- Reversible tricolour luminescence switching based on a piezochromic iridium(iii) complex
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On the basis of rational molecular design, the tricolour luminescence switching of an Ir(iii) complex is achieved for the first time. The transformation between two crystalline states and an amorphous state is responsible for the switching behaviour of th
- Yang, Tianzhi,Wang, Yue,Liu, Xingman,Li, Guangfu,Che, Weilong,Zhu, Dongxia,Su, Zhongmin,Bryce, Martin R.
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- 2,4-Substituted-3-aza-1-thiabutadienes: a conformational study by dipolmetry
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Dipole moments of fifteen 2,4-substituted 4-N,N-dimethylamino-3-aza-1-thia(oxa)butadienes were measured in carbon tetrachloride solution.Calculations of molecular moments for five compounds in the sp (C=S and N=C on the same side) and ap conformations wer
- Cellerin, C.,Abouelfida, A.,Pradere, J. P.,Proutiere, A.,Roze, J. C.,et al.
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- Liganding Functional Tyrosine Sites on Proteins Using Sulfur-Triazole Exchange Chemistry
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Tuning reactivity of sulfur electrophiles is key for advancing click chemistry and chemical probe discovery. To date, activation of the sulfur electrophile for protein modification has been ascribed principally to stabilization of a fluoride leaving group (LG) in covalent reactions of sulfonyl fluorides and arylfluorosulfates. We recently introduced sulfur-triazole exchange (SuTEx) chemistry to demonstrate the triazole as an effective LG for activating nucleophilic substitution reactions on tyrosine sites of proteins. Here, we probed tunability of SuTEx for fragment-based ligand discovery by modifying the adduct group (AG) and LG with functional groups of differing electron-donating and -withdrawing properties. We discovered the sulfur electrophile is highly sensitive to the position of modification (AG versus LG), which enabled both coarse and fine adjustments in solution and proteome activity. We applied these reactivity principles to identify a large fraction of tyrosine sites (~30%) on proteins (~44%) that can be liganded across >1500 probe-modified sites quantified by chemical proteomics. Our proteomic studies identified noncatalytic tyrosine and phosphotyrosine sites that can be liganded by SuTEx fragments with site specificity in lysates and live cells to disrupt protein function. Collectively, we describe SuTEx as a versatile covalent chemistry with broad applications for chemical proteomics and protein ligand discovery.
- Brulet, Jeffrey W.,Borne, Adam L.,Yuan, Kun,Libby, Adam H.,Hsu, Ku-Lung
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p. 8270 - 8280
(2020/05/25)
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- ORGANOMETALLIC COMPLEX, LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND LIGHTING DEVICE
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Provided is a novel organometallic complex that has an emission region in the wavelength band of green to blue and high reliability. Provided is an organometallic complex including a structure represented by a general formula (Gl). The organometallic comp
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Page/Page column 101-102
(2012/06/15)
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- Orthoamides. LIV. Contributions to the chemistry of azavinylogous orthoformic acid amide derivatives
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The azavinylogous aminalester 3 reacts with primary amines to give amidines 5 and 6. In the reaction of 3 with aniline the azavinylogous amidine 7 is produced additionally to the amidine 5c. Ethylendiamine is formylated at both aminogroups, the bis-amidine 8 thus formed is transformed to the salts 9a,b. Benzoxazole and benzimidazole can be prepared from 3 and o-aminophenol and o-phenylenediamine, resp. Carboxylic acid amides, urea, thiourea, aromatic acid hydrazides 17 and the sulfonylhydrazide 19 are formylated by 3 at nitrogen to give N-acylated formamidines 14, 16, 18, 20. From 3 and aliphatic acid hydrazides 17 and alkylhydrazines, resp., can be obtained 1,2,4-triazole 21 and 1-alkyl-1,2,4-triazoles 22a,b, resp. N.N-Dimethylcyanacetamide (32) reacts with 3 and the orthoamide 4a, resp., to give a mixture of the formylated compound 34 and the amidine 33. The reaction conditions are of low influence on the ratio in which 33 and 34 are formed. The orthoamide 4b and 32 react to afford a mixture of the amidine 35 and the enamine 36. Hydrogen-sulfide acts on 3 giving N,N-dimethylthioformamide (37). From 3 and 1-alkynes 41 can be prepared the amidines 42. Hydrolysis of 42b affords phenylpropiolaldehyde (43). The alkylation of the aminalester 3 gives rise to the formation of vinylogous amidinium salts 1c and 1d, resp., additionally is formed the amide acetal 2a. The salt 1d can also be prepared from 3 and borontrifluoride-ether. Iodide reacts with N,N-dimethylformamide acetals 12a,b in an unclear, complicated manner giving orthoesters 53, N,N-dimethylformamide, alkyliodides, alcohols, ammonium iodides 46 and carbondioxide. The action of halogens on 3 affords the salts 1a,b,c,e,f depending on the chosen stoichiometric ratio. Aromatic aldehydes are suited for trapping azavinylogous carbenes formed on thermolysis of 3; 1,3-oxazoles 69 are the reaction products. From 3 and propionaldehyde the amidine 65 can be obtained with low yield. Carbondisulfide transforms 3 to the azavinylogous salt 66. The preparation of the azavinylogous orthoamide 4a is described. The thermolysis of 3 and 4a, resp., gives rise to the formation of the triaminopyrimidine 67. Treatment of 1a with lithium diisopropylamide affords the triaminopyrazine 68, which can also be obtained by thermolysis of 3 in the presence of sodium hydride. Azavinylogous carbenes are thought to be the intermediates. Wiley-VCH Verlag GmbH, 2000.
- Kantlehner, Willi,Hauber, Michael,Haug, Erwin,Schallenmueller, Claus,Regele, Claudia
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p. 682 - 699
(2007/10/03)
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- Unexpected formation of acylformamidines by reaction of primary carboxamides with MeONa in DMF in the presence of CHCl3
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Dichlorocarbene, which is generated by reaction of CHCl3 with MeONa, is likely to chlorinate DMF to produce tile Vilsmeier-Haack-Arnold salt that in the presence of excess MeONa, gives DMF dimethylacetal (2). This latter reacts with primary amides to yield the corresponding N,N-dimethyl-N'-acylformamidines. Solid state structure of N-[(dimethylamino)methylene]phenoxyacetamide (4) obtained by X-ray crystallography is also reported.
- Anelli, Pier Lucio,Brocchetta, Marino,Copez, Debora,Palano, Daniela,Visigalli, Massimo,Paoli, Paola
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p. 15827 - 15832
(2007/10/03)
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- Thermolysis of Polyazapentadienes. Part 11. Concerted and Free Radical Mechanisms in 2-Aza Enone and 2-Aza Enthione Pyrolyses: Crystal and Molecular Structures of 3-Dimethylamino-1-p-tolyl-2-azaprop-2-en-1-one and 3-Dimethylamino-1-phenyl-2-azaprop-2-ene-1-thione
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Flash vacuum pyrolysis of the dimethylamino-azapropenones (7)-(9) and -azapropenethione (12) gives nitriles and amides (or thioamide) in yields of ca. 30percent by an electrocyclisation-ring cleavage mechanism.This is a minor pathway for the triarylazapropenones (14) and (15) for which homolytic cleavage of the C-N bond gives rise to the major products.The X-ray crystal structures of (10) and (12) show that the conjugated systems are almost planar in the s-Z conformation, as required for the electrocyclic ring closure.
- Blake, Alexander J.,McNab, Hamish,Murray, M. Elizabeth-Ann
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p. 589 - 595
(2007/10/02)
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