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1RQA

Crystallographic Analysis of the Interaction of Nitric Oxide with Quaternary-T Human Hemoglobin. Beta W73E hemoglobin exposed to NO under anaerobic conditions

1RQA の概要
エントリーDOI10.2210/pdb1rqa/pdb
関連するPDBエントリー1RPS 1RQ3 1RQ4
分子名称Hemoglobin alpha chain, Hemoglobin beta chain, PROTOPORPHYRIN IX CONTAINING FE, ... (5 entities in total)
機能のキーワードglobin, oxygen storage-transport complex, oxygen storage/transport
由来する生物種Homo sapiens (human)
詳細
タンパク質・核酸の鎖数4
化学式量合計64617.01
構造登録者
Chan, N.-L.,Kavanaugh, J.S.,Rogers, P.H.,Arnone, A. (登録日: 2003-12-04, 公開日: 2005-01-04, 最終更新日: 2024-04-03)
主引用文献Chan, N.-L.,Kavanaugh, J.S.,Rogers, P.H.,Arnone, A.
Crystallographic analysis of the interaction of nitric oxide with quaternary-T human hemoglobin.
Biochemistry, 43:118-132, 2004
Cited by
PubMed Abstract: In addition to interacting with hemoglobin as a heme ligand to form nitrosylhemoglobin, NO can react with cysteine sulfhydryl groups to form S-nitrosocysteine or cysteine oxides such as cysteinesulfenic acid. Both modes of interaction are very sensitive to the quaternary structure of hemoglobin. To directly view the interaction of NO with quaternary-T deoxyhemoglobin, crystallographic studies were carried out on crystals of deoxyhemoglobin that were exposed to gaseous NO under a variety of conditions. Consistent with previous spectroscopic studies in solution, these crystallographic studies show that the binding of NO to the heme groups of crystalline wild-type deoxyhemoglobin ruptures the Fe-proximal histidine bonds of the alpha-subunits but not the beta-subunits. This finding supports Perutz's theory that ligand binding induces tension in the alpha Fe-proximal histidine bond. To test Perutz's theory, deoxy crystals of the mutant hemoglobin betaW37E were exposed to NO. This experiment was carried out because previous studies have shown that this mutation greatly reduces the quaternary constraints that oppose the ligand-induced movement of the alpha-heme Fe atom into the plane of the porphyrin ring. As hypothesized, the Fe-proximal histidine bonds in both the beta- and the alpha-subunits remain intact in crystalline betaW37E after exposure to NO. With regard to S-nitrosocysteine or cysteine oxide formation, no evidence for the reaction of NO with any cysteine residues was detected under anaerobic conditions. However, when deoxyhemoglobin crystals are first exposed to air and then to NO, the appearance of additional electron density indicates that Cys93(F9)beta has been modified, most likely to cysteinesulfenic acid. This modification of Cys93(F9)beta disrupts the intrasubunit salt bridge between His146(HC3)beta and Asp94(FG1)beta, a key feature of the quaternary-T hemoglobin structure. Also presented is a reanalysis of our previous crystallographic studies [Chan, N.-L., et al. (1998) Biochemistry 37, 16459-16464] of the interaction of NO with liganded hemoglobin in the quaternary-R2 structure. These studies showed additional electron density at Cys93(F9)beta that was consistent with an NO adduct. However, for reasons discussed in this paper, we now believe that this adduct may be the Hb-S-N.-O-H radical intermediate and not Hb-S-N=O as previously suggested.
PubMed: 14705937
DOI: 10.1021/bi0497603
主引用文献が同じPDBエントリー
実験手法
X-RAY DIFFRACTION (2.11 Å)
構造検証レポート
Validation report summary of 1rqa
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件を2024-11-06に公開中

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