Nídia Estrela scite author profile

Amyloid fibers, implicated in a wide range of diseases, are formed when proteins misfold and stick together in long rope-like structures. As a natural mechanism, osmolytes can be used to modulate protein aggregation pathways with no interference with other cellular functions. The osmolyte sucrose delays fibrillation of the ribosomal protein S6 leading to softer and less shaped-defined fibrils. The molecular mechanism used by sucrose to delay S6 fibrillation was studied based on the two-state unfolding kinetics of the secondary and tertiary structures. It was concluded that the delay in S6 fibrillation results from stabilization and compaction of the slightly expanded tertiary native structure formed under fibrillation conditions. Interestingly, this compaction extends to almost all S6 tertiary structure but hardly affects its secondary structure. The part of the S6 tertiary structure that suffered more compaction by sucrose is known to be the first part to unfold, indicating that the native S6 has entered the unfolding pathway under fibrillation conditions.

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Optimization in the immobilization of penicillin G acylase by entrapment in xerogel particles with magnetic properties

Bernardino

Estrela

Ochoa-Mendes

et al. 2011

J Sol-Gel Sci Technol

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Hormone affinity and fibril formation of piscine transthyretin: The role of the N-terminal

Morgado

Melo

Lundberg

et al. 2008

Molecular and Cellular Endocrinology

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SummaryTransthyretin (TTR) transports thyroid hormones (THs), thyroxine (T 4 ) and triiodothyronine (T 3 ) in the blood of vertebrates. TH-binding sites are highly conserved in vertebrate TTR however, piscine TTR has a longer N-terminus which is thought to influence TH-binding affinity and may influence TTR stability. We produced recombinant wild-type sea bream TTR (sbTTRWT) plus two mutants in which six (sbTTRM6) and twelve (sbTTRM12) N-terminal residues were removed. Ligandbinding studies revealed similar affinities for T 3 (Kd=10.6±1.7nM) and T 4 (Kd=9.8±0.97nM) binding to sbTTRWT. Affinity for THs was unaltered in sbTTRM12 but sbTTRM6 had poorer affinity for T 4 (Kd=252.3±15.8nM) implying that some residues in the N-terminus can influence T 4 binding. sbTTRM6 inhibited acid-mediated fibril formation in vitro as shown by fluorometric measurements using thioflavine-T. In contrast, fibril formation by sbTTRM12 was significant, probably due to decreased stability of the tetramer. Such studies also suggested that sbTTRWT is more resistant to fibril formation than human TTR.

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Nídia Estrela

Compacting Proteins: Pros and Cons of Osmolyte-Induced Folding

Sucrose prevents protein fibrillation through compaction of the tertiary structure but hardly affects the secondary structure

Optimization in the immobilization of penicillin G acylase by entrapment in xerogel particles with magnetic properties

Hormone affinity and fibril formation of piscine transthyretin: The role of the N-terminal

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