Search results for "Diorganotin"

showing 9 items of 9 documents

Diorganotin(IV) and triorganotin(IV) complexes of meso-tetra(4-sulfonatophenyl) porphine induce apoptosis in A375 human melanoma cells

2006

The cytotoxic effect of several diorganotin(IV) and triorganotin(IV)-meso-tetra(4-sulfonatophenyl)porphine derivatives was tested and only the (Bu(2)Sn)(2)TPPS and the (Bu(3)Sn)(4)TPPS showed cytotoxicity on A375 human melanoma cells. To examine the pathway of (Bu(2)Sn)(2)TPPS or (Bu(3)Sn)(4)TPPS induced A375 cell death, DNA fragmentation analysis, Annexin V binding and PI uptake as well as caspases activation analysis by Western blot were carried out. A375 cells treated exhibited several typical characteristics of apoptosis. Both the (Bu(2)Sn)(2)TPPS and the (Bu(3)Sn)(4)TPPS compounds activate caspase-8 and caspase-9 leading to caspase-3 activation. Thus, we propose that these two porphiri…

Cancer ResearchPorphyrinsCytotoxicityMelamoma cellAntineoplastic AgentsApoptosisDNA FragmentationWestern blotAnnexinCell Line TumorOrganotin CompoundsPimedicineHumansCytotoxic T cellCytotoxicityMelanomaCaspasebiologymedicine.diagnostic_testTriorganotin(IV)ApoptosiFlow CytometryMolecular biologyMicroscopy FluorescenceOncologyApoptosisCaspasesbiology.proteinDNA fragmentationDiorganotin(IV)
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Preparation and structural studies on diorganotin(IV) complexes of N-nitroso-N-phenylhydroxylaminates

2007

Abstract Diorganotin(IV)-complexes of the N -nitroso- N -phenylhydroxylaminates (hereinafter cupf), Et 2 Sn(cupf) 2 ( 1 ), Bu 2 Sn(cupf) 2 ( 2 ), {[Bu 2 Sn(cupf)] 2 O} 2 ( 3 ), t -Bu 2 Sn(cupf) 2 ( 4 ) and Oc 2 Sn(cupf) 2 ( 5 , 6 ) were prepared and characterised by FT-IR and Mossbauer spectroscopic measurements. The binding modes of the ligand were identified by FT-IR spectroscopy, and it was found that the ligand is coordinated in chelating or bridging mode to the organotin(IV) center. The 119 Sn Mossbauer and FT-IR studies support the formation of trans -O h ( 1 – 6 ) structures. The X-ray diffraction analysis of 4 revealed that the tin centre is in a skew-trapezoidal geometry defined by…

CupferronChemistryLigand1HOrganic Chemistrychemistry.chemical_elementNitrosoBiochemistryX-ray diffractionFT-IRMossbauerInorganic ChemistryCrystallographychemistry.chemical_compound13C and 119Sn NMR spectroscopyMössbauer spectroscopyX-ray crystallographyMaterials ChemistryCupferronChelationPhysical and Theoretical ChemistryTinSpectroscopyDiorganotin(IV)Journal of Organometallic Chemistry
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Complexes of diorganotin(IV) with aminoacids and a dipeptide. Synthesis and structural investigations.

2008

The aim of this work is to synthesize complexes of Arginine, effector of recognition, with organotin(IV) ions (R2Sn2+, R =Me, nBu) which are known to possess antitumour, antimicrobial, anti-inflammatory activities. The complexes were investigated by FT-IR and 119Sn Můssbauer.While identical stoichiometries are present for Me2Sn(Arg)2 and Me2Sn(Boc-Arg)2 complexes, 119Sn Můssbauer spectra give a clear evidence of different coordination modes. L-Arginine appears to behave as a chelating ligand through carboxylate and a-NH2 groups in the former, while in Nα-Boc-L-Arginine complex, the Nα-protected amino group being exempted from coordination, only the carboxylate groups are effectors of bondin…

Diorganotin (IV) complexes aminoacids and dipeptideSettore CHIM/03 - Chimica Generale E Inorganica
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Diorganotin(IV) and triorganotin(IV complexes of meso tetra (4 sulfonatophenyl) porphine: do they bind DNA?

2015

It was observed that organometallic porphyrin systems, where the Sn(IV) residue is in side chains, coordinated via sulphonatophenyl groups of porphyrin, show interesting and peculiar in vitro activity, in agreement with the anti-tumour activity of organotin complexes.

Diorganotin(IV) triorganotin(IV) meso-tetra(4 sulfonatophenyl)porphine DNASettore CHIM/03 - Chimica Generale E Inorganica
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Di-n-butyltin(IV)-catalyzed dimethyl carbonate synthesis from carbon dioxide and methanol: An in situ high pressure 119Sn{1H} NMR spectroscopic study

2011

The reactivity of five di-n-butyltin(IV) complexes, n-Bu2Sn(OR)(2) (1), n-Bu2SnO (3), [n-Bu2Sn(OR)](2)O (4), (n-Bu2SnO)(2)(CO2) (6) and (n-Bu2SnO)(6)[(n-Bu2SnOR)(2)(CO3)](2) (7) (R = CH3), with CO2, suggested as possible catalyst precursors and key-intermediates for the direct synthesis of dimethyl carbonate from carbon dioxide and methanol, has been investigated using high-pressure Sn-119{H-1} NMR (HP-NMR) spectroscopy. Four of the five precursors studied, i.e. 3, 4, 6 and 7 give rise to an identical Sn-119{H-1} NMR pattern which can be explicitly attributed to the fingerprint of the dimeric form of the 1-methoxy-3-methylcarbonatotetrabutyldistannoxane {5}(2). However, with 1, a new pair o…

Inorganic chemistryOxideAlkoxidesBiochemistryMedicinal chemistryCatalysisCatalysisInorganic Chemistrychemistry.chemical_compoundMaterials ChemistryReactivity (chemistry)Physical and Theoretical ChemistrySpectroscopyOrganic carbonatesReactivityOrganic ChemistryOxideChemistryCarbon dioxidechemistryCarbon dioxideProton NMRMethanolDimethyl carbonateOrganooxotin ClusterCarbon dioxide utilizationHigh-pressure NMR spectroscopyRelevantDiorganotin(IV)Journal of Organometallic Chemistry
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High-pressure NMR spectroscopy: An in situ tool to study tin-catalyzed synthesis of organic carbonates from carbon dioxide and alcohols. Part 2 [1]

2015

Dialkoxide diorganotin(IV) complexes are known to readily react with carbon dioxide under pressure and they are considered as suitable catalyst precursor models for the direct synthesis of organic carbonates. To gain a better understanding of CO2 insertion processes with Sn-OR bonds, the reactivity of n-Bu2Sn(OCH(CH3)(2))(2) (2) was investigated using high-pressure NMR (HP-NMR) spectroscopy. In deuterated solvents (isopropanol-d(8) and toluene-d(8)) under 50 bar of CO2 pressure at 80 degrees C, Sn-119{H-1} NMR experiments revealed the exclusive formation of an unprecedented tetraorganodistannoxane species, characterized as the bis[diisopropycarbonatotetrabutyldistannoxane] complex, {[n-Bu2S…

Organic carbonatesOrganic ChemistryInorganic chemistrychemistry.chemical_elementNuclear magnetic resonance spectroscopyBiochemistryCatalysisInorganic Chemistrychemistry.chemical_compoundchemistryDeuteriumTetraorganodistannoxaneCarbon dioxidePolymer chemistrySn-119 NMR spectraMaterials ChemistryHigh pressure NMR spectroscopyReactivity (chemistry)Physical and Theoretical ChemistryTinSpectroscopyCarbon dioxide utilizationDiorganotin(IV)Bar (unit)Journal of Organometallic Chemistry
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Synthesis, spectroscopic characterization and in vitro antimicrobial activity of diorganotin(IV) dichloride adducts with [1,2,4]triazolo-[1,5-a]pyrim…

2006

Abstract The heterocyclic ligands [1,2,4]triazolo-[1,5-a]pyrimidine (tp) and 5,7-dimethyl-[1,2,4]triazolo-[1,5-a]pyrimidine (dmtp), react with diorganotin dichlorides giving the addition compounds Me2SnCl2(tp)2, Et2SnCl2(tp)2, Me2SnCl2(dmtp)2, Et2SnCl2(dmtp)2, Bu2SnCl2(dmtp), Ph2SnCl2(dmtp). The organotin:ligand stoichiometry goes from 1:2 to 1:1 by increasing the steric hindrance of the organic groups bound to tin. The compounds have been characterized by means of infrared, 119Sn Mossbauer and 1H AND 13C NMR spectroscopy. The ligands presumably coordinate to tin classically through the nitrogen atom at the position 3. The 1:1 complexes adopt trigonal bipyramidal structures, with the organi…

Steric effectsPyrimidineLigandStereochemistryOrganic ChemistryDFT calculationchemistry.chemical_elementAntimicrobial activityBiochemistryMedicinal chemistryTriazolopyrimidine; Diorganotin(IV); Mossbauer; DFT calculations; Antimicrobial activityAdductMossbauerInorganic ChemistryTrigonal bipyramidal molecular geometrychemistry.chemical_compoundchemistryOctahedronMössbauer spectroscopyMaterials ChemistryTriazolopyrimidinePhysical and Theoretical ChemistryTinDiorganotin(IV)Journal of Organometallic Chemistry
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Organotin(IV) Adducts of 5,7-Diphenyl-1,2,4-triazolo[1,5-a] pyrimidine and 5,7-Ditertbutyl-1,2,4-triazolo[1,5-a] pyrimidine

2007

diorganotin(IV) chlorides 124-triazolo[15-a] pyrimidine
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Diorganotin(IV) complexes ofD-galacturonic acid: solid-state and solution-phase structural study

2003

Three diorganotin(IV) complexes of D-galacturonic acid (H2GalA; R = Me, n-Bu, Ph), two of which are new derivatives (R = Me, Ph), have been synthesized and their solid-state and solution-phase investigated by IR, Mossbauer, 1H, 13C and 119Sn NMR spectroscopy. The FTIR data suggest that H2GalA, in the dialkyltin derivatives, behaves as a dianionic ligand, coordinating the tin(IV) atom through an ester-type carboxylate and deprotonated alcoholic hydroxo groups, whereas a bridging carboxylate occurs in the diphenyltin(IV) complex. Octahedral and trigonal bipyramidal local geometries on tin(IV) atoms are proposed for dialkyltin(IV)GalA and diphenyltin(IV)GalA complexes respectively on the basis…

geometryalpha pyranosidesynthesisStereochemistryMossbauer spectroscopychemistry.chemical_elementproton nuclear magnetic resonanceMedicinal chemistrystructure analysiInorganic Chemistrychemistry.chemical_compoundDeprotonationcomplex formationMoleculegalacturonic acidorganotin compoundCarboxylateDiorganotininfrared spectroscopybeta furanosidic acidbeta pyranosidedecompositiondiphenyltin galacturonic acid complexLigandarticlecarboxyl groupsolid stateGeneral ChemistryNuclear magnetic resonance spectroscopycarbon nuclear magnetic resonanceNMRdiphenyltin complexunclassified drugTrigonal bipyramidal molecular geometrychemistryOctahedronChemistry (miscellaneous)Settore CHIM/03 - Chimica Generale E InorganicaMössbauerTinApplied Organometallic Chemistry
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