517-22-6Relevant articles and documents
Rational design of fluorescent probes for targeted: In vivo nitroreductase visualization
Chen, Ji-An,Gao, Jie,Gu, Xianfeng,Li, Mimi,Tan, Jiahui,Yin, Xiaofan,Zhao, Zhen
supporting information, p. 4744 - 4747 (2020/07/13)
Nitroreductase (NTR) has been recognized as a biomarker for identifying the hypoxic status of cancers. Therefore, it is of high scientific interest to design effective fluorescent probes for tracking NTR activity. However, studies on elucidation of the structure-performance relationship of fluorescent probes and those providing valuable insight into optimized probe design have rarely been reported. Three BODIPY based fluorescent probes were made by conjugation of para-, ortho-, and meta-nitrobenzene to the BODIPY core via a thiolether bond, respectively. Our study revealed that the linkage and nitro substituent position significantly influence the capability of nitroreductase detection.
SPIROBODIPYs with spiropyran structure compound, preparation method and its use
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Paragraph 0020; 0057; 0060, (2016/11/02)
The invention discloses a SPIROBODIPYs compound with the spiropyrane structure. The compound has the following structural general formula (refer to the Specification), wherein R1, R2, R3 and R4 are alkyl substituents or aromatic substituents, R5 is an alkyl substituent, an alcohol hydroxyl substituent or a substituent with triple bonds at the tail end. The invention further discloses the application of the SPIROBODIPYs compound to a fluorescence molecular probe. The SPIROBODIPYs compound can be applied to controllable detection of physiological and pathological process of cells, and can be used for building living cell acid organelles or used as a novel fluorescent dye of a fluorescence molecular probe for detecting the acid environment of cancer cells.
REACTIVE LABELLING COMPOUNDS AND USES THEREOF
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, (2015/11/16)
Provided are azido-BODIPY compounds of formula (I), cyclooctyne-based fluorogenic probes of formula (IV), and activity-based probes of formula (VI). These compounds undergo azide alkyne cycloadditions (AAC) with to form triazolyl products. The provided compounds are useful for detection and imaging of alkyne-, or azide-containing molecules. Methods for detection and imaging biomolecules using compounds of the present disclosure are disclosed.
Preparation, spectral and thermal properties of Co(II), Ni(II), Cu(II), Zn(II), and Cd(II) complexes with iodosubstituted 2,2′-dipyrrolylmethene
Guseva,Antina,Beresin,V'Yugin,Nuraneeva
, p. 1571 - 1579 (2013/10/22)
Complexes [ML2] of cobalt(II), nickel(II), copper(II), zinc(II), and cadmium(II) with asymmetrically substituted (E)-3-ethyl-5-[(4-iodo-3,5- dimethyl-2H-pyrrol-2-ylidene)methyl]-2,4-dimethyl-1H-pyrrole (HL) have been prepared and characterized for the first time. The spectral properties, stability in solutions and in the solid phase at elevated temperature of the complexes have been studied. The effects of complexing metal ion and the reaction medium on the spectral luminescent properties (absorptivity, quantum yield, fluorescence lifetime, and the radiation constant) and on thermal destruction of the [ML2] complexes have been discussed.
An efficient method for the synthesis of unsymmetrical 2,2′- bis(pyrrolyl)alkanes
Murat-Onana, Marie Laure,Berini, Christophe,Minassian, Frederic,Pelloux-Leon, Nadia,Denis, Jean-Noel
body text, p. 2204 - 2211 (2010/07/04)
A new strategy for the preparation of unsymmetrical 2,2′- bis(pyrrolyl)alkanes has been developed. It involved the condensation of pyrrole derivatives onto N-benzylhydroxylamines in the presence of HCl. This two-step procedure provided access to a wide variety of 2,2′-dipyrromethanes (3a-m). It has also been extended to the synthesis of tripyrromethanes 4a-d and of N-confused dipyrromethanes 6a-d.
Synthesis and spectral properties of new 3,3'-bis(dipyrrolylmethene) with acetylene spacer
Antina,Guseva,Loginova,Semeikin,V'Yugin
experimental part, p. 2374 - 2381 (2011/04/14)
Bis(2,4,7,9-tetramethyl-8-ethyldipyrrolylmethen-3-yl)acetylene dihydrobromide (H2L·2HBr), new bis(dipyrrolylmethene), in whose molecule dipyrrolylmethene domains were connected through 3,3'-carbon atoms of internal pyrrole nuclei by acetylene spacer, were synthesized by original procedure. The compound was characterized by element analysis, IR, 1H NMR, and electronic spectroscopy. The comparative analysis of spectral properties shows the reduction of the basicity of H2L ligand in comparison with the structural analogs, which contain internal methylene spacer. The quantum-chemical simulation showed that the rigid acetylene spacer gives linear structure to the H2L molecule in contrast to the spiral-shaped geometry of structural analogs with-CH2-spacer. Pleiades Publishing, Ltd., 2010.
Design and development of a new pyrromethene dye with improved photostability and lasing efficiency: Theoretical rationalization of photophysical and photochemical properties
Mula, Soumyaditya,Ray, Alok K.,Banerjee, Manas,Chaudhuri, Tandrima,Dasgupta, Kamalesh,Chattopadhyay, Subrata
, p. 2146 - 2154 (2008/09/19)
(Chemical Equation Presented) In an attempt to develop a photostable and efficient pyrromethene compound for use in liquid dye lasers, three congeners of the commercially available pyrromethene 567 (PM567) laser dye were synthesized and their photophysical properties, lasing efficiencies, and photochemical stabilities were studied. In general the presence of an aryl group at C-8 of the pyrromethene chromophore increased the photostability. One of the congeners possessing a C-8 trimethoxyphenyl moiety showed significantly improved lasing parameters than PM567. Compared to PM567, the photochemical stability of the new dye was 2-fold, while it showed an equivalent lasing efficiency to that of PM567 at a significantly lower concentration. The increased photostability of these new dye molecules could be explained by theoretical calculation on their capacity to generate singlet oxygen (1O2) and probability of reaction with 1O2. Our calculations were in agreement with the experimental results and indicated that a systematic design of new derivatives of pyrromethene chromophore might lead to improved laser dye molecules.
Syntheses of per-15N labeled etioporphyrins I-IV and a related tetrahydrobenzoporphyrin for applications in organic geochemistry and vibrational spectroscopy
Lash, Timothy D.,Chen, Shaohua
, p. 11577 - 11600 (2007/10/03)
Nitrogen-15 labeled pyrroles have been prepared from commercially available 15N glycine or sodium nitrite using the Barton-Zard, Knorr, and Kleinspehn approaches. These pyrroles were used as intermediates in the synthesis of per-15N labeled porphyrins needed for the analysis and assignment of vibrational spectra for sedimentary porphyrins. Etioporphyrin-I was prepared via pyrromethene intermediates, while etioporphyrins II-V and a related tetrahydrobenzoporphyrin were synthesized via stepwise routes involving the copper(II) mediated cyclization of a,c-biladienes as the key step. Detailed analyses of both the proton and carbon-13 NMR spectra provide nitrogen-15 coupling constants for these important structures.
Thermochemistry of substituted pyrroles
Berezin, M. V.,Semeikin, A. S.,V'yugin, A. I.,Krestov, G. A.
, p. 449 - 453 (2007/10/02)
The heats of solution of a series of substituted pyrroles in benzene, carbon tetrachloride, chloroform, DMF, and pyridine were measured by a calorimetric method at 298.15 K.The influence of substituents in the pyrrole molecule on the energy parameters of solvation by organic solvents is discussed.
An efficient route to dipyrrinones: Synthesis of xanthobilirubic acid methyl ester
Shrout,Lightner
, p. 1062 - 1065 (2007/10/02)
Structurally interesting and complicated dipyrrinones, such as xanthobilirubic acid methyl ester (9), can be synthesized on a large scale from simple, inexpensive starting materials like ethyl acetoacetate, 2,4-pentanedione (1) and ethyl acrylate in 8 steps with an average yield of 80% at each step and an overall 17% yield.
