Electron transport

PDB id

1hko

Contents

			Protein chain

					104 a.a. *

			Ligands

					HEM

* Residue conservation analysis

PDB id:

1hko

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Name:

Electron transport

Title:

Nmr structure of bovine cytochrome b5

Structure:

Cytochrome b5. Chain: a. Fragment: heme binding domain, residues 1-104. Engineered: yes

Source:

Bos taurus. Bovine. Organism_taxid: 9913. Expressed in: escherichia coli. Expression_system_taxid: 469008.

NMR struc:

42 models

Authors:

F.W.Muskett,D.Whitford

Key ref:

F.W.Muskett et al. (1996). The solution structure of bovine ferricytochrome b5 determined using heteronuclear NMR methods. J Mol Biol, 258, 172-189. PubMed id: 8613986 DOI: 10.1006/jmbi.1996.0241

Date:

10-Mar-03

Release date:

18-Mar-03

Supersedes:

1wdb

PROCHECK

	Headers

	References

Protein chain

P00171 (CYB5_BOVIN) - Cytochrome b5

Seq: Struc:					134 a.a. 104 a.a.

Key:

PfamA domain

Secondary structure

CATH domain



		Gene Ontology (GO) functional annotation

Biochemical function

heme binding

1 term

DOI no: 10.1006/jmbi.1996.0241	J Mol Biol 258:172-189 (1996)
PubMed id: 8613986

The solution structure of bovine ferricytochrome b5 determined using heteronuclear NMR methods.
F.W.Muskett, G.P.Kelly, D.Whitford.

ABSTRACT

The solution structure of a recombinant form of cytochrome b5 containing 104 amino acid residues has been determined using three-dimensional NMR spectroscopy. Using protein enriched in 15N the majority of the polypeptide backbone resonances have been assigned to reveal numerous chemical shift differences to those reported previously for smaller fragments of cytochrome b5. By using 3D NMR methods the extensive spectral overlap of resonance cross-peaks in 2D NMR spectra could be satisfactorily resolved. The large number of sequence-specific assignments made for this form of the protein allowed the identification of over 1130 NOEs, giving an average of 14 NOEs per assigned residue, and 52 dihedral angles (phi). This data was used in an ab initio simulated annealing protocol to determine the solution structure for bovine microsomal cytochrome b5. A series of 50 structures was generated using distance restraints derived from the magnitude of the NOE and torsional angles based on the measured JHN-HA coupling constants. From an initial round of simulated annealing a family of 36 structures was selected on the basis of good covalent geometry and minimal restraint violations. A single cycle of simulated annealing refinement produced 36 converged structures that exhibited an average r.m.s.d. of 0.73 A for the backbone atoms. The determination of the solution structure of cytochrome b5 is the first using NMR methods for any form of this protein. It is also the only cytochrome whose structure has been determined in the oxidised or paramagnetic state. The results show that despite significant line broadening and pseudocontact shifts for resonances lying close to the paramagnetic haem centre, and despite extensive spectral overlap that prevents complete resonance assignment, the topology of the polypeptide backbone can be derived. The conformation for cytochrome b5 determined in this study reveals several small, but significant, differences in structure to that determined previously by crystallography for a smaller fragment of this protein. For example, NMR data do not support a short beta strand as the first element of secondary structure at the N terminus nor is it likely that a beta-bulge structure forms between residues 75 to 79. The data obtained in this study are more consistent with a turn in this region of the protein linking helices 5 and 6 and leads to cytochrome b5 containing only three clearly defined beta strands. Four of the six helices together with the antiparallel beta strands make up a haem binding pocket in which the solvent-accessible area of the protoporphyrin IX centre remains very similar to that found in the crystal structure. The remaining helices and the beta strands form a second structural domain on which the four helix bundle that surrounds the haem is based. THe derivation of the solution structure of cytochrome b5 will allow a greater understanding of the functional properties of cytochrome b5 including its role in biological electron transfer and molecular recognition together with insight into haem protein folding and stability.

Selected figure(s)



	Figure 2. Figure 2. 2D 1 H- 15 N HSQC spectrum of 15 N labelled cytochrome b5 (Ala1 to Ser104 variant). The spectra were acquired at 14.1 T, 301 K, in 20 mM phosphate (pH 7.0) at a protein concentration of 2.4 mM.		Figure 7. Figure 7. Stereo representation of 36 converged structures of ferricyto- chrome b5 . The plots show the poly- peptide backbone of 36 converged structures. A single haem group is shown for clarity in this family of structures. The structural statistics relating to these converged struc- tures are summarised in Table 1 but gave an average r.m.s.d. of 0.73 Å for the polypeptide backbone.

Figures were selected by an automated process.

Literature references that cite this PDB file's key reference

PubMed id

Reference

20532590

M.Nunez, E.Guittet, D.Pompon, C.van Heijenoort, and G.Truan (2010).
NMR structure note: oxidized microsomal human cytochrome b5.

J Biomol NMR, 47, 289-295.

15194706

T.A.Clarke, S.C.Im, A.Bidwai, and L.Waskell (2004).
The role of the length and sequence of the linker domain of cytochrome b5 in stimulating cytochrome P450 2B4 catalysis.

J Biol Chem, 279, 36809-36818.

12435731

D.Leys, C.G.Mowat, K.J.McLean, A.Richmond, S.K.Chapman, M.D.Walkinshaw, and A.W.Munro (2003).
Atomic structure of Mycobacterium tuberculosis CYP121 to 1.06 A reveals novel features of cytochrome P450.

J Biol Chem, 278, 5141-5147.

PDB codes:

1n40 1n4g

12044160

M.Sugishima, H.Sakamoto, Y.Kakuta, Y.Omata, S.Hayashi, M.Noguchi, and K.Fukuyama (2002).
Crystal structure of rat apo-heme oxygenase-1 (HO-1): mechanism of heme binding in HO-1 inferred from structural comparison of the apo and heme complex forms.

Biochemistry, 41, 7293-7300.

PDB code:

1irm

11714912

C.Qian, Y.Yao, K.Ye, J.Wang, W.Tang, Y.Wang, W.Wang, J.Lu, Y.Xie, and Z.Huang (2001).
Effects of charged amino-acid mutation on the solution structure of cytochrome b(5) and binding between cytochrome b(5) and cytochrome c.

Protein Sci, 10, 2451-2459.

PDB code:

1i5u

11248680

Y.Wu, Y.Wang, C.Qian, J.Lu, E.Li, W.Wang, J.Lu, Y.Xie, J.Wang, D.Zhu, Z.Huang, and W.Tang (2001).
Solution structure of cytochrome b(5) mutant (E44/48/56A/D60A) and its interaction with cytochrome c.

Eur J Biochem, 268, 1620-1630.

PDB codes:

1f03 1f04

10852709

F.Arnesano, L.Banci, I.Bertini, D.Koulougliotis, and A.Monti (2000).
Monitoring mobility in the early steps of unfolding: the case of oxidized cytochrome b(5) in the presence of 2 M guanidinium chloride.

Biochemistry, 39, 7117-7130.

10651812

L.Banci, I.Bertini, A.Rosato, and S.Scacchieri (2000).
Solution structure of oxidized microsomal rabbit cytochrome b5. Factors determining the heterogeneous binding of the heme.

Eur J Biochem, 267, 755-766.

PDB code:

1do9

10821667

M.Ihara, S.Takahashi, K.Ishimori, and I.Morishima (2000).
Functions of fluctuation in the heme-binding loops of cytochrome b5 revealed in the process of heme incorporation.

Biochemistry, 39, 5961-5970.

10572010

S.Manyusa, G.Mortuza, and D.Whitford (1999).
Analysis of folding and unfolding reactions of cytochrome b5.

Biochemistry, 38, 14352-14362.

9933618

T.K.Das, H.C.Lee, S.M.Duff, R.D.Hill, J.Peisach, D.L.Rousseau, B.A.Wittenberg, and J.B.Wittenberg (1999).
The heme environment in barley hemoglobin.

J Biol Chem, 274, 4207-4212.

9452426

R.J.Auchus, T.C.Lee, and W.L.Miller (1998).
Cytochrome b5 augments the 17,20-lyase activity of human P450c17 without direct electron transfer.

J Biol Chem, 273, 3158-3165.

9151963

G.P.Kelly, F.W.Muskett, and D.Whitford (1997).
Analysis of backbone dynamics in cytochrome b5 using 15N-NMR relaxation measurements.

Eur J Biochem, 245, 349-354.

9363779

L.Banci, I.Bertini, F.Ferroni, and A.Rosato (1997).
Solution structure of reduced microsomal rat cytochrome b5.

Eur J Biochem, 249, 270-279.

PDB code:

1aqa

9294867

L.Banci, I.Bertini, G.G.Savellini, A.Romagnoli, P.Turano, M.A.Cremonini, C.Luchinat, and H.B.Gray (1997).
Pseudocontact shifts as constraints for energy minimization and molecular dynamics calculations on solution structures of paramagnetic metalloproteins.

Proteins, 29, 68-76.

8885842

P.D.Barker, and S.M.Freund (1996).
Bis-methionine ligation to heme iron in mutants of cytochrome b562. 2. Characterization by NMR of heme-ligand interactions.

Biochemistry, 35, 13627-13635.

The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB codes are shown on the right.