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The role of the Val57 amino‐acid residue in the hinge loop of the human cystatin C. Conformational studies of the beta2‐L1‐beta3 segments of wild‐type human cystatin C and its mutants
Authors:Sylwia Rodziewicz‐Motowidło  Justyna Iwaszkiewicz  Renata Sosnowska  Paulina Czaplewska  Emil Sobolewski  Aneta Szymańska  Krystyna Stachowiak  Adam Liwo
Affiliation:1. Faculty of Chemistry, University of Gdańsk, Sobieskiego 18, 80‐952 Gdańsk, Poland;2. Intercollegiate Faculty of Biotechnology, University of Gdańsk‐Medical University of Gdańsk, K?adki 24, 80‐822 Gdańsk, Poland
Abstract:Human cystatin C (HCC) is one of the amyloidogenic proteins to be shown to oligomerize via a three‐dimensional domain swapping mechanism. This process precedes the formation of a stable dimer and proceeds particularly easily in the case of the L68Q mutant. According to the proposed mechanism, dimerization of the HCC precedes conformational changes within the β2 and β3 strands. In this article, we present conformational studies, using circular dichroism and MD methods, of the β2‐L1‐β3 (His43‐Thr72) fragment of the HCC involved in HCC dimer formation. We also carried out studies of the β2‐L1‐β3 peptide, in which the Val57 residue was replaced by residues promoting β‐turn structure formation (Asp, Asn, or Pro). The present study established that point mutation could modify the structure of the L1 loop in the β‐hairpin peptide. Our results showed that the L1 loop in the peptide excised from human cystatin C is broader than that in cystatin C. In the HCC protein, broadening of the L1 loop together with the unfavorable L68Q mutation in the hydrophobic pocket could be a force sufficient to cause the partial unfolding and then the opening of HCC or its L68Q mutant structure for further dimerization. We presume further that the Asp57 and Asn57 mutations in the L1 loop of HCC could stabilize the closed form of HCC, whereas the Pro57 mutation could lead to the opening of the HCC structure and then to dimer/oligomer formation. © 2009 Wiley Periodicals, Inc. Biopolymers 91: 373–383, 2009. This article was originally published online as an accepted preprint. The “Published Online” date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at biopolymers@wiley.com
Keywords:human cystatin C (HCC)  hinge loop  β  ‐hairpin  circular dichroism (CD)  potential of mean force (PMF)  molecular dynamics (MD)  point mutations
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