Daniel C. Carter scite author profile

The three-dimensional structure of human serum albumin has been determined crystallographically to a resolution of 2.8 A. It comprises three homologous domains that assemble to form a heart-shaped molecule. Each domain is a product of two subdomains that possess common structural motifs. The principal regions of ligand binding to human serum albumin are located in hydrophobic cavities in subdomains IIA and IIIA, which exhibit similar chemistry. The structure explains numerous physical phenomena and should provide insight into future pharmacokinetic and genetically engineered therapeutic applications of serum albumin.

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Structure of Serum Albumin

Carter

1994

3,022

2,341

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Conformational Transitions of the Three Recombinant Domains of Human Serum Albumin Depending on pH

Dockal¹,

Carter²,

Rüker³

2000

Journal of Biological Chemistry

431

323

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Human serum albumin (HSA) is a protein of 66.5 kDa that is composed of three homologous domains, each of which displays specific structural and functional characteristics. HSA is known to undergo different pH-dependent structural transitions, the N-F and F-E transitions in the acid pH region and the N-B transition at slightly alkaline pH. In order to elucidate the structural behavior of the recombinant HSA domains as standalone proteins and to investigate the molecular and structural origins of the pH-induced conformational changes of the intact molecule, we have employed fluorescence and circular dichroic methods. Here we provide evidence that the loosening of the HSA structure in the N-F transition takes place primarily in HSA-DOM III and that HSA-DOM I undergoes a structural rearrangement with only minor changes in secondary structure, whereas HSA-DOM II transforms to a molten globulelike state as the pH is reduced. In the pH region of the N-B transition of HSA, HSA-DOM I and HSA-DOM II experience a tertiary structural isomerization, whereas with HSA-DOM III no alterations in tertiary structure are observed, as judged from near-UV CD and fluorescence measurements.

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The Atomic Structure of Human Methemalbumin at 1.9 Å

Wardell

Wang

et al. 2002

Biochemical and Biophysical Research Communications

322

272

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Daniel C. Carter

Atomic structure and chemistry of human serum albumin

Structure of Serum Albumin

Conformational Transitions of the Three Recombinant Domains of Human Serum Albumin Depending on pH

The Atomic Structure of Human Methemalbumin at 1.9 Å

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