A Membrane Protein Model: Polypeptides with Four <i>α</i>-Helix Bundle Structure on 5,10,15,20-Tetrakis[2-(carboxymethoxy)phenyl]porphyrin

Arai, T.; Kobata, Keisuke; Mihara, Hisakazu; Fujimoto, Tsutomu; Nishino, Norikazu

doi:10.1246/bcsj.68.1989

Cited by 25 publications

(10 citation statements)

References 17 publications

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“…The amino acids near the porphyrins tune their enzymatic and photochemical reactivities, therefore, many groups have studied the conjugates of the porphyrins and the synthetic polypeptides . The representative motif of the conjugates is a four α-helix bundle structure of the polypeptides built on one face of the porphyrin . α-Helical polypeptides have been utilized to build porphyrin−polypeptide conjugates because of their defined structures and their synthetic developments .…”

Section: Introductionmentioning

confidence: 99%

Self-Assembling of the Porphyrin-Linked Acyclic Penta- and Heptapeptides in Aqueous Trifluoroethanol

et al. 2003

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The conjugates of porphyrin with links to the acyclic penta- and heptapeptides were synthesized to mimic natural multiple porphyrin systems. The linear penta- and heptapeptide with hydrophilic/hydrophobic alternative sequences took a random structure in aqueous trifluoroethanol (TFE). However, these polypeptides took a beta-sheet structure in the same solvent when the N-terminal Cys linked to the porphyrin, suggesting that the conjugates self-assembled via the intermolecular hydrophobic interaction between the porphyrins. The circular dichroism (CD) spectra, UV/vis spectra, size exclusion chromatography (SEC), and (1)H NMR spectroscopy supported the self-assembling. In the self-assembled structure of the pentapeptide linking porphyrin at the p-phenyl position (9), the porphyrins were involved in two porphyrin-porphyrin interactions, i.e., the side-by-side interaction between the neighboring polypeptide chains and the face-to-face interaction between the first and the third peptide chains. The CD spectra of 9 showed two sets of Cotton effects probably arising from these two interactions. The UV/vis spectra also supported the above interpretation, showing multiple absorptions in the longwave and shortwave shifted regions. The SEC analyses showed the assembled structure of the conjugates. The (1)H NMR signals of the porphyrin rings of 9 were hardly observed in D(2)O-CD(3)OD because of the shortened spin-spin relaxation time T(2)().

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Section: Introductionmentioning

confidence: 99%

Self-Assembling of the Porphyrin-Linked Acyclic Penta- and Heptapeptides in Aqueous Trifluoroethanol

et al. 2003

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“…Extensive research efforts are directed to the de novo synthesis of proteins that provide a methodology of wide variability in biomimetic chemistry. , In particular, the approach to prepare synthetic proteins by antiparallel α-helix elements on a cyclic peptide provides an efficient strategy for the synthesis of predetermined structures . This method was successfully applied in tailoring a synthetic cytochrome b analogue by the assembly of four antiparallel helices containing two heme binding sites in the hydrophobic interior .…”

Section: Introductionmentioning

confidence: 99%

Integration of a Reconstituted de Novo Synthesized Hemoprotein and Native Metalloproteins with Electrode Supports for Bioelectronic and Bioelectrocatalytic Applications

et al. 1999

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A four-helix bundle de novo synthesized protein is assembled as a monolayer onto a Au electrode. Two of the helices include each two histidine units. This allows the reconstitution of the de novo protein with two Fe(III)-protoporphyrin IX units. Electrochemical characterization of the bis-heme-functionalized de novo protein, surface coverage 2.5 × 10 -11 mol‚cm -2 , reveals that the heme site close to the electrode surface exhibits a redox potential, E°) -0.43 V (vs SCE), whereas the heme center in the remote position with respect to the electrode exhibits a more positive potential, E°) -0.36 V (vs SCE). This enabled the use of the de novo protein as a rectifier element in which rapid vectorial electron transfer occurs. The bis-hemefunctionalized de novo protein assembled onto the electrode forms an affinity complex with the cytochrome b 1 -dependent nitrate reductase (NR, E.C. 1.9.6.1). The affinity complex was cross-linked with glutaric dialdehyde to yield an integrated, electrically contacted, enzyme electrode for the effective bioelectrocatalyzed reduction of NO 3 -, current yield 80%. Similarly, the bis-heme-reconstituted de novo protein assembly forms an affinity complex with Co(II)-protoporphyrin-reconstituted myoglobin, Co(II)-Mb. Cross-linking of the affinity complex between the de novo synthesized hemoprotein and Co(II)-Mb with glutaric dialdehyde results in an integrated bioelectrocatalytic electrode for the electrocatalyzed hydrogenation of acetylene dicarboxylic acid (3) to maleic acid (4), current yield 85%.

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“…Ferrocene-bridged trisporphyrin (14) self-assembles in solution to form macrocycles (15) ranging from dimers to decamers due to the coordination of the imidazolyl substituents with the Zn-centre of the adjacent porphyrin core (Fig. 7a) [88].…”

Section: Discrete Multi-porphyrin Assembliesmentioning

confidence: 99%

“…These distinctively multifunctional biomolecules are generally present as metallocomplexes where the four nitrogen atoms are coordinated to a metal atom such as Fe(III) or Mg(II). It is the combination of a rigid planar aromatic organic ligand and the redox properties of the metal which allows the natural tetrapyrrolic macrocycles to play a central role in electron transfer, oxygen transfer, and light-harvesting processes in metalloproteins [14][15][16][17][18]. Indeed, utilising such molecules to mimic biological events in nanotechnological devices would be of obvious benefit, however, due to the presence of two or more saturated carbon atoms in the macrocyclic scaffold, chlorins are not easily reproduced synthetically.…”

Section: Introductionmentioning

confidence: 99%

“…(a) Preparation scheme of a series of supramolecular macrocycles (15) using trimeric porphyrin precursor(14) via the coordination interaction through imidazolyl moieties and the Zn(II) metal centre of an adjacent porphyrin core. Covalent linking was performed by a ring-closing metathesis catalysed by a Grubbs-like catalyst of the allyl substituents at meso-positions.…”

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Supramolecular architectures of porphyrins on surfaces: The structural evolution from 1D to 2D to 3D to devices

Mohnani

Bonifazi

2010

Coordination Chemistry Reviews

169

134

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A Membrane Protein Model: Polypeptides with Four α-Helix Bundle Structure on 5,10,15,20-Tetrakis[2-(carboxymethoxy)phenyl]porphyrin

Cited by 25 publications

References 17 publications

Self-Assembling of the Porphyrin-Linked Acyclic Penta- and Heptapeptides in Aqueous Trifluoroethanol

Self-Assembling of the Porphyrin-Linked Acyclic Penta- and Heptapeptides in Aqueous Trifluoroethanol

Integration of a Reconstituted de Novo Synthesized Hemoprotein and Native Metalloproteins with Electrode Supports for Bioelectronic and Bioelectrocatalytic Applications

Supramolecular architectures of porphyrins on surfaces: The structural evolution from 1D to 2D to 3D to devices

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