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Showing 21 to 30 of 31 (0.025 seconds)Spelling suggestions: "subject:"cromo"" "subject:"bromo""
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Organic dust-induced signaling in human pulmonary epithelial cells : emphasis on effects of cAMP modulation /Burvall, Karin, January 2005 (has links) (PDF)
Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 5 uppsatser.
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N-alquilação regiosseletiva de pirazóis empregando 4-alcóxi(amino)-5-bromo-1,1,1-trifluorpent-3-en-2-onas / Regioselective N-alkylation of pyrazoles using 4-alkoxy(amino)-5-bromo-1,1,1-trifluoropent-3-en-2-ones"Moraes, Paulo Alexandre de 19 August 2016 (has links)
This work presents the synthesis of three new series of nitrogen-heterocycles containing the substituent trifluoromethyl, exploiting the synthetic versatility and regioselectivity of 4-alkoxy-5-bromo-1,1,1-trifluorpent-3-en-2-ones and 4-amino-5-bromo-1,1,1-trifluoropent-3-en-2-ones in reactions with compounds containing nucleophilic nitrogen.
Two series of 1-(3-alkoxy-5-trifluoromethyl-2,3-dihydrofuran-3-yl)-4,5-alkyl-3-(trifluoromethyl)-1H-pyrazoles were synthesized by the N-functionalization reaction of pyrazoles with 4-alkoxy-5-bromo-1,1,1-trifluorpent-3-en-2-ones, by Michael s nucleophilic addition. In the first step, there is a nucleophilic addition of the pyrazol molecule to the beta position of enones (Cβ), followed by an intramolecular cyclization reaction, where the furan ring is formed by replacement of the bromine atom by the carbonyl oxygen of enone, resulting in thirteen novel compounds with yields between 55-86%.
The other compounds series, (E)-4-(amino)-1,1,1-trifluoro-5-(5-methyl-3- (trifluoromethyl)-1H-pyrazol-1-yl)pent-3-en-2-ones, was synthesized by N-alkylation reaction, through a bimolecular nucleophilic substitution (SN2) mechanism, with replament of the bromine atom, at five position (Cγ) of 4-amino-5-bromo-1,1,1-trifluoropent-3-en-2-ones, by the nucleophilic nitrogen of the pyrazoline ring. Seven N-alkylated products were obtained, with yields among 65-85%.
In addition, the regioselectivity study of N-functionalized pyrazoles reactions is described, including the evaluation of reaction conditions and how substituents present in the pyrazole structure can influence the product formation, because many different steric and electronic factors.
The obtained compounds were characterized by nuclear magnetic resonance 1H and 13C, mass spectrometry, elementary analysis and X-ray diffractometry. / A presente dissertação relata a síntese de três séries inéditas de heterociclos nitrogenados trifluormetil substituídos, que exploram a versatilidade sintética e a regiosseletividade das 4-alcóxi-5-bromo-1,1,1-trifluorpent-3-en-2-onas e das 4-amino-5-bromo-1,1,1-trifluorpent-3-en-2-onas, em reações com nucleófilos nitrogenados.
As primeiras duas séries dos compostos 1-(3-alcóxi-5-trifluorometil-2,3-diidrofuran-3-il)-4,5-alquil-3-(trifluorometil)-1H-pirazóis, foram sintetizadas através do processo de N-funcionalização de pirazóis, a partir da reação com as 4-alcóxi-5-bromo-1,1,1-trifluorpent-3-en-2-onas, cujo o caminho mecanístico se deu através de uma reação de adição nucleofílica de Michael. Inicialmente, ocorre a adição do pirazol nucleofílico na posição beta (Cβ) das enonas bromadas, seguida de uma reação de ciclocondensação intramolecular formando o anel furano, com a substituição átomo de bromo pelo oxigênio enólico, resultando na formação de treze compostos inéditos, com rendimentos entre 55 e 86%.
Outra série de compostos (E)-4-(amino)1,1,1-triflúor-5-(5-metil-3-(trifluormetil)-1H-pirazóis-1-il)pent-3-en-2-onas, foi sintetizada através da reação de N-alquilacão, via substituição nucleofílica bimolecular (SN2), onde o átomo de bromo na posição cinco (Cγ), das 4-amino-5-bromo-1,1,1-trifluorpent-3-en-2-onas, foi substituído pelo nitrogênio nucleofílico do anel pirazolínico, promovendo a formação de sete produtos N-alquilados, com rendimentos que variam entre 65 e 85%.
Além disso, um estudo de regiosseletividade das reações N-funcionalizadas de pirazóis está descrito, onde a avaliação das condições reacionais e também de fatores estéricos e eletrônicos dos substituintes presentes nos substratos, foram determinantes para formação do produto formado.
Os produtos obtidos neste trabalho foram caracterizados por ressonância magnética nuclear de 1H e 13C, espectrometria de massas de baixa e alta resolução, análise elementar e difratometria de Raio X.
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Building Upon Supramolecular Synthons : Some Aspects of Crystal EngineeringMukherjee, Arijit January 2013 (has links) (PDF)
Crystal engineering offers a rational way of analyzing crystal structures and designing new structures with properties. The supramolecular synthon concept was introduced in 1995 and has shown versatility and utility in the design of molecular solids.
Chapter 1 gives a general introduction about the development of the concept of supramolecular synthons over the years which has seen a transition from synthesis to structures and dynamics. This thesis focuses on the later phase of the development of the concept of supramolecular synthons. Chapter 2 introduces the idea of structural landscape and describes a structural landscape of a conformationally flexible molecule, orcinol, and explores the synthon preferences of this particular molecule towards cocrystal formation. Chapter 3 explores a combinatorial matrix to show both global and local features of a structural landscape. Chapter 4 takes a component of this landscape namely 4,4'-bipyridine and 4-hydroxybenzoic acid and shows the occurrence of synthon polymorphism in cocrystals which originates from the interplay of geometrical and chemical factors. Chapter 5 introduces a four step method for the identification of multiple synthons by FTIR spectroscopy. Along with, it shows that the rarity of synthon polymorphism is not a case of overlooking of crystals in the process of selecting good looking crystals. Chapter 6 takes a series of dihalogenated phenols and indicates that the Br prefers type II. This chapter also explains elastic bending on the basis of halogen bonds. Chapter 7 attempts to explore the Cl/Br isostructurality in the light of type I and type II contacts and concludes that Cl/Br isostructurality arises from a geometrical model and therefore it is quite similar to Cl/Me isostructurality. Chapter 8 attempts to analyze the class of trichlorophenols and reveals structural modularity in this class of compounds. The modularity of 3,4,5-trichlorophenol is explored in crystal design in chapter 9 in terms of LSAM (Long Range Synthon Aufbau Module) A subsequent study in solution by NMR reveals the presence of LSAM in solution and establishes a hierarchy of the dissociation of its components.
The concept of supramolecular synthon has come a long way from being a tool in a crystal engineer’s toolbox to a structural unit responsible for crystallization and therefore offer multiple possibilities both in terms of structures and dynamics. This thesis attempts to explore some of these possibilities based mainly on the concepts of structural landscape and halogen bonds which are blended with the concept of supramolecular synthons.
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Part I Development of a Synthetic Approach to O-thienyl Carboxylate Esters and Their Application in the Synthesis of Liquid Crystal Exhibiting SmC PhasePart II Synthesis and Photolytic Studies of pHP-and 1-Substituted-6,2-HNM-based HNO DonorsJiuhong, Zhang 26 November 2019 (has links)
No description available.
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2-ARYL-6,8-Dibromoquinolinones as synthons for the synthesis of Polysubstituted 4-ARYL-6-Oxopyrrolo [3,2,1-ij] QuinolinesOyeyiola, Felix Adetunji 09 1900 (has links)
The known 2-aryl-6,8-dibromo-2,3-dihydroquinolin-4(1H)-ones 122 were dehydrogenated
using thallium(III) p-tolylsulfonate in dimethoxyethane under reflux to afford the 2-aryl-6,8-dibromoquinolin-4(1H)-ones 136. Palladium-catalyzed Sonogashira cross-coupling of the 2-aryl-6,8-dibromo-2,3-dihydroquinolin-4(1H)-ones with terminal alkynes in the presence of PdCl2(PPh3)2-CuI (as homogeneous catalyst source) and 10% Pd/C-PPh3-CuI (as heterogeneous catalyst source) catalyst mixture and NEt3 as a base and co-solvent in ethanol under reflux afforded the corresponding 6,8-dialkynyl-2-aryl-2,3-dihydroquinolin-4(1H)-ones 138 and 8-alkynyl-2-aryl-6-bromo-2,3-dihydroquinolin-4(1H)-ones 137, respectively. PdCl2-catalyzed
electrophilic cyclization of the 8-alkynyl-2-aryl-6-bromo-2,3-dihydroquinolin-4(1H)-ones in acetonitrile under reflux afforded the 4-aryl-8-bromo-2-phenyl-6H-pyrrolo[3,2,1-ij]quinolin-6-ones 139 or the 2-aryl-6-bromo-8-(4-hydroxybutanoyl)-2,3-dihydroquinolin-4(1H)-ones 140 from the 4-phenylethynyl-substituted or 4-alkylethynyl-substituted precursors, respectively. The 2-aryl-6,8-dibromoquinolin-4(1H)-ones 136 wturn, subjected to similar homogeneous and heterogeneous palladium catalyst sources using NEt3 as a base in DMF-water mixture under reflux and K2CO3 as a base in dioxane under reflux afforded 2,8-disubstituted 4-aryl-6-oxopyrrolo[3,2,1-ij]quinolines 143 and 2-substituted 4-aryl-8-bromo-6-oxopyrrolo[3,2,1-ij]quinolines 142, respectively. The monoalkynylated 4-aryl-8-bromo-2-phenyl-6H-pyrrolo[3,2,1-ij]quinolin-6-ones 139 and 2-substituted 4-aryl-8-bromo-6-oxopyrrolo[3,2,1-ij]quinolines 142 were subsequently transformed using palladium-catalyzed Suzuki-Miyaura cross-coupling with arylboronic acids in the presence of PdCl2(PPh3)2-PCy3 catalyst mixture and K2CO3 as a base in dioxane-water mixture to afford the corresponding novel 8-substituted 2-phenyl-6H-pyrrolo[3,2,1-ij]quinolin-6-ones 141 and 2,8-disubstituted 4-aryl-6-oxopyrrolo[3,2,1-ij]quinolines 144, respectively. All the new compounds were characterized using a combination of 1H NMR, 13C NMR, IR, mass spectroscopic techniques and X-ray crystallography. / Chemistry / D. Phil. (Chemistry)
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Synthesis, Conformation and Glycosidic Bond Stabilities of Septanoside SugarsDey, Supriya January 2014 (has links) (PDF)
Seven-membered cyclic sugars, namely, septanoses and septanosides, are less commonly known sugar homologues. Synthesis of septanoses arise an interest due to their configurational and conformational features and the attendant possibilities to explore their chemical and biological properties. Septanosides derivatives, mostly, deoxy-septanosides were synthesized, by many synthetic methodologies, such as, Knoevengal condensation, ring-closing metathesis, Bayer-Villeger oxidation and ring-expansion of 1,2-cyclopropanted glycals as key steps. Apart from septanosyl monosaccharides, septanoside containing di- and tri-saccharides were also performed using glycosylation and ring expansions.
Another area of sustained interest is the studies of the stabilities of glycosidic bonds. Acid- and enzyme-catalyzed hydrolysis of glycosidic bond were investigated intensely in the case of pyranosides and furanosides. The explanation of the hydrolysis of such stereomeric sugars were rationalized on the basis of stereoelectronic effects, such as, (i) antiperiplanarity; (ii) synperiplanarity of lone-pair of electrons involed in the hydrolysis process; (iii) steric effects; (iv) field and hyperconjugative effects; (v) conformational effects; (vi) disarming torsional effects and (vii) substituent effects. Chapter 1 of the thesis describes a survey of (i) synthesis of deoxy-septanosides and septanoside-containing di-and tri-saccharides and (ii) acid-catalyzed hydrolysis of glycopyranosides.
In a programme, it was desired to identify a new methodology for the synthesis of 2-deoxy-2-C-septanosides. Synthesis of various septanosides from 2-hydroxy glycals, namely, oxyglycals, involves intermediates, such as, vinyl halide (III) and diketone (IV) (Scheme 1). These intermediates were identified as precursors for the synthesis of desired 2-deoxy-2-C-septanosides.
Scheme 1
reactions, namely, Heck, Suzuki and Sonogashira reaction for the formation of hither-to unknown septanoside, branching out at C-2. Heck coupling and Suzuki coupling reaction of bromo-oxepine was performed using activated alkenes, acrylates and substituted boronic acid, respectively, in presence of Pd(OAc)2, to furnish 2-deoxy-2-C-alkyl/aryl septanoside derivatives (Scheme 2).
Scheme 2
2-deoxy-2-C-alkynyl septanoside derivatives (Scheme 3). Scheme 3
BnO OOMe BnO OOMePd(PPh3)2Cl2,CuIBr
BnO R
BnO DMF:THF:Et3N(3:2:1)BnO OBn 98 oC, 72 h BnO OBn R=Ph,SiMe3,C6H13
One of the 2-deoxy-2-C-alkyl septanoside derivative was converted to the corresponding protecting-group free 2-deoxy-2-C-alkyl septanoside, using hydrogenolysis (Pd/C, H2) and NaBH4-mediated reduction.
Chapter 2 presents details of the synthesis of 2-deoxy-2-C-alkyl/aryl/alkynyl septanoside derivatives from a bromo-oxepine.
Continuing the efforts to extend the ring-opening of oxyglycal derived gem-dihalo-1,2¬cyclopropanted sugar, a Lewis acid-catalyzed ring-opening was considered important. The presence of an additional substituent in C-2 of oxyglycal switches reactivity as compared to glycals. For example, ring-opening of glycal derived gem-dihalo-1,2-cyclopropane generates 2-C-branched pyranoside, whereas corresponding oxyglycal generates oxepines even when both the reactions were performed under a mild basic condition, illustrating a sufficient reactivity difference between a glycal and an oxyglycal. Thus, ring-opening reaction of gem-dichloro-1,2-cyclopropanted oxyglycal in the presence of a Lewis acid, hither-to unknown, was examined. In this event, it was found that ring-opening reaction led to chloro-oxepine derivatives in the presence of AgOAc, using alcohol as nucleophiles. Primary, secondary, unsaturated and aromatic alcohols were used in the ring-opening reaction. The ring-opening reaction was stereoselective and only α-anomer was obtained in a good yield in each case (Scheme 5). The counter-anion also reacted in an instance, so as to furnish O-acetyl chloro-oxepine during the ring-opening reaction.
Scheme 5
The course of the reaction in the absence of alcohol led to afford only the O-acetyl chloro-oxepine (Scheme 6).
Scheme 6
It became pertinent to compare the result this work with that of AgOAc-catalyzed ring-opening of glycal derived gem-dihalo-1,2-cyclopropanated sugar, which led to C-furanoside derivative, as reported by Harvey and co-workers. The sequence of reactions involved were protonation of the endo-cyclic oxygen, followed by ring-opening to generate resonance stabilized allylic ion, which rearranged to C-furanoside. In contrast, oxyglycal derived gem-dihalo-1,2-cyclopropane studied herein led to chloro-oxepine exclusively, without subsequent rearrangement. Ring-opening of glucal derived gem-dihalo-1,2-cyclopropanated sugars, followed by cyclization to C-furanoside were likely to have occurred, due to isomerisation of less-substituted endo-cyclic double bond at C2-C3 of oxepine to C1-C2 unsaturated vinyl ether. Such a reaction was related closely to the acid-catalyzed rearrangement in less-substituted oxepine systems. On the other hand, gem-dichloro-1,2¬cyclopropanated oxyglycal derived chloro-oxepine did not undergo such an isomerisation, possibly due to unsaturation being present at highly substituted C2-C3 carbons (Scheme 7). Thus, the presence of an additional oxy-substituent at C-2 in oxyglycal derived cyclopropane derivative plays a major role to control the reactivity, as compared to glycal derived cyclopropane derivatives.
Scheme 7
without undergoing further reactions, was confirmed further by the following reactions: (i) RuCl3¬NaIO4 mediated oxidation; (ii) NaBH4 reduction and (iii) Pd/C mediated hydrogenolysis (Scheme 8).
Scheme 8
1,2-cyclopropane to exclusive formation of chloro-oxepine in the presence of AgOAc.
It was planned further to synthesize a 1,7-linked-α-D-diseptanoside, through the oxyglycal route. Ring-opening of oxyglycal derived gem-dihalo-1,2-cyclopropanated derivative with 6¬hydroxy glycal led to 1,7-α-linked disaccharide unit. The following reactions were performed in order to synthesize 1,7-linked-α-diseptanoside 2: (i) cyclopropanation of the glycal double bond; (ii) ring opening of the gem-dihalo cyclopropane; (iii) RuO4 mediated oxidation; (iv) NaBH4 reduction and (v) hydrogenolysis using Pd/C, H2 (Scheme 9). Similar methodology was used for the synthesis of monoseptanoside, namely, n-pentyl-D-glycero-D-galacto-septanoside.
Scheme 9
1
Oxyglycal route was also used for the synthesis of 2-chloro-2-deoxy septanoside 3, using hydrogenolysis (Pd/C, H2) and NaBH4 mediated reduction of chloro-oxepine (Scheme 10).
Scheme 10
A kinetic study of the hydrolytic stabilities of mono-and diseptanoside was undertaken using an acid-catalysis, in a subsequent investigation. In the course of studies, it was observed that glycosidic bond in the reducing-end hydrolyzed twice faster than that at the non-reducing end, whereas glycosidic bond in monosaccharide 1 hydrolyzed 1.5 times faster than of reducing-end glycosidic bond in diseptanoside 2. Further, it was found that the replacement of the C-2 hydroxyl group by a chloride group reduced the rate of hydrolysis (Table 1).
Table 1. First order rate constants and thermodynamic parameters for the acid-catalyzed hydrolysis of glycosidic bond in septanosides 1, 2 and 3.
Compound Rate of hydrolysis ΔH# ΔS# ΔG#
(kobs) (104 s-1) (kcal/mol) (cal/mol K) (kcal/mol)
35 oC 45 oC 85 oC 90 oC
a non-reducing end of 2.
A computational study was conducted, in order to gain further insight into the hydrolysis, using B3LYP/6-311G* level theory in the Gaussian 09 program packages. Calculations using the PCM solvent model with water as the solvent showed that the orientation of hydroxylmethyl group plays an important role. In the case of 1, the gg conformer was calculated stable by 2.12 kcal/mol, as compared, to tg-conformer. In the gg conformation, the optimal positioning of the dipole C7-O7 stabilized the oxo-carbonium ion in the transition state (Figure 1). Also, hydroxyl group at C4 stabilized the transition state, through non-covalent interaction (Figure 1). The transition state for the hydrolysis of 1 was found to present activation barrier (∆G#) of 19.9 kcal/mol, which was in good agreement with value for 1 (∆G# = 23.26 kcal/mol), as calculated from Erying plot (Table 1). On the other hand, inductive effect of the chloride group, as well as, the tg-orientation of the hydroxymethyl group appeared to contribute to the slower rate of the hydrolysis.
Figure 1. gg- and tg-conformations in the ground state of 1.
Chapter 4 describes synthesis of 1,7-linked-α-D-diseptanoside, 2-chloro-2-deoxy septanoside and their acid-catalyzed hydrolysis studies.
Solid-state and solution phase conformation of septanosides are rare at present even when solid-state structures of pyranoside and furanosides are known commonly, that provide rich information of covalent and non-covalent interactions. In this context, single crystal X-ray structural analysis of septanosides, namely, n-pentyl-2-chloro-2-deoxy-α-D-manno-sept-3-uloside 4 and p-bromo phenyl 4,5,7-tri-O-benzyl-β-D-glycero-D-talo-septanoside 5 were analyzed. It was observed that the solid-state structure of 4 adopted twist-chair conformation, namely, 5,6TC3,4, whereas 5 adopted O,1TC2,3 conformation (Figure 2). An analysis of non-covalent interactions revealed that a dense network of O−H···O and C−H···O stabilized the crystal lattice of 4, whereas O−H···O and C−H···π stabilized the crystal lattice of 5. Chapter 5 describes the detailed analysis of X-ray crystal structure of two septanoside derivatives including non-covalent interactions responsible for the stabilization of crystal lattice.
Figure 2. ORTEP of 4 and 5 with displacement ellipsoids, at a 10 % and 50 % probability level.
In summary, the thesis established the following major results: (i) synthesis of 2-deoxy-2-C¬alkyl/aryl septanoside from a bromo-oxepine, using organometallic C-C bond forming reactions; (ii) the ring-opening reaction of oxyglycal derived gem-dihalo-1,2-cyclopropane in the presence of AgOAc and the effect of additional C-2 oxy-substituent in the reactivity, in comparison to glycal;
(iii) an oxyglycal route for the synthesis of 1,7-linked-α-D-diseptanoside, 2-chloro-2-deoxy septanoside and their acid-catalyzed hydrolysis studies and (iv) solid-state X-ray crystal structural analysis and computational analysis of the conformation and non-covalent interactions associated with the stabilization of crystal lattice.
Overall, the studies presented in the thesis provide a new insight into the synthesis, acid-catalyzed hydrolysis and solid-state structural analysis of septanoside derivatives.
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FUNDAMENTAL AND APPLICATION OF SURFACE-INITIATED ATOM TRANSFER RADICAL POLYMERIZATION FOR SURFACE MODIFICATION OF SHEETS AND NANOPARTICLESChen, Renxu 03 1900 (has links)
<p> A recently developed surface grafting technique, surface-initiated atom transfer radical polymerization (ATRP), has the ability to directly graft polymer chains with controllable chain lengths, densities and functionalities from various kinds of surfaces. This thesis has two main focuses. First is to study the use of this technique in grafting monomers with special structures and functionalities. The other is to apply this technique to the modification of reactive metal surfaces. </p>
<p> Both of fluorinated polymers and polyhedral oligomeric silsesquioxane (POSS)-containing polymers have very interesting properties. In this thesis, for the first time, a highly fluorinated monomer, 2,2,2-trifluoroethyl methacrylate (TFEMA) and a POSS-containing monomer, POSS-MA were successfully polymerized from silicon wafers by surface-initiated ATRP. This is also the first work to use this technique to graft polymers with bulky, rigid side groups. </p>
<p> To achieve very high grafting density is a big challenge for surface-initiated ATRP. We designed a novel surface-attachable difunctional initiator, 11-(2,2-bis(2bromo-2-methylpropionyloxy methyl)propionyloxy) undecyltrichlorosilane. With its help, the grafting density of PTFEMA was almost doubled, from 0.48 to 0.86chains/nm2. This is so far the most effective method to increase the grafting density. </p>
<p> Unlike other kinds of materials, the surfaces of metals are active in electrochemical and acid/base reactions and this reactivity complicates A TRP reactions. With the help of triethoxysilane-based initiator and mild Fe(II)/Fe(III) catalyst system, various acrylic polymers were successfully grafted from flat nickel and copper surfaces by surface-initiated ATRP. This work provided a convenient method to prepare functional polymer coatings with very stable adhesions to the metal surfaces. The same strategy can be extended to the surface modification of a shape-memory-alloy, nitinol. </p>
<p> Metal nanoparticles were also modified by this technique. Polymer shells were grafted from nickel nanoparticles surfaces. After the polymer grafting, both of the dispersibility and dispersion stability of nickel nanoparticles in appropriate solvents were greatly improved. </p> / Thesis / Doctor of Philosophy (PhD)
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Synthesis, biological evaluation and molecular docking studies of novel indole- and benzofuran-chalcone and benzofuran-quinazoline hybrids as anticancer agentsMaluleka, Marole Maria 07 1900 (has links)
Text in English / Specially prepared 2-amino-5-bromo-3-iodoacetophenone and 5-bromo-2-hydroxy-3
iodoacetophenone were subjected to Claisen-Schmidt aldol condensation with benzaldehyde derivatives followed by sequential and/or one-pot palladium catalyzed Sonogashira cross coupling and heteroannulation of the 3-alkynylated intermediates to afford indole-chalcones and benzofuran-chalcones, respectively. The indole-chalcones derivatives were, in turn, subjected to trifluoroacetic anhydride in tetrahydrofuran under reflux to afford the corresponding 3-trifluoroacetyl substituted indole-chalcone derivatives. The coupling constant values (Jtrans) of about 16.0 Hz for the chalcone derivatives corresponding to the vinylic protons confirmed the trans geometry of the α,β-unsaturated carbonyl framework in all the cases. Their trans geometry of the chalcone derivatives was further confirmed by single crystal X-ray diffraction (XRD) analyses. Further structural elaboration of the ambident electrophilic α,β unsaturated carbonyl (chalcone) moiety of the indole-chalcones and the analogous benzofuran chalcones with 2-aminothiophenol afforded novel benzothiezapine-appended indole and benzofuran hybrids, respectively. Sonogashira cross-coupling of 5-bromo-2-hydroxy-3 iodoacetophenone with terminal acetylenes followed by heteroannulation of the intermediate 3-alkynylated 5-bromo-2-hydroxyacetophenones afforded the corresponding 7-acetyl-2-aryl-5-bromobenzofurans in a single-pot operation. The oximes derived from the 7-acetyl–substituted 2-aryl-5-bromobenzofurans were subjected to Beckmann rearrangement with triflic
acid in acetonitrile under reflux. We isolated the corresponding 7-amino-2-aryl-5
bromobenzofuran derivatives formed from hydrolysis in situ of the intermediate 7-acetamide 2-aryl-5-bromobenzofurans. Amino-dechlorination of the 4-chloroquinazoline derivatives with the 7-aminobenzofurans afforded novel benzofuran 4-aminoquinazoline hybrids. The prepared compounds were characterized using a combination of nuclear magnetic resonance (1H-NMR & 13C-NMR including 19F-NMR), infrared (IR) and mass spectroscopic techniques complemented with single crystal X-ray diffraction (XRD) analyses and/or density functional (DFT) method.
The benzofuran-chalcone 203a–y derivatives were evaluated for anti-growth effect against the breast cancer (MCF-7) cell line by the MTT cell viability assay. Their mode of cancer cell death (apoptosis versus necrosis) was detected by Annexin V-Cy3 SYTOX staining and caspase-3 activation. The most cytotoxic compounds 203i and 203o were also evaluated for potential to inhibit tubulin polymerization and/or epidermal growth factor receptor-tyrosine kinase (EGFR-TK) phosphorylation. The experimental results were complemented with theoretical data from molecular docking into ATP binding site of the EGFR and colchicine binding site of tubulin, respectively. The benzofuran–4-aminoquinazoline hybrids 215a–j, on the other hand, were evaluated for antiproliferative propeties in vitro against the human lung cancer (A549), epithelial colorectal adenocarcinoma (Caco-2) and hepatocellular carcinoma (C3A) cell lines. The benzofuran-aminoquinazoline hybrids were also evaluated for potential to induce apoptosis and for their capability to inhibit EGFR-TK phosphorylation complemented with molecular docking (in silico) into the ATP binding site of EGFR.
Mechanistic studies demonstrated that the benzofuran-appended aminoquinazoline hybrids 215d and 215j induced apoptosis via activation of caspase-3 pathway. Moreover, compounds 215d and 215j exhibited significant and moderate inhibitory effects against EGFR (IC50 = 29.3 nM and 61.5 nM, respectively) when compared to Gefitinib (IC50 = 33.1 nM). Molecular docking of compounds 215 into EGFR-TK active site suggested that they bind to the region of EGFR like Gefitinib does. / Chemistry / D. Phil. (Chemistry)
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Funktionalisierung von 6H-1,2-Oxazinen durch 1,3-dipolare Cycloadditionen und HalogenierungenSchmidt, Elmar 06 February 2001 (has links) (PDF)
6H-1,2-Oxazines were functionalised at the C-C double bond by 1,3-dipolar cycloadditions and halogenation reactions. The reactions were carried out with 6-ethoxy-3-phenyl-6H-1,2-oxazine, 6-ethoxy-3-ethoxycarbonyl-6H-1,2-oxazine and 6-ethoxy-3-trifluoromethyl-6H-1,2-oxazine. The cycloadditions of 6H-1,2-oxazines were performed with nitrile oxides, nitrile imines, nitrile ylides, diazoalkanes, azomethine ylides and a nitrone. High diastereoselectivity was observed, induced by the steric hindrance of the ethoxy group at the 6H-1,2-oxazines. The cycloadditions occur with high regioselectivity. In addition, the constitutions of the bicycles were predicted by the frontier-orbital model using the semi-empirical PM3-method, and subsequently compared with those of the isolated products. The low strength of the N-O bond of 1,2-oxazines can often be used for mild hydrogenolysis reactions, but the reductions of the biheterocycles obtained here were not selective and led in most cases to decomposition. For the derivatives of 3-ethoxycarbonyl-3a,7a-dihydro-4H-isoxazolo[5,4-d]-1,2-oxazine the conversion of the five-membered ring into cis-configurated &amp;#945;-hydroxynitriles (saponification and decarboxylation) was demonstrated. Finally, the 4-chloro- and 4-bromo-6H-1,2-oxazines were prepared in good yields. Investigations with palladium catalysed coupling reactions were initiated. The halogen of 4-bromo-6H-1,2-oxazines was substituted by the phenyl group of benzolboronic acid using the Suzuki method. / Im Verlauf dieser Arbeit wurden 6H-1,2-Oxazine an der C-C-Doppelbindung durch 1,3-dipolare Cycloadditionen und Halogenierungen funktionalisiert. Als Modellsubstrate für die 6H-1,2-Oxazine wurden 6-Ethoxy-3-phenyl-6H-1,2-oxazin, 6-Ethoxy-3-ethoxycarbonyl-6H-1,2-oxazin und 6-Ethoxy-3-trifluormethyl-6H-1,2-oxazin eingesetzt. Die 6H-1,2-Oxazine konnten bei den Cycloadditionen erfolgreich mit Nitriloxiden, Nitriliminen, Nitrilyliden, Diazoverbindungen, Azomethinyliden und einem Nitron umgesetzt werden, wobei die Ausbeuten stark variieren. Die Reaktionen verliefen mit hoher Regioselektivität. Durch die sterische Abschirmung der Ethoxygruppe an den 6H-1,2-Oxazinen (Briefumschlagskonformation der 6H-1,2-Oxazine und pseudoaxiale Ausrichtung der Ethoxygruppe) wurde ebenfalls eine hohe Diastereoselektivität beobachtet. Ergänzend wurden die Konstitutionen der Cycloaddukte mit der semiempirischen PM3-Methode auf Basis des Grenzorbitalmodells vorhergesagt und mit denen der isolierten Biheterocyclen verglichen. Die dargestellten Cycloaddukte sollten unter Ausnutzung der geringen Bindungsenergie der N-O-Bindung hydrogenolysiert werden. Die Reduktionen waren jedoch im allgemeinen nicht selektiv, so daß die Umsetzungen zu komplexen Produktgemischen führten. Für die 3-Ethoxycarbonyl-3a,7a-dihydro-4H-isoxazolo[5,4-d]-1,2-oxazinderivate wurde ferner der Abbau des Fünfringes (Verseifung und Decarboxylierung) in cis-konfigurierte &amp;#945;-Hydroxynitrile beschrieben. Die 4-Chlor- und 4-Brom-6H-1,2-oxazine konnten in guten Ausbeuten unter milden Reaktionsbedingungen dargestellt werden. Anschließend wurden mit den bromierten Verbindungen verschiedene palladiumkatalysierte Kupplungsreaktionen getestet. Durch die Methode von Suzuki konnte das Halogen der 4-Brom-6H-1,2-oxazine durch den Phenylrest der Benzolboronsäure substituiert werden.
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Funktionalisierung von 6H-1,2-Oxazinen durch 1,3-dipolare Cycloadditionen und HalogenierungenSchmidt, Elmar 15 February 2001 (has links)
6H-1,2-Oxazines were functionalised at the C-C double bond by 1,3-dipolar cycloadditions and halogenation reactions. The reactions were carried out with 6-ethoxy-3-phenyl-6H-1,2-oxazine, 6-ethoxy-3-ethoxycarbonyl-6H-1,2-oxazine and 6-ethoxy-3-trifluoromethyl-6H-1,2-oxazine. The cycloadditions of 6H-1,2-oxazines were performed with nitrile oxides, nitrile imines, nitrile ylides, diazoalkanes, azomethine ylides and a nitrone. High diastereoselectivity was observed, induced by the steric hindrance of the ethoxy group at the 6H-1,2-oxazines. The cycloadditions occur with high regioselectivity. In addition, the constitutions of the bicycles were predicted by the frontier-orbital model using the semi-empirical PM3-method, and subsequently compared with those of the isolated products. The low strength of the N-O bond of 1,2-oxazines can often be used for mild hydrogenolysis reactions, but the reductions of the biheterocycles obtained here were not selective and led in most cases to decomposition. For the derivatives of 3-ethoxycarbonyl-3a,7a-dihydro-4H-isoxazolo[5,4-d]-1,2-oxazine the conversion of the five-membered ring into cis-configurated &amp;#945;-hydroxynitriles (saponification and decarboxylation) was demonstrated. Finally, the 4-chloro- and 4-bromo-6H-1,2-oxazines were prepared in good yields. Investigations with palladium catalysed coupling reactions were initiated. The halogen of 4-bromo-6H-1,2-oxazines was substituted by the phenyl group of benzolboronic acid using the Suzuki method. / Im Verlauf dieser Arbeit wurden 6H-1,2-Oxazine an der C-C-Doppelbindung durch 1,3-dipolare Cycloadditionen und Halogenierungen funktionalisiert. Als Modellsubstrate für die 6H-1,2-Oxazine wurden 6-Ethoxy-3-phenyl-6H-1,2-oxazin, 6-Ethoxy-3-ethoxycarbonyl-6H-1,2-oxazin und 6-Ethoxy-3-trifluormethyl-6H-1,2-oxazin eingesetzt. Die 6H-1,2-Oxazine konnten bei den Cycloadditionen erfolgreich mit Nitriloxiden, Nitriliminen, Nitrilyliden, Diazoverbindungen, Azomethinyliden und einem Nitron umgesetzt werden, wobei die Ausbeuten stark variieren. Die Reaktionen verliefen mit hoher Regioselektivität. Durch die sterische Abschirmung der Ethoxygruppe an den 6H-1,2-Oxazinen (Briefumschlagskonformation der 6H-1,2-Oxazine und pseudoaxiale Ausrichtung der Ethoxygruppe) wurde ebenfalls eine hohe Diastereoselektivität beobachtet. Ergänzend wurden die Konstitutionen der Cycloaddukte mit der semiempirischen PM3-Methode auf Basis des Grenzorbitalmodells vorhergesagt und mit denen der isolierten Biheterocyclen verglichen. Die dargestellten Cycloaddukte sollten unter Ausnutzung der geringen Bindungsenergie der N-O-Bindung hydrogenolysiert werden. Die Reduktionen waren jedoch im allgemeinen nicht selektiv, so daß die Umsetzungen zu komplexen Produktgemischen führten. Für die 3-Ethoxycarbonyl-3a,7a-dihydro-4H-isoxazolo[5,4-d]-1,2-oxazinderivate wurde ferner der Abbau des Fünfringes (Verseifung und Decarboxylierung) in cis-konfigurierte &amp;#945;-Hydroxynitrile beschrieben. Die 4-Chlor- und 4-Brom-6H-1,2-oxazine konnten in guten Ausbeuten unter milden Reaktionsbedingungen dargestellt werden. Anschließend wurden mit den bromierten Verbindungen verschiedene palladiumkatalysierte Kupplungsreaktionen getestet. Durch die Methode von Suzuki konnte das Halogen der 4-Brom-6H-1,2-oxazine durch den Phenylrest der Benzolboronsäure substituiert werden.
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