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Literature DB >> 29260461

A role of heme side-chains of human hemoglobin in its function revealed by circular dichroism and resonance Raman spectroscopy.

Masako Nagai^1,2, Naoki Mizusawa³, Teizo Kitagawa⁴, Shigenori Nagatomo⁵.

Abstract

Structural changes of heme side-chains of human adult hemoglobin (Hb A) upon ligand (O2 or CO) dissociation have been studied by circular dichroism (CD) and resonance Raman (RR) spectroscopies. We point out the occurrence of appreciable deformation of heme side-chains like vinyl and propionate groups prior to the out-of-plane displacement of heme iron. Referring to the recent fine resolved crystal structure of Hb A, the deformations of heme side-chains take place only in the β subunits. However, these changes are not observed in the isolated β chain (β4 homotetramer) and, therefore, are associated with the α-β inter-subunit interactions. For the communications between α and β subunits in Hb A regarding signals of ligand dissociation, possible routes are proposed on the basis of the time-resolved absorption, CD, MCD (magnetic CD), and RR spectroscopies. Our finding of the movements of heme side-chains would serve as one of the clues to solve the cooperative O2 binding mechanism of Hb A.

Entities: Chemical Disease Gene Species

Keywords: Circular dichroism; Cooperative oxygen binding; Deformations of heme side-chains; Human hemoglobin; Resonance Raman; Subunits interactions

Year: 2017 PMID： 29260461 PMCID： PMC5899723 DOI： 10.1007/s12551-017-0364-5

Source DB: PubMed Journal: Biophys Rev ISSN： 1867-2450

58 in total

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Authors: Masako Nagai; Shigenori Nagatomo; Yukifumi Nagai; Kenichi Ohkubo; Kiyohiro Imai; Teizo Kitagawa
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7 in total

1. Foreword to 'Multiscale structural biology: biophysical principles and mechanisms underlying the action of bio-nanomachines', a special issue in Honour of Fumio Arisaka's 70th birthday.

Authors: Damien Hall; Junichi Takagi; Haruki Nakamura
Journal: Biophys Rev Date: 2018-03-02

2. Semi-Rationally Designed Short Peptides Self-Assemble and Bind Hemin to Promote Cyclopropanation.

Authors: Oleksii Zozulia; Ivan V Korendovych
Journal: Angew Chem Int Ed Engl Date: 2020-03-17 Impact factor: 15.336

Review 3. Structural origin of cooperativity in human hemoglobin: a view from different roles of α and β subunits in the α₂β₂ tetramer.

Authors: Shigenori Nagatomo; Masako Nagai; Teizo Kitagawa
Journal: Biophys Rev Date: 2022-04-18

4. The pigment binding behaviour of water-soluble chlorophyll protein (WSCP).

Authors: Philipp Girr; Jessica Kilper; Anne-Christin Pohland; Harald Paulsen
Journal: Photochem Photobiol Sci Date: 2020-05-20 Impact factor: 3.982

5. Roles of Fe-Histidine bonds in stability of hemoglobin: Recognition of protein flexibility by Q Sepharose.

Authors: Shigenori Nagatomo; Teizo Kitagawa; Masako Nagai
Journal: Biophys J Date: 2021-06-02 Impact factor: 3.699

6. Examination of abiotic cofactor assembly in photosynthetic biomimetics: site-specific stereoselectivity in the conjugation of a ruthenium(II) tris(bipyridine) photosensitizer to a multi-heme protein.

Authors: Nina S Ponomarenko; Oleksandr Kokhan; Phani R Pokkuluri; Karen L Mulfort; David M Tiede
Journal: Photosynth Res Date: 2020-01-10 Impact factor: 3.573

7. The discovery of berberine erythrocyte-hemoglobin self-assembly delivery system: a neglected carrier underlying its pharmacokinetics.

Authors: Qiuxia Yu; Minhua Li; Hanbin Chen; Lieqiang Xu; Juanjuan Cheng; Guoshu Lin; Yuhong Liu; Ziren Su; Xiaobo Yang; Yucui Li; Jiannan Chen; Jianhui Xie
Journal: Drug Deliv Date: 2022-12 Impact factor: 6.419

7 in total

Review 1. Proton nuclear magnetic resonance studies on hemoglobin: cooperative interactions and partially ligated intermediates.

Review 2. Regulation of oxygen affinity of hemoglobin: influence of structure of the globin on the heme iron.

Review 4. Time-resolved optical spectroscopy and structural dynamics following photodissociation of carbonmonoxyhemoglobin.

Review 3. Structural origin of cooperativity in human hemoglobin: a view from different roles of α and β subunits in the α2β2 tetramer.

Review 3. Structural origin of cooperativity in human hemoglobin: a view from different roles of α and β subunits in the α₂β₂ tetramer.