB7, which affects the pKa value, and leads to a host-induced protonation and thus to a fluorescence increase. The possibility to tune binding affinities and pKa values is demonstrated and it is shown that, in combination with the beneficial photophysical properties of BODIPYs, several new applications of host–dye reporter pairs can be implemented. This includes indicator displacement assays with favourable absorption and emission wavelengths in the visible spectral region, fluorescence correlation spectroscopy, and noncovalent surface functionalization with fluorophores.

Published
2018

Catalog

Books, media, physical & digital resources
See catalog results