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Novel Mechanisms of pH Sensitivity in Tuna Hemoglobin
The crystal structure of hemoglobin has been known for several decades, yet various features of the molecule remain unexplained or controversial. Several animal hemoglobins have properties that cannot be readily explained in terms of their amino acid sequence and known atomic models of hemoglobin. A...
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| Published in: | The Journal of biological chemistry 2004-07, Vol.279 (27), p.28632-28640 |
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| Main Authors: | , , , , , , , |
| Format: | Article |
| Language: | English |
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| cited_by | cdi_FETCH-LOGICAL-c2190-c585987cc0a99add15b3cd386a11ecbf4d536ae0c36b044d6454c961fefeb57c3 |
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| cites | cdi_FETCH-LOGICAL-c2190-c585987cc0a99add15b3cd386a11ecbf4d536ae0c36b044d6454c961fefeb57c3 |
| container_end_page | 28640 |
| container_issue | 27 |
| container_start_page | 28632 |
| container_title | The Journal of biological chemistry |
| container_volume | 279 |
| creator | Yokoyama, Takeshi Chong, Khoon Tee Miyazaki, Gentaro Morimoto, Hideki Shih, Daniel T.-B. Unzai, Satoru Tame, Jeremy R.H. Park, Sam-Yong |
| description | The crystal structure of hemoglobin has been known for several decades, yet various features of the molecule remain unexplained
or controversial. Several animal hemoglobins have properties that cannot be readily explained in terms of their amino acid
sequence and known atomic models of hemoglobin. Among these, fish hemoglobins are well known for their widely varying interactions
with heterotropic effector molecules and pH sensitivity. Some fish hemoglobins are almost completely insensitive to pH (within
physiological limits), whereas others show extremely low oxygen affinity under acid conditions, a phenomenon called the Root
effect. X-ray crystal structures of Root effect hemoglobins have not, to date, provided convincing explanations of this effect.
Sequence alignments have signally failed to pinpoint the residues involved, and site-directed mutagenesis has not yielded
a human hemoglobin variant with this property. We have solved the crystal structure of tuna hemoglobin in the deoxy form at
low and moderate pH and in the presence of carbon monoxide at high pH. A comparison of these models shows clear evidence for
novel mechanisms of pH-dependent control of ligand affinity. |
| doi_str_mv | 10.1074/jbc.M401740200 |
| format | article |
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or controversial. Several animal hemoglobins have properties that cannot be readily explained in terms of their amino acid
sequence and known atomic models of hemoglobin. Among these, fish hemoglobins are well known for their widely varying interactions
with heterotropic effector molecules and pH sensitivity. Some fish hemoglobins are almost completely insensitive to pH (within
physiological limits), whereas others show extremely low oxygen affinity under acid conditions, a phenomenon called the Root
effect. X-ray crystal structures of Root effect hemoglobins have not, to date, provided convincing explanations of this effect.
Sequence alignments have signally failed to pinpoint the residues involved, and site-directed mutagenesis has not yielded
a human hemoglobin variant with this property. We have solved the crystal structure of tuna hemoglobin in the deoxy form at
low and moderate pH and in the presence of carbon monoxide at high pH. A comparison of these models shows clear evidence for
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or controversial. Several animal hemoglobins have properties that cannot be readily explained in terms of their amino acid
sequence and known atomic models of hemoglobin. Among these, fish hemoglobins are well known for their widely varying interactions
with heterotropic effector molecules and pH sensitivity. Some fish hemoglobins are almost completely insensitive to pH (within
physiological limits), whereas others show extremely low oxygen affinity under acid conditions, a phenomenon called the Root
effect. X-ray crystal structures of Root effect hemoglobins have not, to date, provided convincing explanations of this effect.
Sequence alignments have signally failed to pinpoint the residues involved, and site-directed mutagenesis has not yielded
a human hemoglobin variant with this property. We have solved the crystal structure of tuna hemoglobin in the deoxy form at
low and moderate pH and in the presence of carbon monoxide at high pH. A comparison of these models shows clear evidence for
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or controversial. Several animal hemoglobins have properties that cannot be readily explained in terms of their amino acid
sequence and known atomic models of hemoglobin. Among these, fish hemoglobins are well known for their widely varying interactions
with heterotropic effector molecules and pH sensitivity. Some fish hemoglobins are almost completely insensitive to pH (within
physiological limits), whereas others show extremely low oxygen affinity under acid conditions, a phenomenon called the Root
effect. X-ray crystal structures of Root effect hemoglobins have not, to date, provided convincing explanations of this effect.
Sequence alignments have signally failed to pinpoint the residues involved, and site-directed mutagenesis has not yielded
a human hemoglobin variant with this property. We have solved the crystal structure of tuna hemoglobin in the deoxy form at
low and moderate pH and in the presence of carbon monoxide at high pH. A comparison of these models shows clear evidence for
novel mechanisms of pH-dependent control of ligand affinity.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>15117955</pmid><doi>10.1074/jbc.M401740200</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record> |
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| ispartof | The Journal of biological chemistry, 2004-07, Vol.279 (27), p.28632-28640 |
| issn | 0021-9258 1083-351X |
| language | eng |
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| source | ScienceDirect (Online service) |
| title | Novel Mechanisms of pH Sensitivity in Tuna Hemoglobin |
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