Literature DB >> 9867433

Structure of a monoclinic crystal from of cyctochrome b1 (Bacterioferritin) from E. coli.

A Dautant1, J B Meyer, J Yariv, G Précigoux, R M Sweet, A J Kalb, F Frolow.   

Abstract

Crystals of E. coli cytochrome b1, alias bacterioferritin, were grown fr om a low ionic strength solution. The resulting monoclniic P21 structure was solved by molecular replacement and refined using noncrystallographi c symmetries applied to the fundamental unit, consisting of two protein subunits and a single haem. From the Patterson self-rotation results it was shown that the asymmetric unit of the monoclinic crystal consists of 12 such dimers and corresponds to a complete, nearly spherical, molecule of bacterioferritin (M4 = 450 kDa) of 432 point-group symmetry. It is thus the most symmetrical cytochrome. As previously determined for the tetragonal form, the haem is located in a special position on a local twofold axis of the dimer. A bimetal centre is also observed within the four-helix bundle of each monomer; a metal-binding site is located on the fourfold axis.

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Year:  1998        PMID: 9867433     DOI: 10.1107/s0907444997006811

Source DB:  PubMed          Journal:  Acta Crystallogr D Biol Crystallogr        ISSN: 0907-4449


  20 in total

1.  Structural and mechanistic studies of a stabilized subunit dimer variant of Escherichia coli bacterioferritin identify residues required for core formation.

Authors:  Steve G Wong; Stacey A L Tom-Yew; Allison Lewin; Nick E Le Brun; Geoffrey R Moore; Michael E P Murphy; A Grant Mauk
Journal:  J Biol Chem       Date:  2009-05-13       Impact factor: 5.157

2.  The binding of haem and zinc in the 1.9 A X-ray structure of Escherichia coli bacterioferritin.

Authors:  Simon C Willies; Michail N Isupov; Elspeth F Garman; Jennifer A Littlechild
Journal:  J Biol Inorg Chem       Date:  2008-10-23       Impact factor: 3.358

3.  The 2.6 A resolution structure of Rhodobacter capsulatus bacterioferritin with metal-free dinuclear site and heme iron in a crystallographic 'special position'.

Authors:  D Cobessi; L S Huang; M Ban; N G Pon; F Daldal; E A Berry
Journal:  Acta Crystallogr D Biol Crystallogr       Date:  2001-12-21

4.  Bacterioferritin from Mycobacterium smegmatis contains zinc in its di-nuclear site.

Authors:  Robert Janowski; Tamar Auerbach-Nevo; Manfred S Weiss
Journal:  Protein Sci       Date:  2008-04-29       Impact factor: 6.725

5.  Cloning, purification and preliminary X-ray crystallographic analysis of a hypothetical protein, MJ0754, from Methanococcus jannaschii DSM 2661.

Authors:  Eun Hye Lee; Ki Hyun Nam; Kwang Yeon Hwang
Journal:  Acta Crystallogr Sect F Struct Biol Cryst Commun       Date:  2009-09-25

6.  Structural, Photophysical, and Photochemical Characterization of Zinc Protoporphyrin IX in a Dimeric Variant of an Iron Storage Protein: Insights into the Mechanism of Photosensitized H2 Generation.

Authors:  Brenda S Benavides; Rajendra Acharya; Emily R Clark; Priyanka Basak; Michael J Maroney; Judith M Nocek; Kirk S Schanze; Donald M Kurtz
Journal:  J Phys Chem B       Date:  2019-07-24       Impact factor: 2.991

7.  Iron oxidation and hydrolysis reactions of a novel ferritin from Listeria innocua.

Authors:  X Yang; E Chiancone; S Stefanini; A Ilari; N D Chasteen
Journal:  Biochem J       Date:  2000-08-01       Impact factor: 3.857

Review 8.  Ferritins, iron uptake and storage from the bacterioferritin viewpoint.

Authors:  Maria Arménia Carrondo
Journal:  EMBO J       Date:  2003-05-01       Impact factor: 11.598

9.  Divergent responses of Atlantic coastal and oceanic Synechococcus to iron limitation.

Authors:  Katherine R M Mackey; Anton F Post; Matthew R McIlvin; Gregory A Cutter; Seth G John; Mak A Saito
Journal:  Proc Natl Acad Sci U S A       Date:  2015-07-27       Impact factor: 11.205

Review 10.  Designing photosystem II: molecular engineering of photo-catalytic proteins.

Authors:  Brendon Conlan
Journal:  Photosynth Res       Date:  2008-09-06       Impact factor: 3.573
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