Chemistry of the strong electrophilic metal fragment [99Tc(N)(PXP)]2+ (PXP = diphosphine ligand). A novel tool for the selective labeling of small molecules (Articolo in rivista)

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  • Chemistry of the strong electrophilic metal fragment [99Tc(N)(PXP)]2+ (PXP = diphosphine ligand). A novel tool for the selective labeling of small molecules (Articolo in rivista) (literal)
Anno
  • 2002-01-01T00:00:00+01:00 (literal)
Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
  • 10.1021/ja0200239 (literal)
Alternative label
  • Bolzati C.; Boschi A.; Uccelli L. ; Tisato F. ; Refosco F. ; Cagnolini A. ; Duatti A. ; Prakash S.; Bandoli G.; Vittadini A. (2002)
    Chemistry of the strong electrophilic metal fragment [99Tc(N)(PXP)]2+ (PXP = diphosphine ligand). A novel tool for the selective labeling of small molecules
    in Journal of the American Chemical Society (Print)
    (literal)
Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
  • Bolzati C.; Boschi A.; Uccelli L. ; Tisato F. ; Refosco F. ; Cagnolini A. ; Duatti A. ; Prakash S.; Bandoli G.; Vittadini A. (literal)
Pagina inizio
  • 11468 (literal)
Pagina fine
  • 11479 (literal)
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  • http://pubs.acs.org/doi/full/10.1021/ja0200239 (literal)
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  • 124 (literal)
Rivista
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  • Chimica di coordinazione di nitruro complessi di tecnezio e renio. Sintesi, caratterizzazione, reattività e studi strutturali e computazionali di eterocomplessi misti con leganti difosfinici (literal)
Note
  • ISI Web of Science (WOS) (literal)
  • Scopu (literal)
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  • 1,4,5,6 ICIS - C.N.R., Corso Stati Uniti, 4, 35127 Padova, Italy 2,3,7,8 Laboratory of Nuclear Medicine, Department of Clinical and Experimental Medicine, University of Ferrara, Via L. Borsari, 46, 44100 Ferrara, Italy 9 Department of Pharmaceutical Sciences, University of Padova, Via Marzolo, 5, 35131 Padova, Italy 10 ISTM - C.N.R, Via Marzolo, 1, 35131 Padova, Italy (literal)
Titolo
  • Chemistry of the strong electrophilic metal fragment [99Tc(N)(PXP)]2+ (PXP = diphosphine ligand). A novel tool for the selective labeling of small molecules (literal)
Abstract
  • Mono-substituted [M(N)Cl2(POP)] [M = Tc, 1; Re, 2] and [M(N)Cl2(PNP)] [M = Tc, 3; Re, 4] complexes were prepared by reaction of the precursors [M (N)Cl4]- and [M(N)Cl2(PPh3)2] (M = Tc, Re) with the diphosphine ligands bis[(2-diphenylphosphinoethyl)ether (POP) and bis(2- diphenylphosphinoethyl)methoxyethylamine (PNP) in refluxing dichloromethane/methanol solutions. In these compounds, the diphosphine acted as a chelating ligand bound to the metal center through the two phosphorous atoms. Considering also the weak interaction of the heteroatom (N or O) located in the middle of the carbon backbone connecting the two P atoms, the coordination arrangement of the diphosphine ligand could be viewed as either meridional (m) or facial (f), and the resulting geometry as pseudo-octahedral. The heteroatom of the diphosphine ligand was invariably located trans to the nitrido linkage, as established by X-ray diffraction analysis of the representative compounds 2m and 4f. Density functional theoretical calculations showed that in POP-type complexes the mer form is favored by approximately 6 kcal mol-1, whereas mer and fac isomers are almost isoenergetic in PNP-type complexes. A possible role of non-covalent interactions between the phosphinic phenyl substituents in stabilizing the fac-isomer was also highlighted. The existence of fac-mer isomerism in this class of complexes was attributed to the strong tendency of the two phosphorous atoms to occupy a reciprocal trans position within the pseudo-octahedral geometry. The switching of P atoms between cis and trans configurations was confirmed by the observation that the fac isomers, 1f and 2f, were irreversibly transformed, in solution, into the corresponding mer isomers, 1m and 2m, thus suggesting that fac complexes are more reactive species. Theoretical calculations supported this view by showing that the lowest unoccupied orbitals of the fac isomers are more accessible to a nucleophilic attack with respect to those of the mer ones. Furthermore, the large participation of the Cl orbitals to the HOMO, which is a metal-ligand ƒà* antibonding in the complex basal plane, show that the Tc-Cl bonds are labile. As a consequence, facial isomers could be considered as highly electrophilic intermediates that were selectively reactive towards substitution by electron-rich donor ligands. Experimental evidence was in close agreement with this description. It was found that fac-[M(N)Cl2(PXP)] complexes easily underwent ligand¡V exchange reactions with bidentate donor ligands such as mercaptoacetic acid (NaHL1), S-methyl 2-methyldithiocarbazate (H2L2), diethyldithiocarbamate sodium salt (NaL3) and N-acetyl-L-cysteine (H2L4) to afford stable asymmetrical heterocomplexes of the type fac-[M(N)(Ln) (POP)]+/0 (5-8) and fac-[M(N)(Ln)(PNP)]+/0 (9-14) comprising two different polydentate chelating ligands bound to the same metal center. In these reactions, the bidentate ligand replaced the two chloride atoms on the equatorial plane of the distorted octahedron leaving untouched the starting fac-[M(N)(PXP)]2+ (X = O, N) moieties. No formation of the corresponding symmetrical complexes containing two identical bidentate ligands was detected over a broad range of experimental conditions. Solution-state NMR studies confirmed that the structure in solution of these heterocomplexes was identical to that established in the solid state by X-ray diffraction analysis of the prototype complexes fac-[M(N) (HL2)(POP)][BF4] [M = Tc, 7; Re, 8] and fac-[Tc(N)(HL2)(PNP)][BF4] 11. In conclusion, the novel metal fragment fac-[M(N)(PXP)]2+ could be utilized as an efficient synthon for the preparation of a large class of asymmetrical, nitrido heterocomplexes incorporating a particular diphosphine ligand and a variety of bidentate chelating molecules. (literal)
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