Jia-Ling Ko scite author profile

Out of site: A protein expression system was combined with CuI‐catalyzed 1,2,3‐triazole formation to modify a target protein at its C terminus. The immobilized core protein can be modified by diverse small molecules in a site‐specific manner (see picture). Protein conjugation with a diazido linker gives a homodimeric protein, and microarrays can be fabricated by site‐specific covalent binding to functionalized surfaces.

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Oxidation and Oxygenation of Iron Complexes of 2-Aza-21-carbaporphyrin

Rachlewicz

Wang

et al. 2004

J. Am. Chem. Soc.

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Oxidation and oxygenation of (HCTPPH)Fe(II)Br an iron(II) complex of 2-aza-5,10,15,20-tetraphenyl-21-carbaporphyrin (CTPPH)H2 have been followed by 1H and 2H NMR spectroscopy. Addition of I2 or Br2 to the solution of (HCTPPH)Fe(II)Br in the absence of dioxygen results in one-electron oxidation yielding [(HCTPPH)Fe(III)Br]+. One electron oxidation with dioxygen, accompanied by deprotonation of a C(21)H fragment and formation of an Fe-C(21) bond, produces an intermediate-spin, five-coordinate iron(III) complex (HCTPP)Fe(III)Br. In the subsequent step an insertion of the oxygen atom into the preformed Fe(III)-C(21) bond has been detected to produce [(CTPPO)Fe(III)Br]-. Protonation at the N2 atom affords (HCTPPO)Fe(III)Br. The considered mechanism of (HCTPPH)Fe(II)Br oxygenation involves the insertion of dioxygen into the Fe-C bond. The 1H NMR and 2H NMR spectra of paramagnetic iron(III) complexes were examined. Functional group assignments have been made with use of selective deuteration. The characteristic patterns of pyrrole and 2-NH resonances have been found diagnostic of the ground electronic state of iron and the donor nature localized at C(21) center as exemplified by the 1H NMR spectrum of intermediate-spin (HCTPP)Fe(III)Br: beta-H 7.2, -10.6, -19.2, -20.6, -23.2, -24.9, -43.2; 2-NH -76.6 (ppm, 298 K). The structures of two compounds (HCTPP)Fe(III)Br and (HCTPPO)Fe(III)Br, were determined by X-ray diffraction studies. In the first case, the iron(III) is five-coordinate with bonds to three pyrrole nitrogen atoms (Fe-N distances: 1.985(8), 2.045(7), 2.023(8) A), and the pyrrolic trigonal carbon (Fe-C: 1.981(8) A). The iron(III) of (HCTPPO)Fe(III)Br forms bonds to three pyrrole nitrogen atoms (Fe-N distances 2.104(5), 2.046(5), 2.102(5) A). The Fe-O 2.041(5) A and Fe-C(21) 2.192(5) A distances suggests a direct interaction between the iron center and the pi electron density on the carbonyl group in a eta2 fashion.

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Site‐Specific Protein Modification through Cu^I‐Catalyzed 1,2,3‐Triazole Formation and Its Implementation in Protein Microarray Fabrication

et al. 2006

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Gezielt ligiert: Ein Proteinexpressionssystem wurde mit der CuI‐katalysierten Bildung von 1,2,3‐Triazolen kombiniert, um ein Protein an seinem C‐Terminus zu modifizieren. Das immobilisierte Stammprotein lässt sich mit kleinen Molekülen ortsspezifisch ligieren (siehe Bild), wobei die Ligation mit einem Diazido‐Linker zu homodimeren Proteinkonjugaten führt. Durch spezifische kovalente Anbindung an funktionalisierte Oberflächen können außerdem Mikroarrays erzeugt werden.

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Jia-Ling Ko

Site‐Specific Protein Modification through Cu^I‐Catalyzed 1,2,3‐Triazole Formation and Its Implementation in Protein Microarray Fabrication

Oxidation and Oxygenation of Iron Complexes of 2-Aza-21-carbaporphyrin

Site‐Specific Protein Modification through Cu^I‐Catalyzed 1,2,3‐Triazole Formation and Its Implementation in Protein Microarray Fabrication

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Jia-Ling Ko

Site‐Specific Protein Modification through CuI‐Catalyzed 1,2,3‐Triazole Formation and Its Implementation in Protein Microarray Fabrication

Oxidation and Oxygenation of Iron Complexes of 2-Aza-21-carbaporphyrin

Site‐Specific Protein Modification through CuI‐Catalyzed 1,2,3‐Triazole Formation and Its Implementation in Protein Microarray Fabrication

Contact Info

Product

Resources

About

Site‐Specific Protein Modification through Cu^I‐Catalyzed 1,2,3‐Triazole Formation and Its Implementation in Protein Microarray Fabrication

Site‐Specific Protein Modification through Cu^I‐Catalyzed 1,2,3‐Triazole Formation and Its Implementation in Protein Microarray Fabrication