A Hemoglobin Variant Associated with Neonatal Cyanosis and Anemia | Zendy

Moira Crowley | Zendy; Todd L. Mollan | Zendy; Osheiza Abdulmalik | Zendy; Andrew Butler | Zendy; Emily F. Goodwin | Zendy; Arindam Sarkar | Zendy; Catherine A. Stolle | Zendy; Andrew J. Gow | Zendy; John S. Olson | Zendy; Mitchell J. Weiss | Zendy

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A Hemoglobin Variant Associated with Neonatal Cyanosis and Anemia

Author(s) -

Moira Crowley,

Todd L. Mollan,

Osheiza Abdulmalik,

Andrew Butler,

Emily F. Goodwin,

Arindam Sarkar,

Catherine A. Stolle,

Andrew J. Gow,

John S. Olson,

Mitchell J. Weiss

Publication year - 2011

Publication title -

new england journal of medicine

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 19.889

H-Index - 1030

eISSN - 1533-4406

pISSN - 0028-4793

DOI - 10.1056/nejmoa1013579

Subject(s) - missense mutation , heme , hemoglobin , fetal hemoglobin , globin , mutant , methionine , mutation , medicine , anemia , biochemistry , amino acid , gene , fetus , genetics , biology , pregnancy , enzyme

Globin-gene mutations are a rare but important cause of cyanosis. We identified a missense mutation in the fetal Gγ-globin gene (HBG2) in a father and daughter with transient neonatal cyanosis and anemia. This new mutation modifies the ligand-binding pocket of fetal hemoglobin by means of two mechanisms. First, the relatively large side chain of methionine decreases both the affinity of oxygen for binding to the mutant hemoglobin subunit and the rate at which it does so. Second, the mutant methionine is converted to aspartic acid post-translationally, probably through oxidative mechanisms. The presence of this polar amino acid in the heme pocket is predicted to enhance hemoglobin denaturation, causing anemia.

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