Florian Rüker scite author profile

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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A conserved neutralizing epitope on gp41 of human immunodeficiency virus type 1

Muster

Steindl

Purtscher

et al. 1993

J Virol

934

321

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Vaccination against human immunodeficiency virus type 1 (HIV-1) requires an immunogen which will elicit a protective immunity against viruses that show a high degree of genetic polymorphism. Therefore, the identification of neutralizing epitopes which are shared by many strains would be useful. In previous studies, we established a human monoclonal antibody (2F5) that neutralizes a variety of laboratory strains and clinical isolates of HIV-1. In the present report, we define the amino acid sequence Glu-Leu-Asp-Lys-Trp-Ala (ELDKWA) on the ectodomain of gp4l as the epitope recognized by this antibody. The sequence was found to be conserved in 72% of otherwise highly variable HIV-1 isolates. Escape mutants were not detected in cells infected with HIV-1 isolates MN and RF in the presence of antibody 2F5. Since sequence variability of neutralizing epitopes is considered to be a major obstacle to HIV-1 vaccine development, the conserved B-cell epitope described here is a promising candidate for inclusion in a vaccine against AIDS.

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The Atomic Structure of Human Methemalbumin at 1.9 Å

Wardell

Wang

et al. 2002

Biochemical and Biophysical Research Communications

319

272

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The Three Recombinant Domains of Human Serum Albumin

Dockal¹,

Carter

Rüker³

1999

Journal of Biological Chemistry

379

184

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In an attempt to systematically dissect the ligand binding properties of human serum albumin (HSA), the gene segments encoding each of its three domains were defined based on their conserved homologous structural motifs and separately cloned into a secretion vector for Pichia pastoris. We were able to establish a generally applicable purification protocol based on Cibacron Blue affinity chromatography, suggesting that each of the three domains carries a binding site specific for this ligand. Proteins were characterized by SDS-polyacrylamide gel electrophoresis, isoelectric focusing, gel filtration, N-terminal sequencing, and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry, as well as near-and far-UV CD. In addition to the affinity chromatography ligand Cibacron Blue, binding properties toward hemin, warfarin, and diazepam, each of which represents a standard ligand for HSA, respectively, were investigated by the measurement of induced circular dichroism. Clear experimental evidence is provided here for the location of the primary hemin binding site to be on domain I of HSA, and for the primary diazepam binding site to be on domain III. Further, secondary binding sites were found for hemin to be located on domains II and III, and for diazepam on domain I. The warfarin binding site was located primarily on domain II, while on domain I, a secondary binding site and/or parts of the primary binding site were found.

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Three‐Dimensional structure of schistosoma japonicum glutathione s‐transferase fused with a six‐amino acid conserved neutralizing epitope of gp41 from hiv

et al. 1994

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The 3-dimensional crystal structure of glutathione S-transferase (GST) of Schistosomajaponicum (Sj) fused with a conserved neutralizing epitope on gp41 (glycoprotein, 41 kDa) of human immunodeficiency virus type 1 (HIV-I) (Muster T et al., 1993, J Virol626642-6647) was determined at 2.5 A resolution. The structure of the 3-3 isozyme rat GST of the p gene class (Ji X, Zhang P, Armstrong RN, Gilliland GL, 1992, Biochemistry 31:10169-10184) was used as a molecular replacement model. The structure consists of a 4-stranded @-sheet and 3 a-helices in domain 1 and 5 a-helices in domain 2. The space group of the Sj GST crystal is P4,2,2, with unit cell dimensions of a = b = 94.7 A, and c = 58.1 A. The crystal has 1 GST monomer per asymmetric unit, and 2 monomers that form an active dimer are related by crystallographic 2-fold symmetry. In the binding site, the ordered structure of reduced glutathione is observed. The gp41 peptide (Glu-Leu-Asp-Lys-Trp-Ala) fused to the C-terminus of Sj GST forms a loop stabilized by symmetry-related GSTs. The Sj GST structure is compared with previously determined GST structures of mammalian gene classes p , a , and a. Conserved amino acid residues among the 4 GSTs that are important for hydrophobic and hydrophilic interactions for dimer association and glutathione binding are discussed.

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Florian Rüker

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

A conserved neutralizing epitope on gp41 of human immunodeficiency virus type 1

The Atomic Structure of Human Methemalbumin at 1.9 Å

The Three Recombinant Domains of Human Serum Albumin

Three‐Dimensional structure of schistosoma japonicum glutathione s‐transferase fused with a six‐amino acid conserved neutralizing epitope of gp41 from hiv

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