PDBsum entry 2g0v

Transport protein

PDB id

2g0v

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Contents

			Protein chain

					154 a.a. *

			Ligands

					SO4


					HEM-CMO

			Waters ×147

* Residue conservation analysis

PDB id:

2g0v

Links

Name:

Transport protein

Title:

Photolyzed co l29f myoglobin: 100ps

Structure:

Myoglobin. Chain: a. Engineered: yes. Mutation: yes

Source:

Physeter catodon. Sperm whale. Organism_taxid: 9755. Gene: mb. Expressed in: escherichia coli. Expression_system_taxid: 562

Resolution:

1.95Å

R-factor:

0.051

R-free:

0.054

Ensemble:

2 models

Authors:

R.Aranda,E.J.Levin,F.Schotte,P.A.Anfinrud,G.N.Phillips Jr.

Key ref:

R.Aranda et al. (2006). Time-dependent atomic coordinates for the dissociation of carbon monoxide from myoglobin. Acta Crystallogr D Biol Crystallogr, 62, 776-783. PubMed id: 16790933 DOI: 10.1107/S0907444906017318

Date:

13-Feb-06

Release date:

04-Jul-06

PROCHECK

	Headers

	References

Protein chain

P02185 (MYG_PHYMC) - Myoglobin from Physeter macrocephalus

Seq: Struc:					154 a.a. 154 a.a.*

Key:

PfamA domain

Secondary structure

CATH domain

* PDB and UniProt seqs differ at 2 residue positions (black crosses)

DOI no: 10.1107/S0907444906017318	Acta Crystallogr D Biol Crystallogr 62:776-783 (2006)
PubMed id: 16790933

Time-dependent atomic coordinates for the dissociation of carbon monoxide from myoglobin.
R.Aranda, E.J.Levin, F.Schotte, P.A.Anfinrud, G.N.Phillips.

ABSTRACT

Picosecond time-resolved crystallography was used to follow the dissociation of carbon monoxide from the heme pocket of a mutant sperm whale myoglobin and the resultant conformational changes. Electron-density maps have previously been created at various time points and used to describe amino-acid side-chain and carbon monoxide movements. In this work, difference refinement was employed to generate atomic coordinates at each time point in order to create a more explicit quantitative representation of the photo-dissociation process. After photolysis the carbon monoxide moves to a docking site, causing rearrangements in the heme-pocket residues, the coordinate changes of which can be plotted as a function of time. These include rotations of the heme-pocket phenylalanine concomitant with movement of the distal histidine toward the solvent, potentially allowing carbon monoxide movement in and out of the protein and proximal displacement of the heme iron. The degree of relaxation toward the intermediate and deoxy states was probed by analysis of the coordinate movements in the time-resolved models, revealing a non-linear progression toward the unbound state with coordinate movements that begin in the heme-pocket area and then propagate throughout the rest of the protein.

Selected figure(s)



	Figure 2. Figure 2 -Carbon difference distance matrices comparing the CO-bound `laser off' and 3.16 �s time-point models with deoxy-Mb. -Carbon difference distance matrices were made by comparing the CO-bound `laser off' and 3.16 �s model C^ atoms to deoxy-Mb C^ atoms (PDB code [207]1moa ). The gray boxes correspond to the eight Mb helices and values are -1 � (brightest red) to 0 � (white) to +1 � (brightest blue). (a) is the C^ [208][alpha] difference distance matrix of (deoxy-Mb) - (CO-bound `laser off' Mb). (b) is the C^ [209][alpha] difference distance matrix of (deoxy-Mb) - (3.16 �s Mb).		Figure 4. Figure 4 Electron-density maps of the various CO cavities. Electron-density maps were made by removing residues affected by CO photolysis and/or CO from the model and then calculating the [A]-weighted F[o] - F[c] maps. The labelled photolyzed residues and/or CO were reinserted to show that their placements fit with the F[o] - F[c] density at 3 . The CO-bound `laser off' model is represented by the purple coordinates, the photolyzed time points are represented by the green coordinates and the photolyzed CO in blue. Positive density in the F[o] - F[c] map is displayed in red and negative density is displayed in black at 3 . (a) shows the 100 ps F[o] - F[c] map with Phe29 and His64 from the photolyzed model and the primary docking site CO deleted. (b) shows the 316 ps F[o] - F[c] map with only the photolyzed COs removed and (c) shows the 316 ns F[o] - F[c] map with the CO removed from the proximal Xe1 site.

Figures were selected by an automated process.

Literature references that cite this PDB file's key reference

PubMed id

Reference

21210070

J.B.Benedict, A.Makal, J.D.Sokolow, E.Trzop, S.Scheins, R.Henning, T.Graber, and P.Coppens (2011).
Time-resolved Laue diffraction of excited species at atomic resolution: 100 ps single-pulse diffraction of the excited state of the organometallic complex Rh2(μ-PNP)2(PNP)2·BPh4.

Chem Commun (Camb), 47, 1704-1706.

20733999

K.H.Kim, K.Y.Oang, J.Kim, J.H.Lee, Y.Kim, and H.Ihee (2011).
Direct observation of myoglobin structural dynamics from 100 picoseconds to 1 microsecond with picosecond X-ray solution scattering.

Chem Commun (Camb), 47, 289-291.

21287618

M.Anselmi, A.Di Nola, and A.Amadei (2011).
The effects of the L29F mutation on the ligand migration kinetics in crystallized myoglobin as revealed by molecular dynamics simulations.

Proteins, 79, 867-879.

20164644

S.Westenhoff, E.Nazarenko, E.Malmerberg, J.Davidsson, G.Katona, and R.Neutze (2010).
Time-resolved structural studies of protein reaction dynamics: a smorgasbord of X-ray approaches.

Acta Crystallogr A, 66, 207-219.

18831041

R.Aranda, H.Cai, C.E.Worley, E.J.Levin, R.Li, J.S.Olson, G.N.Phillips, and M.P.Richards (2009).
Structural analysis of fish versus mammalian hemoglobins: effect of the heme pocket environment on autooxidation and hemin loss.

Proteins, 75, 217-230.

PDB codes:

2qsp 2qss 2r1h 3bj1 3bj2 3bj3

17680690

D.A.Kondrashov, W.Zhang, R.Aranda, B.Stec, and G.N.Phillips (2008).
Sampling of the native conformational ensemble of myoglobin via structures in different crystalline environments.

Proteins, 70, 353-362.

PDB codes:

1jw8 1u7r 1u7s

18840607

M.D.Salter, K.Nienhaus, G.U.Nienhaus, S.Dewilde, L.Moens, A.Pesce, M.Nardini, M.Bolognesi, and J.S.Olson (2008).
The Apolar Channel in Cerebratulus lacteus Hemoglobin Is the Route for O2 Entry and Exit.

J Biol Chem, 283, 35689-35702.

PDB codes:

2vyy 2vyz

17517618

A.Sato, Y.Gao, T.Kitagawa, and Y.Mizutani (2007).
Primary protein response after ligand photodissociation in carbonmonoxy myoglobin.

Proc Natl Acad Sci U S A, 104, 9627-9632.

17570619

U.Samuni, D.Dantsker, C.J.Roche, and J.M.Friedman (2007).
Ligand recombination and a hierarchy of solvent slaved dynamics: the origin of kinetic phases in hemeproteins.

Gene, 398, 234-248.

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.