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Centrifugation01:05

Centrifugation

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Centrifugation is a separation technique based on differences in density or size. It is commonly used to separate solids from aqueous interferents. During centrifugation, the sample is placed in centrifugation tubes and spun at high angular velocity, which allows centrifugal force to act differentially on the different densities or masses of the components. After spinning, the supernatant liquid is decanted. Depending on the specific application, either the pellet or the supernatant is retained...
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Analytical ultracentrifugation as a tool for exploring COSAN assemblies.

Hussein Fakhouri1, Caroline Mas2, Aline Le Roy3

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Cobaltabis(dicarbollide) (COSAN) forms micelles with low aggregation numbers. Sedimentation velocity analytical ultracentrifugation (SV-AUC) reveals COSAN induces discrete myoglobin protein assemblies, clarifying its "sticky nano-ion" behavior.

Keywords:
Analytical ultracentrifugationBoron clusterCOSANMetallacarboraneMyoglobinSedimentation velocity

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Area of Science:

  • Supramolecular chemistry
  • Colloid and interface science
  • Biophysical chemistry

Background:

  • Cobaltabis(dicarbollide) (COSAN) anionic boron clusters act as "sticky nano-ions" and self-assemble into micelles.
  • Previous studies using scattering techniques provided average structural parameters but struggled with discrete species resolution.
  • The micelle formation of COSAN and its protein aggregation behavior remain subjects of debate.

Purpose of the Study:

  • To resolve discrete species in COSAN micelle formation and protein aggregation using sedimentation velocity analytical ultracentrifugation (SV-AUC).
  • To clarify the aggregation behavior of COSAN into micelles and the nature of COSAN-induced protein assemblies.
  • To determine the size/shape distribution and aggregation numbers of protein assemblies.

Main Methods:

  • Sedimentation velocity analytical ultracentrifugation (SV-AUC) was employed to resolve discrete species in colloidal systems.
  • SV-AUC was used to confirm the critical micelle concentration (cmc) of COSAN and analyze COSAN micelle aggregation numbers.
  • The method was applied to study myoglobin aggregation induced by COSAN at various COSAN-to-protein ratios.

Main Results:

  • SV-AUC confirmed the COSAN cmc at 16 mM and revealed low aggregation numbers for COSAN micelles (8 in water, 14 in salt).
  • COSAN was shown to induce myoglobin aggregation into discrete oligomeric species, including dimers, tetramers, and higher-order assemblies.
  • COSAN binding to myoglobin was quantified, with specific binding numbers determined for monomeric and dimeric forms at low ratios.

Conclusions:

  • SV-AUC provides clarity on the discrete nature of COSAN micelle aggregation and COSAN-mediated protein assembly.
  • COSAN micelles exhibit low aggregation numbers, supporting recent hypotheses about their structure.
  • This study highlights the complementary role of SV-AUC in understanding supramolecular assemblies and nano-ion interactions with biomacromolecules.