1j3y

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==Overview==
==Overview==
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Human Hb, an alpha2beta2 tetrameric oxygen transport protein that switches, from a T (tense) to an R (relaxed) quaternary structure during, oxygenation, has long served as a model for studying protein allostery in, general. Time-resolved spectroscopic measurements after photodissociation, of CO-liganded Hb have played a central role in exploring both protein, dynamical responses and molecular cooperativity, but the direct, visualization and the structural consequences of photodeligation have not, yet been reported. Here we present an x-ray study of structural changes, induced by photodissociation of half-liganded T-state and fully liganded, R-state human Hb at cryogenic temperatures (25-35 K). On photodissociation, of CO, structural changes involving the heme and the F-helix are more, marked in the alpha subunit than in the beta subunit, and more subtle in, the R state than in the T state. Photodeligation causes a significant, sliding motion of the T-state beta heme. Our results establish that the, structural basis of the low affinity of the T state is radically different, between the subunits, because of differences in the packing and chemical, tension at the hemes.
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Human Hb, an alpha2beta2 tetrameric oxygen transport protein that switches from a T (tense) to an R (relaxed) quaternary structure during oxygenation, has long served as a model for studying protein allostery in general. Time-resolved spectroscopic measurements after photodissociation of CO-liganded Hb have played a central role in exploring both protein dynamical responses and molecular cooperativity, but the direct visualization and the structural consequences of photodeligation have not yet been reported. Here we present an x-ray study of structural changes induced by photodissociation of half-liganded T-state and fully liganded R-state human Hb at cryogenic temperatures (25-35 K). On photodissociation of CO, structural changes involving the heme and the F-helix are more marked in the alpha subunit than in the beta subunit, and more subtle in the R state than in the T state. Photodeligation causes a significant sliding motion of the T-state beta heme. Our results establish that the structural basis of the low affinity of the T state is radically different between the subunits, because of differences in the packing and chemical tension at the hemes.
==Disease==
==Disease==
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[[Category: Protein complex]]
[[Category: Protein complex]]
[[Category: Adachi, S.]]
[[Category: Adachi, S.]]
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[[Category: Park, S.Y.]]
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[[Category: Park, S Y.]]
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[[Category: RSGI, RIKEN.Structural.Genomics/Proteomics.Initiative.]]
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[[Category: RSGI, RIKEN Structural Genomics/Proteomics Initiative.]]
[[Category: Shibayama, N.]]
[[Category: Shibayama, N.]]
[[Category: Shiro, Y.]]
[[Category: Shiro, Y.]]
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[[Category: Tame, J.R.H.]]
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[[Category: Tame, J R.H.]]
[[Category: 2FU]]
[[Category: 2FU]]
[[Category: CMO]]
[[Category: CMO]]
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[[Category: tertiary structure changes]]
[[Category: tertiary structure changes]]
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Fri Feb 15 16:05:04 2008''
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 13:18:48 2008''

Revision as of 11:18, 21 February 2008

Image:1j3y.jpg

1j3y, resolution 1.55Å

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Direct observation of photolysis-induced tertiary structural changes in human hemoglobin; Crystal structure of alpha(Fe)-beta(Ni) hemoglobin (laser photolysed)

Contents

Overview

Human Hb, an alpha2beta2 tetrameric oxygen transport protein that switches from a T (tense) to an R (relaxed) quaternary structure during oxygenation, has long served as a model for studying protein allostery in general. Time-resolved spectroscopic measurements after photodissociation of CO-liganded Hb have played a central role in exploring both protein dynamical responses and molecular cooperativity, but the direct visualization and the structural consequences of photodeligation have not yet been reported. Here we present an x-ray study of structural changes induced by photodissociation of half-liganded T-state and fully liganded R-state human Hb at cryogenic temperatures (25-35 K). On photodissociation of CO, structural changes involving the heme and the F-helix are more marked in the alpha subunit than in the beta subunit, and more subtle in the R state than in the T state. Photodeligation causes a significant sliding motion of the T-state beta heme. Our results establish that the structural basis of the low affinity of the T state is radically different between the subunits, because of differences in the packing and chemical tension at the hemes.

Disease

Known diseases associated with this structure: Erythremias, alpha- OMIM:[141800], Erythremias, beta- OMIM:[141900], Erythrocytosis OMIM:[141850], HPFH, deletion type OMIM:[141900], Heinz body anemia OMIM:[141850], Heinz body anemias, alpha- OMIM:[141800], Heinz body anemias, beta- OMIM:[141900], Hemoglobin H disease OMIM:[141850], Hypochromic microcytic anemia OMIM:[141850], Methemoglobinemias, alpha- OMIM:[141800], Methemoglobinemias, beta- OMIM:[141900], Sickle cell anemia OMIM:[141900], Thalassemia, alpha- OMIM:[141850], Thalassemia-beta, dominant inclusion-body OMIM:[141900], Thalassemias, alpha- OMIM:[141800], Thalassemias, beta- OMIM:[141900]

About this Structure

1J3Y is a Protein complex structure of sequences from Homo sapiens with , , and as ligands. Full crystallographic information is available from OCA.

Reference

Direct observation of photolysis-induced tertiary structural changes in hemoglobin., Adachi S, Park SY, Tame JR, Shiro Y, Shibayama N, Proc Natl Acad Sci U S A. 2003 Jun 10;100(12):7039-44. Epub 2003 May 28. PMID:12773618

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