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Literature DB >> 2829847

Semisynthesis of cytochrome c analogues. The effect of modifying the conserved residues 38 and 39.

Abstract

We have used chemical and enzymic protein engineering techniques to create analogues of the semisynthetic two-fragment complex (1-37).(38-104) of mitochondrial cytochrome c. This complex, unlike the natural product of specific tryptic cleavage, (1-38).(39-104), from which it is prepared, quite closely resembles the parent protein in functional characteristics and is thus a suitable substrate for modifications designed to study structure-function relations. We have replaced the invariant Arg-38 and the conserved Lys-39 with a range of alternative amino acids and have studied the effects on the principal functional parameters. The hydrogen-bonding capacity of Arg-38 is crucial to the stabilization of the bottom omega-loop, while the positive charge of Lys-39 helps maintain the high redox potential by electrostatic effects at the haem iron.

Entities: Chemical Gene

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Year: 1987 PMID： 2829847 PMCID： PMC1148645 DOI： 10.1042/bj2480965

Source DB: PubMed Journal: Biochem J ISSN： 0264-6021 Impact factor: 3.857

10 in total

1. The crystal structure of bonito (katsuo) ferrocytochrome c at 2.3 A resolution. II. Structure and function.

Authors: N Tanaka; T Yamane; T Tsukihara; T Ashida; M Kakudo
Journal: J Biochem Date: 1975-01-01 Impact factor: 3.387

2. Protein engineering of cytochrome c by semisynthesis: substitutions at glutamic acid 66.

Authors: C J Wallace; B E Corthésy
Journal: Protein Eng Date: 1986 Oct-Nov

3. Cytochrome c chimerae from natural and synthetic fragments: significance of the biological properties.

Authors: C J Wallace; G Corradin; F Marchiori; G Borin
Journal: Biopolymers Date: 1986-11 Impact factor: 2.505

4. On the relationship between oxidation-reduction potential and biological activity in cytochrome c analogues. Results from four novel two-fragment complexes.

Authors: C J Wallace; A E Proudfoot
Journal: Biochem J Date: 1987-08-01 Impact factor: 3.857

5. A new non-covalent complex of semisynthetically modified tryptic fragments of cytochrome c.

Authors: A E Proudfoot; C J Wallace; D E Harris; R E Offord
Journal: Biochem J Date: 1986-10-15 Impact factor: 3.857

6. Conformation change of cytochrome c. II. Ferricytochrome c refinement at 1.8 A and comparison with the ferrocytochrome structure.

Authors: T Takano; R E Dickerson
Journal: J Mol Biol Date: 1981-11-25 Impact factor: 5.469

3 in total

1. The molecular structure of an unusual cytochrome c2 determined at 2.0 A; the cytochrome cH from Methylobacterium extorquens.

Authors: J Read; R Gill; S L Dales; J B Cooper; S P Wood; C Anthony
Journal: Protein Sci Date: 1999-06 Impact factor: 6.725

2. Mössbauer spectra of the heme peptide (HP) 1-50 and the heme peptide:non-heme peptide (NHP) non-covalent complex 1-50:51-104 derived from cytochrome c: evidence for cytochrome c iron site solvation in aqueous solution.

Authors: P A Adams; R C Milton; J Silver
Journal: Biometals Date: 1994-07 Impact factor: 2.949

3. The oxidation-state-dependent ATP-binding site of cytochrome c. Implication of an essential arginine residue and the effect of occupancy on the oxidation-reduction potential.

Authors: B E Corthésy; C J Wallace
Journal: Biochem J Date: 1988-06-01 Impact factor: 3.857