Vicente Mg scite author profile

Vicente Mg

3Publications

36Citation Statements Received

228Citation Statements Given

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Louisiana State University, University of Houston

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Synthesis and Spectroelectrochemistry of N-Cobaltacarborane Porphyrin Conjugates

Hao

Zhang

et al. 2008

Bioconjugate Chem.

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N-Substituted porphyrins are well known for the distortion they exhibit of the porphyrin plane through the sp3 hybridization of one of the pyrrolenic units. They have served as model compounds in investigations of many biochemical processes. In this paper, we developed an efficient route to N-substituted porphyrins, and report the synthesis of a series of new N-substituted cobaltacarborane-porphyrins containing one or two cobaltabisdicarbollide anions linked by (CH2CH2O)2 chains to either the core porphyrin nitrogens or to a meso-aminophenyl group. These conjugates show different degrees of distortion of the porphyrin macrocycle, which affect their spectroscopic and electrochemical properties. In particular, the core N-substituted conjugates show significant fluorescence quenching in comparison with the non-core substituted macrocycles. The X-ray structures of two targeted core N-cobaltacarborane porphyrin conjugates are presented. The electrochemical and spectroelectrochemical properties of these porphyrin conjugates were investigated; while the peripheral N-substituted cobaltacarboranylporphyrins undergo three reversible reductions and three reversible oxidations (two attributed to the porphyrin and one to the CoIII cluster), the core N-substituted porphyrins exhibit complicated electrochemical behavior with coupled chemical reactions.

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Synthesis and Characterization of Functionalized meso-Triaryltetrabenzocorroles

et al. 2013

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5,10,15-Triaryltetrabenzocorroles functionalized with different electron-withdrawing groups on the β,β'-fused rings have been prepared by a cross-coupling Heck procedure between octabrominated copper corrole and a terminal alkene bearing electron-withdrawing moieties. The spectroscopic characterization of these complexes showed red-shifted UV-vis absorption bands characterized by a significant band broadening. The same feature was observed in the case of NMR spectra, where low-resolution groups of signals were observed. This behavior derives from a strong tendency of these macrocycles to aggregate in solution, as has been demonstrated by an (1)H NMR study performed on one of these tetrabenzocorroles. The influence of the substituents on the fused benzene ring on the properties of the tetrabenzocorroles was investigated by electrochemistry and spectroelectrochemistry, and comparisons were made between properties of the newly synthesized compounds and those of the tetrabenzocorroles reported earlier in the literature.

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Porphyrin−Retinamides: Synthesis and Cellular Studies

Sibrian‐Vazquez

2007

Bioconjugate Chem.

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A series of four porphyrin-retinamides containing either all-trans- or 13-cis-retinoid acid residues, directly linked to the para-phenyl position of meso-tetraphenylporphyrin or via a low-molecular-weight PEG spacer, have been synthesized. The biological properties of these conjugates were evaluated in a model cell line, human HEp2, and in neuroblastoma SK-N-DZ cells, which exhibit moderate expression of retinoic acid receptors and retinoic acid-induced differentiation. The directly linked porphyrin-retinamides were taken up by a greater extent (20-50% more) in SK-N-DZ than in HEp2 cells. However, the PEG-containing conjugates accumulated maximally within both cell lines and approximately by the same amount, probably due to their increased amphiphilicity. Among all conjugates, the porphyrin-PEG-13-cis-retinamide accumulated the most in both cell lines (about 5 times more than the non-pegylated conjugates). None of the porphyrin-retinamide conjugates were toxic toward HEp2 cells at concentrations up to 100 microM, and only the hydrophobic non-pegylated conjugates were moderately toxic to SK-N-DZ cells [IC50 (dark) = 56-92 microM, and IC50 (at 1 J/cm2) = 6-8 microM]. All conjugates preferentially localized within cellular vesicles that correlated well to the lysosomes and, in addition, the PEG-containing porphyrin-retinamides were also found in the ER.

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Vicente Mg

Synthesis and Spectroelectrochemistry of N-Cobaltacarborane Porphyrin Conjugates

Synthesis and Characterization of Functionalized meso-Triaryltetrabenzocorroles

Porphyrin−Retinamides: Synthesis and Cellular Studies

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