A carregar...
PublicaĆ§Ć£o
Protein crystallization in a microfluidic contactor with nafionĀ®117 membranes
| Nome: | DescriĆ§Ć£o: | Tamanho: | Formato: | |
|---|---|---|---|---|
| 4.51 MB | Adobe PDF |
Orientador(es)
Resumo(s)
Protein crystallization still remains mostly an empirical science, as the production of crystals with the required quality for X-ray analysis is dependent on the intensive screening of the best protein crystallization and crystalās derivatization conditions. Herein, this demanding step was addressed by the development of a high-throughput and low-budget microfluidic platform consisting of an ion exchange membrane (117 NafionĀ® membrane) sandwiched between a channel layer (stripping phase compartment) and a wells layer (feed phase compartment) forming 75 independent microcontactors. This microfluidic device allows for a simultaneous and independent screening of multiple protein crystallization and crystal derivatization conditions, using Hen EggWhite Lysozyme (HEWL) as the model protein and Hg2+ as the derivatizing agent. This microdevice offers well-regulated crystallization and subsequent crystal derivatization processes based on the controlled transport of water and ions provided by the 117 NafionĀ® membrane. Diffusion coefficients of water and the derivatizing agent (Hg2+) were evaluated, showing the positive influence of the protein drop volume on the number of crystals and crystal size. This microfluidic system allowed for crystals with good structural stability and high X-ray diffraction quality and, thus, it is regarded as an efficient tool that may contribute to the enhancement of the proteinsā crystals structural resolution.
DescriĆ§Ć£o
UIDB/50006/2020 UIDP/50006/2020 āErasmus Mundus Doctorate in Membrane EngineeringāāEUDIME (FPA 2011ā2014, http://www.eudime.unical.it
Palavras-chave
Membrane contactors Nafion membrane Protein crystallization Protein structure Solute diffusion Chemical Engineering (miscellaneous) Process Chemistry and Technology Filtration and Separation