TY - THES A1 - Pavashe, Prashant T1 - Synthesis and transformations of 2-thiocarbohydrates T1 - Synthese und Transformationen von 2-Thiokohlenhydraten BT - a practical approach for functionalization of thiosugars BT - ein Praktischer Zugang zur Funktionalisierung von Thiozuckern N2 - I. Ceric ammonium nitrate (CAN) mediated thiocyanate radical additions to glycals In this dissertation, a facile entry was developed for the synthesis of 2-thiocarbohydrates and their transformations. Initially, CAN mediated thiocyanation of carbohydrates was carried out to obtain the basic building blocks (2-thiocyanates) for the entire studies. Subsequently, 2-thiocyanates were reduced to the corresponding thiols using appropriate reagents and reaction conditions. The screening of substrates, stereochemical outcome and the reaction mechanism are discussed briefly (Scheme I). Scheme I. Synthesis of the 2-thiocyanates II and reductions to 2-thiols III & IV. An interesting mechanism was proposed for the reduction of 2-thiocyanates II to 2-thiols III via formation of a disulfide intermediate. The water soluble free thiols IV were obtained by cleaving the thiocyanate and benzyl groups in a single step. In the subsequent part of studies, the synthetic potential of the 2-thiols was successfully expanded by simple synthetic transformations. II. Transformations of the 2-thiocarbohydrates The 2-thiols were utilized for convenient transformations including sulfa-Michael additions, nucleophilic substitutions, oxidation to disulfides and functionalization at the anomeric position. The diverse functionalizations of the carbohydrates at the C-2 position by means of the sulfur linkage are the highlighting feature of these studies. Thus, it creates an opportunity to expand the utility of 2-thiocarbohydrates for biological studies. Reagents and conditions: a) I2, pyridine, THF, rt, 15 min; b) K2CO3, MeCN, rt, 1 h; c) MeI, K2CO3, DMF, 0 °C, 5 min; d) Ac2O, H2SO4 (1 drop), rt, 10 min; e) CAN, MeCN/H2O, NH4SCN, rt, 1 h; f) NaN3, ZnBr2, iPrOH/H2O, reflux, 15 h; g) NaOH (1 M), TBAI, benzene, rt, 2 h; h) ZnCl2, CHCl3, reflux, 3 h. Scheme II. Functionalization of 2-thiocarbohydrates. These transformations have enhanced the synthetic value of 2-thiocarbohydrates for the preparative scale. Worth to mention is the Lewis acid catalyzed replacement of the methoxy group by other nucleophiles and the synthesis of the (2→1) thiodisaccharides, which were obtained with complete β-selectivity. Additionally, for the first time, the carbohydrate linked thiotetrazole was synthesized by a (3 + 2) cycloaddition approach at the C-2 position. III. Synthesis of thiodisaccharides by thiol-ene coupling. In the final part of studies, the synthesis of thiodisaccharides by a classical photoinduced thiol-ene coupling was successfully achieved. Reagents and conditions: 2,2-Dimethoxy-2-phenylacetophenone (DPAP), CH2Cl2/EtOH, hv, rt. Scheme III. Thiol-ene coupling between 2-thiols and exo-glycals. During the course of investigations, it was found that the steric hindrance plays an important role in the addition of bulky thiols to endo-glycals. Thus, we successfully screened the suitable substrates for addition of various thiols to sterically less hindered alkenes (Scheme III). The photochemical addition of 2-thiols to three different exo-glycals delivered excellent regio- and diastereoselectivities as well as yields, which underlines the synthetic potential of this convenient methodology. N2 - I. Cerammoniumnitrat (CAN) vermittelte Thiocyanat Radikaladditionen an Glycale In dieser Dissertation wurde ein einfacher synthetischer Zugang zu 2-Thiokohlenhydraten und dessen Transformationsprodukten entwickelt. Zu Beginn wurden CAN vermittelte Funktionalisierungen von Kohlenhydraten mit Thiocyanat durchgeführt, um die notwendigen Ausgangsverbindungen (2-Thiocyanate) für die weiteren Studien zu erhalten. Im Folgenden wurden diese 2-Thiocyanate mit entsprechenden Reagenzien unter geeigneten Reduktionsbedingungen zu den Thiolen reduziert. Das Screening der Substrate, der stereochemische Verlauf und der Reaktionsmechanismus wird kurz diskutiert (Schema I). Schema I. Synthese der 2-Thiocyanate II und Reduktionen zu den 2-Thiolen III & IV. Es wurde ein interessanter Mechanismus für die Reduktion der 2-Thiocyanate II zu den 2-Thiolen III via Bildung von Disulfid-Zwischenstufen vorgeschlagen. Die wasserlöslichen freien Thiole IV wurden durch Spaltung der Thiocyanat- und Benzylgruppen in einem Einzelschritt freigesetzt. Im darauf folgenden Teil der Arbeit wurde das synthetische Potenzial der 2-Tiole erfolgreich durch einfache synthetische Transformationen erweitert. II. Transformationen der 2-Thiokohlenhydrate Die 2-Thiole wurden für die Ausführung praktischer Transformationen eingesetzt, die Sulfa-Michael Additionen, nukleophile Substitutionen, Oxidationen zu Disulfiden und Funktionalisierungen an der anomeren Position beinhalten. Die mannigfaltigen Funktionalisierungen der Kohlenhydrate an den C-2 Positionen mittels der Schwefel Gruppe ist das hervortretende Merkmal dieser Arbeit. Reagenzien und Reaktionsbedingungen: a) I2, Pyridin, THF, rt, 15 min; b) K2CO3, MeCN, rt, 1 h; c) MeI, K2CO3, DMF, 0 °C, 5 min; d) Ac2O, H2SO4 (1 Tropfen), rt, 10 min; e) CAN, MeCN/H2O, NH4SCN, rt, 1 h; f) NaN3; ZnBr2; iPrOH/H2O, Rückfluss 15 h; g) NaOH (1 M), TBAI, Benzol, rt 2 h; h) ZnCl2, CHCl3, Rückfluss, 3 h. Schema II. Funktionalisierungen von 2-Thiokohlenhydraten Daraus eröffnet sich die Möglichkeit, den Nutzwert von 2-Thiokohlenhydraten auf biologische Studien auszuweiten. Diese Transformationen haben den synthetischen Wert von 2-Thiokohlenhydraten für den präparativen Maßstab gesteigert. Hervorzuheben ist hier der Lewis Säure katalysierte Austausch der Methoxygruppe durch weitere Nukleophile und die Synthese von (2→1) Thiodisacchariden, die mit quantitativer β-Selektivität erhalten wurden. Zusätzlich wurde zum ersten Mal ein Zucker gebundenes Thiotetrazol über eine (3+2) Cycloaddition an der C-2 Position synthetisiert. III. Synthese von Thiodisacchariden durch Thiol-En-Kopplungen Im letzten Teil der Arbeit gelang die Synthese von Thiodisacchariden durch eine klassische Thiol-En-Kopplung. Reagenzien und Reaktionsbedingungen: 2,2-Dimethoxy-2-phenylacetophenone (DPAP), CH2Cl2/EtOH, hv, rt. Schema III. Thiol-En-Kopplungen zwischen 2-Thiolen und exo-Glycalen. Im Verlauf der Untersuchungen wurde aufgezeigt, dass die räumlische Hinderung bei der Addition von sterisch anspruchsvollen 2-Thiolen an endo-Glycale eine wichtige Rolle spielt. Dazu erprobten wir geeignete Substrate zur Addition von 2-Thiolen an sterisch wenig anspruchsvolle Alkene (Schema III). Die photochemische Addition der 2-Thiole an drei verschiedene exo-Glycale lieferte exzellente Regio- und Diastereoselektivitäten und Ausbeuten, was das synthetische Potenzial dieser bequem durchführbaren Methodik unterstreicht. KW - carbohydrates KW - 2-Thiodisaccharides KW - radical reactions KW - Ceric Ammonium Nitrate (CAN) KW - photochemistry KW - Kohlenhydrate KW - 2-Thiodisaccharide KW - Radikalreaktionen KW - Cer Ammonium Nitrat (CAN) KW - Photochemie Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-397739 ER - TY - JOUR A1 - Pavashe, Prashant A1 - Elamparuthi, Elangovan A1 - Hettrich, Cornelia A1 - Moeller, Heiko M. A1 - Linker, Torsten T1 - Synthesis of 2-Thiocarbohydrates and Their Binding to Concanavalin A JF - The journal of organic chemistry N2 - A convenient and general synthesis of 2-thiocarbohydrates via cerium ammonium nitrate oxidation of the thiocyanate ion is described. Radical addition to glycals proceeds with excellent regio- and good stereoselectivities in only one step, deprotection affords water-soluble 2-thio saccharides. Binding studies to Con A have been performed by isothermal titration calorimetry (ITC) and saturation transfer difference (STD) NMR spectroscopy. The 2-thiomannose derivative binds even stronger to Con A than the natural substrate, offering opportunities for new lectin or enzyme inhibitors. Y1 - 2016 U6 - https://doi.org/10.1021/acs.joc.6b00987 SN - 0022-3263 VL - 81 SP - 8595 EP - 8603 PB - American Chemical Society CY - Washington ER - TY - JOUR A1 - Fudickar, Werner A1 - Pavashe, Prashant A1 - Linker, Torsten T1 - Thiocarbohydrates on Gold Nanoparticles: Strong Influence of Stereocenters on Binding Affinity and Interparticle Forces JF - Chemistry - a European journal N2 - Carbohydrates carrying thiol groups at the C-2 position have been attached to gold nanoparticles (AuNPs) with stereocenters in close proximity to the surface for the first time. Their configurations can be clearly distinguished by the tendency of particle aggregation. AuNP surface plasmon resonance (SPR), X-ray photoelectron spectroscopy (XPS), and IR spectroscopy indicate that the thiocarbohydrates replace citrate molecules at different rates, causing aggregation and eventually precipitation. A quantitative formulation of this aggregation process shows that reactivities can vary by several magnitudes. Adsorption isotherms and kinetics also demonstrate that the number of thiocarbohydrates varies by a factor of two. Molecular mechanics force field (MMFF) calculations reveal their relative orientations. Based on these models, the different binding behavior can be ascribed to attractive van der Waals forces and hydrogen bonds. Such interactions occur either between the carbohydrate and AuNPs, by lateral intermolecular forces at the surface, or by interparticle attraction, in analogy to cell-surface carbohydrates of biological recognition systems. Aggregation of NPs therefore act as an indicator to differentiate between various carbohydrates with defined configurations. KW - carbohydrate recognition KW - citrate displacement KW - gold nanoparticles KW - plasmon spectroscopy KW - thiols Y1 - 2017 U6 - https://doi.org/10.1002/chem.201700846 SN - 0947-6539 SN - 1521-3765 VL - 23 SP - 8685 EP - 8693 PB - Wiley-VCH CY - Weinheim ER -