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Literature DB >> 23813903

Porous protein crystals as reaction vessels.

Abstract

Porous protein crystals have the potential to provide new porous materials due to their unique chemical environments composed of amino acid residues periodically exposed at the surface of the solvent channels in the crystal lattice. This enables accumulation of external compounds in special arrangements by metal coordination interactions or by chemical modifications. This article presents a review of advances in the recently established field of porous protein crystals.

Entities: Chemical

Keywords: bioinorganic chemistry; biominerals; porous materials; protein assembly; protein structures

Mesh：

Substances：

Year: 2013 PMID： 23813903 DOI： 10.1002/chem.201300250

Source DB: PubMed Journal: Chemistry ISSN： 0947-6539 Impact factor: 5.236

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Cited

6 in total

Porous protein crystals as reaction vessels.

1. Design and structure of two new protein cages illustrate successes and ongoing challenges in protein engineering.

2. Structure of a designed protein cage that self-assembles into a highly porous cube.

3. Fitting Proteins into Metal Organic Frameworks.

4. Domain-swapped cytochrome cb₅₆₂ dimer and its nanocage encapsulating a Zn-SO₄ cluster in the internal cavity.

5. Unusual Structural Features in the Adduct of Dirhodium Tetraacetate with Lysozyme.

6. Chiral expression from molecular to macroscopic level via pH modulation in terbium coordination polymers.

Porous protein crystals as reaction vessels.

1. Design and structure of two new protein cages illustrate successes and ongoing challenges in protein engineering.

2. Structure of a designed protein cage that self-assembles into a highly porous cube.

3. Fitting Proteins into Metal Organic Frameworks.

4. Domain-swapped cytochrome cb562 dimer and its nanocage encapsulating a Zn-SO4 cluster in the internal cavity.

5. Unusual Structural Features in the Adduct of Dirhodium Tetraacetate with Lysozyme.

6. Chiral expression from molecular to macroscopic level via pH modulation in terbium coordination polymers.

4. Domain-swapped cytochrome cb₅₆₂ dimer and its nanocage encapsulating a Zn-SO₄ cluster in the internal cavity.